PRODUCTION OF LOCOMOTIVES AND ROLLING STOCK IN THE USSR AND THE EUROPEAN SATELLITES

Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 SECRET ECONOMIC INTELLIGENCE REPORT PRODUCTION OF LOCOMOTIVES AND ROLLING STOCK IN THE USSR AND THE EUROPEAN SATELLITES CIA/RR 27 31 December 1953 CENTRAL INTELLIGENCE AGENCY OFFICE OF RESEARCH AND REPORTS R~LgN To ~~c~rr~s ~ ~Exo~~s cEr~T~~c Pr-~~~tBiATt~Y A~I~Ei~ t~SE SECRET 50X1 Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 WARNING This material contains information affecting the National Defense of the United States within the meaning of the espionage laws, Title 18, USC, Secs. 793 and 794, the trans- mission or revelation of which in any manner to an unauthorized person is prohibited by law. Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-.T PRODUCTION OF LOCOMOTIVES AND ROLLING STOCK IlV THE USSR AND THE EUROPEAN SATELLITES CIA~RR 27 (ORR Project 32-51) CENTRAL INTELLIGENCE AGENCY Office of Research and Reports i I S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T FOREWORD This report deals mainly with the USSR, which accounts for the greater part of the .production of locomotives and rolling stock in the Soviet Bloc. It deals more briefly with the European Satellites, which account for a smaller but nevertheless significant part of this production. Supplemental reports will deal more completely with the European Satellites. Co~nunist China also contributes to this pro- duction and will be considered at a later time. S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S E-C-R-E-T CONTENTS Page Summary . Part I: USSR I. Introduction 7 A. General Description of the Industry 7 1. Classification of Products 7 a . Locomotives 7 (1) Steam . 7 (2) Electric 8 (3) Diesel 8 (4) Other Types 8 b . Rolling Stock 8 (1) Freight Cars 8 (2) Passenger Cars 9 (3) Other Caz s 9 2. Relationship of the Industry to the General. Planning and Economy of the USSR .~ 9 B. Importance of the Industry 9 1. Key Position in the Economy 9 . 2. EaGP of Conversion to War Production 10 3. As an Indicator of Capabilities for Heavy Indus- trial Production 11 C . History of the Industry 11 S E-C-R-E-T Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T Page a. General 11 b. Steam Locomotives 12 c. Electric Locomotives 16 d. Diesel Locomotives 16 e . Freight Cars ... 17 f . Passenger Cars 18 2. World War II 19 3. Postwar 19 II. Administrative Organization of the Industry 21 III. Current Design and Technology 22 A. Equipment 22 1. Locomotives 22 a . In Use 22 (1) Steam 22 (2) Electric 23 (3) Diesel 23 b . In Production ~ 23 (1) Steam 23. (2) Electric 23 (3) Diesel 23 c . Planned 24 (1) Steam 24 (2) Electric 24 (3) Diesel 24 (4) Other Types 24 d. Trends 25 S-E -C -R-E -T Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E -C -R-E -T 2. Rolling Stock .. 26 a.. In Use 26 (1) Freight Cars 26 (2) Passenger Cars 26 (1) Freight Cars ~. 27 (2) Passenger Cars 27 c. Planned 27 (1) Freight Cars 27 (2) Passenger Cars 27 (1) Freight Cars 28 (2) Passenger Cars 28 3. Other Units 28 a . In Use 28 b. In Production 28 c . Plans and Trends 29 B. Gage Standards and Problems of Gage Conversion 29 1. Adjustable Gages 29 a. Locomotives 29 b . Freight Cars 30 2. Transloading of Goods 32 C. Influence of and Similarity to Foreign Designs 32 IV. Production by Plants 33 S E-C-R-E-T Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T Page A . Locomotives 34 B. Freight Cars 40 C. Passenger Cars 47 D. Locomotive Tenders 48 V. Production Estimates, 1928-60 49 A . Locomotives .. 49 1. Steam _ 49 2. Electric 51 3. Diesel 53 B. Rolling Stock 54 1. Freight Cars -. 54 2. .Passenger Cars 56 VI. Input Requirements 58 VII. Imports 6g A. From the European Satellites 69 B. From Non-Soviet Bloc Countries . 69 C. Acquisitions as a Result of~World War II 72 1. Lend Lease 72 2. War Prizes 73 VIII. Adequacy of Production 73 1. Retirement Rates 74 2. Soviet Press Complaints of Shortages 75- 3. Over All Fulfillment of the Fourth Five Year Plan (1946-50) 75 B. Outlook for the Future 75 IX. Inventory Estimates 76 S-E-C-R-E-T Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T Page 77 1. Steam 77 2. Electric .. 79 3. Diesel 79 B. Rolling Stock 79 1. Freight Cars 79 2. Passenger Cars 84 X. Capabilities, Vulnerabilities, and Intentions 85 A. Capabilities 85 1. Postwar to 1950. 85 2. Probable Changes after 1950 87 3. Conversion 88 B. Vulnerabilities 89 1. Cold-War Production 90 2. Hot-War Production 90 a. Direct Attack 91 b . Sabotage g2 3. Cold-War Inventory 93 ~+. Hot-War Inventory 93 a. Direct Attack 93 b . Sabotage 9~+ C. Intentions 94 1. Specific Indications from the Fifth Five Year Plan (1951-55) 9~+ 2. Indications of Economic or Political Changes 96 Part II: European Satellites I. Introduction .. 97 II. Studies of Individual European Satellites 97 S-E -C -R-E -T ,, Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T A. East Germany 97 1. Administrative Organization 97 2. Production Estimates 98 3. Inventory Estimates 98 a. Locomotives 98 b . Freight Cars 98 c. Passenger Cars 102 ~+. Plant Information .~ 103 5. Additional Information of Intelligence Value 109 a. Hospital Cars 109 b. Heavy-Duty Flatcars 110 c. Coal-Dust Locomotives 110 d. Return of Equipment from the USSR 112 B . Poland .. 113 1. Administrative Organization 113 2. Production Estimates _ 113 3. Inventory Estimates 114 4. Plant Information 114 5. Additional Information of Intelligence Value 119 a. Exports to Communist China, Albania, and Bulgaria 119 b. Imports from Sweden 120 ' C . Hungary 120 1. Administrative Organization 120 2. Production Estimates 121 3. Inventory Estimates 122 4. Plant Information 123 5. Additional Information of Intelligence Value 129 a. Hospital Cars 129 b. Imports from Poland 130 c. Exports of Diesel.Train Sets? 130 S E-C-R-E-T Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T Page D. Czechoslovakia . 130 1. Administrative Organization 130 2. Production Estimates 131 3. Inventory Estimates 131 4. Plant Information 134 5. Production Capacity 140 E . Rumania 141 1. Administrative Organization . 141 2. Production Estimates .. 141 3. Inventory Estimates 142 4 . Plant Information 142 5. Additional information of Intelligence Value 147 F . Bulgaria 148 1. Administrative Organization 148 2. Production Estimates . 148 3. Inventory Estimates 148 4. Plant Information 149 5. Imports 150 G. Albania 150 III. Capabilities, Vulnerabilities, and Intentions 150 A. Capabilities 150 B. Vulnerabilities 152 C. Intentions 152 Appendixes Appendix A. Technological Specifications of Soviet Loco- motives and Rolling Stock ~ 155 1. Soviet Locomotives and Rolling Stock 155 2. Soviet Steam-Diesel Locomotive 155 S-E-C-R-E-T Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T Page Appendix B. List of Plants Reported as Producing Locomo- tives and~or Rolling Stock in the USSR 201 Appendix C. Statistical Comparisons of the Locomotive and Rolling Stock Industries in the US and the USSR ... 217 S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T Table s 1. Estimated Steam Locomotive Production in the US5R by Classes, Selected Years, 1928, 1934, 1937, and 1940 15 2. Estimated Locomotive Production in the USSR by Plants Positively Identified as Producing Locomotives., Com- pared with Total Estimated Production, 1946-52 . 3. Estimated Freight Car Production in the USSR by Plants Positively Identified as Producing Freight Cars, Com- pared with Total Estimated Production, 1946-52 41 ~+. Estimated Steam Locomotive Production in the USSR from Various Sources, 1927-52 50 5. Estimated Electric Locomotive Production in the USSR from Various Sources, 1932-54 52 6. Estimated Diesel Locomotive Production in the USSR from Various Sources, 1931-50 7. Estimated Freight Car Production in'the USSR from Various Sources, 1928-50 . 8. Estimated Passenger Car Production in the USSR from Various Sources, 1928-50 Estimated Input Requirements per Unit of Production of Locomotives and Rolling Stock in the USSR 60 10. Estimated Total Input Requirements for the Locomotive and Rolling Stock Industry in the USSR, 1950, 1952, 195 5 , and 1960 61 11. Estimated Soviet Imports of Locomotives and Freight Cars from the European Satellites, 1946-52 70 12. US Shipments of Locomotives and Rolling Stock to the USSR, 1941-47 72 S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T Page 13. Estimated Steam Locomotive Inventory in the USSR from Various Sources, 1929-5~+ 78 1~+. Estimated Freight Car Inventory in the USSR from Various Sources in Terms of Equivalent 2-Axle Units, 1928-5~+ 80 15. Estimated Freight Car Inventory in the USSR from Various Sources in Numbers of Physical Units; 1828-50 81 16. Estimated Freight Car Inventory in the USSR from Various Sources in Numbers of 2-Axle Units, 1928-50 82 17. Estimated Freight Car Inventory in the USSR from Various Sources in Numbers of ~+-Axle Units, 1928-50 83 18. Estimated Production of Locomotives and Rolling Stock in East Germany, 1950-52 99 19. Estimated Locomotive Inventory in East Germany as of 29 February 1952 101 20. Estimated Freight Car Inventory in East Germany as of 20 December 1951 101 21. Estimated. Passenger Car Inventory in East Germany as of 31 January 1952 102 22. Estimated Production of Locomotives and.Rolling Stock in Poland, 19+6-~+9, 1950-55 Plan ... 113 23. Estimated Inventory of Locomotives and Rolling Stock in Poland, 19+6-52, 1955 Plan 11~+ 2~+. Estimated .Production of Locomotives and Rolling Stock in Hungary, 19+6-5~+ 121 25. Estimated Inventory of Locomotives and Rolling. Stock in Hungaryr 1938, 19+6-52, 195+ Plan ... 122 S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T Page 26. Estimated Production of Locomotives and Rolling Stock at the Ganz Electrical Equipment Factory, Budapest, 1947-51 126 27. Estimated Production of Locomotives and Rolling Stock in ~ Czechoslovakia, 1945-53 132 28. Estimated Inventory of Locomotives and Rolling Stock in Czechoslovakia, 1937, 1947-53 . 133 29. Estimated Rolling Stock Production at the Gottwald MacYiine Building Factory, Brno, 1950-51 136 30. Estimated Production of Locomotives and Rolling Stock in Rumania, 1948-52, 1955 Plan . 142 31. Estimated Inventory of Locomotives and Rolling Stock in Rumania, 1938, 1946-52, 1955 Plan 143 32. Technological Specifications of Soviet Steam Loco- motives 159 33? Technological Specifications of Soviet Mein-Line Diesel Locomotives 173 34. Technological Specifications of Soviet Diesel Loco- motives with Mechanical Transmission 191 35? Technological Specifications of Soviet Electric Locomotives -195 36. Technological Specifications of Soviet Freight Cars 197 37. Technological Specifications of Soviet Passenger Cars 199 38. Statistical Comparisons of the Locomotive and Rolling Stock Industries in the US and the USSR .. 218 39. Soviet Items of Input per Unit of Production of Loco- motives as Calculated from the US Census. of Manufac- ture s . 1947 223 S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T Page ~+0. Soviet Items of Input per Unit of Production of Rolling Stock as Calculated from the US Census of Manufactures, 19+7 227 Following Page Figure 1. Railroad Locomotive Plants in the USSR (gyp) 3~+ Figure 2. Railroad Rolling Stock Plants in the USSR (gyp) 3~+ Figure 3. First L (Pobeda)-Class Freight Steam Loco- motive Produced after World War II at the Krasnyy Prof intern Railroad Locomotive Building Plant at Bezhitsa, a Suburb of Bryansk (Photograph) ... 38 Figure ~+. Working Model of the JS-Class Passenger Steam Locomotive, the Most Modern Soviet Passenger Steam Locomotive Currently in Serial Production (Photograph) 38 Figure 5. Probable Layout of the Sibirskiy Heavy Machine Plant at Krasnoyarsk (Chart).. 38 Figure 6. Locomotive Assembly Line at the Sibirskiy Heavy Machine Plant at Krasnoyarsk (Photo- graph ) 38 Figure 7. Interior of the Locomotive Assembly Shop at ? the Sibirskiy Heavy Machine Plant at Krasnoyarsk, 19+8 (Photograph) 38 Figure 8. Interior of the Locomotive Assembly Shop at the Railroad~Locomotive_Plant at Ulan-Ude, 19+8 (Photograph) 38 S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T Following-Page Figure 9. Prewar Construction of Boilers at the Voroshilovgrad Steam Locomotive Plant imeni October Revolution, 1934.(Photo- Figure 10. Soviet VL-19-Class Electric Locomotive, Pro- duced about 1933 (Photograph) 40 Figure ll. Soviet VL-22m-Class Electric Locomotive, 1952 (Photograph) . . 40 Figure 12. Cutaway View of the TE-2-Class Diesel-Elec- tric Locomotive Currently in Production at the Kharkov Transportation Machine Building Plant {Photograph) 40 Figure 13. Tank Car Assembly Line at the Mariupol' Steel Plant imeni'I1'ich at Zhdanov, 1946 (Photograph) 46 Figure 14. All-Metal Passenger Car, Produced by the Railroad Car Building Plant imeni Yegorov at Leningrad, 1947 (Photograph) 48 Figure 15. USSR: Locomotive Production, 1928-60 (Chart ) 54 Figure 16. USSR: Freight Car Production, 1928-60 (Chart) 56 Figure 17. USSR: Passenger Car Production, 1928-60 (Chart ) 58 Figure 18. DA-Class Diesel-Electric Locomotive (1,000 Brake Horsepower), Produced by the Amer- ican Locomotive Company and Shipped on Lend Lease to the USSR, 1945 (Photo- graph ) 72 S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T Following Page Figure 19. DB-Class Diesel-Electric Locomotive (1,000 Brake Horsepower), Produced by the Baldwin Locomotive Works and Shipped on Lend Lease to the USSR, 1945 (Photograph) . Figure 20. Ea-Class Steam Locomotive of the 2-10-0 Type, Produced by the Baldwin Locomotive Works and Shipped on Lend lease to the USSR (Photograph) 72 Figure 21. Sha-Class Steam Locomotive of the 2-8-0 Type, Produced by the Baldwin Locomotive Works and Shipped on Lend Lease to the USSR (Photograph) 72 Figure 22, ~+-Axle Flatcar of 50-Ton Capacity, Produced by the Pullman-Standard Car Manufacturing Company and Shipped on Lend Lease to the USSR (Photograph) 72 Figure 23. USSR: Locomotive Inventory, 1928-60 (Chart ) .. 78 Figure 24. USSR: Freight Car Inventory, 1928-6.0 (chart ) 84 Figure 25. USSR: Passenger Car Inventory, 1928-60 (Chart ) 84 Figure 26. European Satellites: Railroad.Locomotive and~or Rolling Stock Plants (Map) 98 Figure 27. ,Refrigerator Car, Produced by Waggonfabrik Dessau SAG as Reparations for the USSR (Photograph) 104 Figure 28. Modern Polish Freight Steam Locomotive, Pro-. duced in 1946, Probably at Chrzanow (Photograph) 116 S-E-C-R-E.-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T Following Page Figure 29. Interior of. the Boiler Assembly Shop at the Chrzanow Locomotive Works, 1949 (Photo- graph) 116 Figure 30. Single-Phase to Three-Phase Converter Elec- tric Locomotive of the Kando System, Produced for the Hungarian State Railways, 1952 (Photograph) 124 Figure 31. Interior of the Locomotive Assembly Shop at the Skoda Machine Building Factory at Plzen, Showing Postwar Serial Production of Locomotives Similar to the Soviet L Class (Photograph] 134 Figure 32. Postwar Steam Locomotive, Type 150.000 , Produced by the 23d August Steel Plant at Bucharest (Photograph) 144 Figure 33. Postwar First-Class Passenger Car, Probably Produced by the Flamura Rosie Railroad Car Plant at Arad (Photograph) 146 Figure 34. Postwar Third-Class Passenger Car, Probably Produced by the Flamura Rosie Railroad Car Plant at Arad (Photograph) . 146 NOTE ON CLASSIFICATION The over-all classification of this report is SECRET. Some illustrations, however, are of lower classification and are so designated. S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 c Ia/RR 27 (ORR Project 32-51) S-E-C-R-E-T PRODUCTION OF LOCOMOTIVES AND ROLLING STOCK IN THE USSR AND THE EUROPEAN SATELLITES* Summary The production of locomotives and rolling stock in the USSR since World War II, supplemented by imports from the European Satellites, has been sufficient to allow the USSR to meet the current transportation needs of the Soviet economy and to modern- ize to some extent the Soviet inventory of locomotives and rolling stock. The production of locomotives and rolling stock in the European Satellites apparently has been barely adequate, after meeting requirements-for reparations exports to the USSR, to meet their current needs. Their inventories have remained at minimum levels, with no "cushion" to meet emergency demands. In the USSR, domestic production supplies a large part of cur- rent requirements for locomotives and rolling: stock. Soviet pro- duction of locomotives in 1952 is estimated at approximately 2,250 steam, 280 electric, and 230 diesel units; the production of freight cars at approximately 64,000 ~+-axle units and 9,000 2-axle units; and the production of passenger cars at approximately 2,800 units. All these numbers greatly exceed comparable numbers for any prewar years. Soviet input requirements cannot be accurately estimated at present. On the basis of US analogy, raw steel -- the most signif i- cant material input -- would have amounted to roughly 2 million metric tons in 1952. In the European Satellites, planned production in 1952 was to amount to a total of 1,200 locomotives (steam units, except for 65 electric units), 53,000 freight cars, and about 2,000 passenger cars. It is estimated that these planned goals were substantial]~y fulfilled. Satellite production evidently constitutes a significant contribution to the Soviet Bloc economy. Although a large propor- tion of Satellite production is destined for export to the- USSR; as * This report contains information available as of 1 July 1953? ~ For estimates of the Soviet production of locomotives and rolling stock, 1928-60, see V, below. S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 reparations or under commercial trade agreements, it has not been possible to determine accurately the amount of these exports for at~y of the postwar years : - ~ _ ~ , ; ?r,~ ~~ ~ , . + ' Y.. During World War II?-the Soviet ~iriveritory of?-locomotives. and rolling stock declined in quality and numbers as a result of hard use, losses, and lowered production. Following the war the pre- war rate of expansion. was quickly regained and has been maintained. Estimates show an inventory in the USSR at the end of 1952 of ?33,500 steam-locomoti.ves, 1,,380; electric locomotives; 1,088 diesel locomotives, 450,000 2-axl-e freight?,cars and 415,000 ~+-axle freight _. cars (a total freight car inventory,of 1:;280,000~eguivalent 2-axle units), and ,41.,933 passenger. cars.- These' inventory figures .in-. elude a considerable-number. of old and.?somewhat inferior units,-in spite of .increasing: rates,-of retirement; which allow- for gradual~_ - standardization and modernization. _. ,?. _. ?.j ~, -_ ~.~'' 1, i, .. -,- ~ Inventories~of?locomotives and rolling?stock.in,the European ? Satellites are~much~less homogeneous (taken.country,by country or collectively)~than the Soviet inventory. Satellite inventories still include a much greater diversity of types and a greater-pro- portion of,-,obsolete or .?obsolescent.units., .As a whole, the Satel- . lite inventories, although improved in quantity and quality since World War II, are?_less?adequate than the Soviet inventory to meet current traffic requirements. -The :total-,inventory of the European. Satellites at 'the end of.i952 is estimated at some 20,000 loco-_ motives, 475,000 freight cars, and 33,000.passenger cars, including. unserviceable?.units. In the absence,of-reliable information it is assumed that about 20 percent of?the total?inventory is unfit for. service at any given time. * : ~ , ~ _._ _ ~ ~ ? In the USSR, 20 plants are known to be engaged in the production of locomotives. and~or?rolling,stock, and there are 36 others that also may be so engaged. In addition, several plants have been iden- tified definitely eitherlas.overhaul or repair shops or. as parts - plants. Steam locomotive production has been established at plants , in Bezhitsa, Gor'kiy, Kolomna, Krasnoyarsk, Ulan-Ude, and Voroshilovgrad. Production of electric locomotives-?occurs at Novocherkassk, and?produc- tion of diesel locomotives occurs at.Khar'kov.. Freight cars are - ? produced at Altayskoye, Bezhitsa, Dneprodzerzhinsk, Engels, Kalinin, * For estimates of the-Soviet inventory.of-locomotives and rolling, - stock, 1928-60, see IX, below. - ~ -.- S-E -C-R-E -T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E -C -R-E -T Kaliningrad, Kiev-Darnitsa, Nizhniy Tagil, and Zhdanov. Production of passenger cars has been identified at Leningrad, Mytishchi, and Riga. These plants are under the authority of the Main Administrations of Locomotive Building and Railroad Car Building, which in turn are sub- ordinate to the Ministry of Transport and Heavy Machine Building. The organization of production in the Soviet locomotive and rolling stock industry is different from that in the US, inasmuch as the Soviet industry is state-owned and production control is at a national level. As a consequence, production at a given plant is usually serial production of a single model for a reasonably long period, thus affording more opportunity for mass production economies. In the US, production is usually of a "batch" nature, as each producer manufactures units in smaller numbers in response to orders received from the individual railroads. Both systems have merit, the Soviet one lending itself to assembly-line produc- tion with a larger ratio of semiskilled labor to skilled labor and the US system resulting in the production of units specifically designed to meet the needs of each railroad rather than the produc- tion of all-purpose equipment which may not be best suited for any particular service. Of the 7 European Satellites, only 5 contain facilities of significant size for the production of locomotives and rolling stock -- East CTermar~y, Poland, Hungary, Czechoslovakia, and Rumania. The production of locomotives and rolling stock in the various European Satellites is organized in very much the same fashion as in the USSR, although on a smaller scale and on a less standardized basis. In design and technology the production of locomotives and rolling stock, both .in the USSR and in the European Satellites, rests on a solid basis established before World War II. In general, the USSR produces a sufficiently wide range of specialized models, which are similar in design to average US units of the same classifications. Since the war the USSR has been expanding the production of electric and diesel locomotives, initiated on a small scale before World War II. An extensi~te shift to diesel locomotives has not become evident, although such a trend may develop if it is found that the additional technological difficulties of production and maintenance as well as the problem of fuel supply can be met satisfactorily. Freight cars are modern specialized units of the ~+-axle type, and passenger cars are mostly of all-metal construction. ~' See II, below. S-E -C -R-E -T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T .The European Satellites produce a wide variety of equipment, including several specialized 'items such as hospital cars which East Germany and Czechoslovakia have been reported to be building; special heavy-duty flatcars built in large numbers in East Germany; armored cars built in Czechoslovakia and Poland; and diesel train sets built in Hungary in sizable quantities not only for the USSR but also for East Germany, Bulgaria, and Argentina. Railroad operations in the Soviet Bloc are signif icantly af- fected by the difference between the Soviet track gage, which is 5 feet, or 1,524 mm (broad gage), and the European track gage, which is ~+ feet 8-1~2 inches, or 1,435 mm (standard gage). This difference does not affect the operation of locomotives, which normally do not operate in any but their home country, nor does it seriously affect passenger train operation, since the transfer of passengers from one car to another is easily made. It therefore affects production of locomotives and passenger cars only by dif- ferentiating models produced in the European Satellites for Soviet and Satellite use. It has, however, led to attempts to overcome the need for transloading freight, which entails the expenditure of considerable time and effort. The USSR has instituted three methods to ease or overcome the problem of transloading. The first and most practical of these methods is to change the wheel set or the bogie by raising the car and rolling out the first set and substituting one of the wider or narrower gage. This method in- volves some changes in brake rigging in some cases, but such changes are not usually difficult. This method also requires a sizable stock at the transfer point of wheel sets and bogies of both gages. The second method, also practiced to some extent, is that of re- moving the wheel and axle .from the car and hydraulically moving the wheel on the axle to the desired gage. This method works well if the gage is tc be~changed only once or, at the_most, a few times. Since the wheels are normally pressed on an axle with 40 tons or more pressure, continual shifting of the wheel over the same area would cause eventual loosening because of deformation of the metal. The third method which can be used is that of a wheel and axle set on which the wheel gage may be adjusted by means of a device such as a pin which can be pulled from a slot in the axle and reinserted in another slot when the gage change has been effected. This third method is 'subject to rather. severe technological difficulties, and actual use of the method is not believed to be common. Production of cars with adjustable gages has not been reported in any Soviet plant. -4- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E -C -R-E -T Neither the production facilities nor the inventory of loco- motives and rolling stock of the Soviet Bloc'is significantly- vulnerable to any cold-war action by the West, although shortages of raw materials, particularly steel, are more frequently reported in the Satellites than in the USSR and a cut-off of Western exports of steel to them would have a limited effect on their cold-war capabilities to produce locomotives. In the case of a hot war, the producing plants in the USSR would become vulnerable to direct or- indirect attack of various. types. The possibility of direct attack on or sabotage of electric power supplies, foundries, and labor supply would provide the most important physical vulnerabilities, and any attack which interfered with the flow of raw material into the plant would indirectly affect output. The operating inventory of locomotives and rolling stock also would be vulnerable under hot-war conditions. Destruction of a significant portion of_the inventory would make it impossible for the railroads to meet the traffic demands placed on them for the movement of freight and military items, including troops, and would reduce the industrial and military capabilities of the whole economy, including the rail- road equipment industry itself. The Satellites would have much the same hot-wa,r vulnerabilities as the USSR with respect to production facilities, but their inventory would be somewhat more vulnerable because of the lack of "cushion." So far as can be determined, Soviet intentions are to continue the present program of building up the inventories with newer and more modern equipment, at the same time increasing the total capacity of the railroads in terms of ability to move larger amounts of freight. Soviet statements in the Fifth Five Year Plan (1951-55) call for an increase by 1955 in railroad freight transportation of some 35 to ~+0 percent, and estimates of production and inventory indicate that this goal is not unrealistic. The trend of postwar production indi- cates an increase of about ~+0 percent in the freight car inventory during the period, an increase which corresponds favorably with the Plan target of an increase in railroad freight transportation of some 35 to ~+0 percent. The steam locomotive inventory probably is due to increase by somewhat less, and electric and diesel locomotives in- ventory by much more, than this percentage. The passenger car ? inventory also is due to increase, although at a lgwer rate than that of freight cars. During the Fifth Five Year Plan period, more powerful steam loco- motives probably will be introduced, as will more modern diesel and electric locomotives. Freight cars will continue to be pz?edominantly S-E-G-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S E-C-R-E-T of the modern ~+-axle types, and passenger cars should continue to improve?in numbers and in accommodations for passengers. No present indication of a trend toward extensive dieselization is evident. Such a program might be expected at a later date, since Soviet imitation of US practice has been common in the past. The additional problems of production, cold-weather operation, and fuel suppJ~y, however, are deterrents to any early trend in this direction. Soviet facilities for the production of locomotives and rol- ling-stock were partially converted to armaments production in World War II,.and present Soviet Bloc facilities presumably would be converted again to such a purpose in the event of a hot war. Indications of conversion to armaments production have not been noted to date. Arty such indications would represent a significant shift in Soviet economic policy. The primary determinant of the intentions of the European Satellites is Soviet policy. Should Soviet planners so decide, the Satellites could convert their present capacity to armaments production, or, conversely, they could undertake to increase their production of railroad equipment for the USSR, thus releas- ing internal Soviet plants for conversion. Present indications point to a maintenance of the status quo at least for the time being, with a large percentage of Satellite production being diverted to the USSR. S-E -C -R-E -T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E -C -R-E-T PART I: USSR I. Introduction. A. General Description of the Industry. The locomotive and rolling stock industry of the USSR is somewhat different from that of the US. Since this industry, like nearl,}r all Soviet industries, is state-owned, the production plans for the various plants are determined not by orders placed by the various railroad systems but rather by order of the ,State Planning Commission. The basic result of this system is that individual plants engage in series production of one type of unit over a considerable period of time. In. the US, on the other hand, a company -- usually a producer of only locomotives or rolling stock -- receives its orders from various railroads and constructs 1 or more units for each of these railroads to spec if ications agreed on by the 2 parties. This practice results in what may be called "batch" production, although production usually takes place on an assembly-line. basis if the number of units is significant. Both systems have merit. The Soviet system of continuous production of one type of unit within a plant better lends itself to assembly-line mass production by semiskilled or unskilled labor, whereas the US system lends itself to production of units specifically designed to meet the traffic and road conditions of the particular railroad which has ordered them. 1. Classification of Products. The products of the Soviet locomotive and rolling stock industry are classified within this report as follows: (1) Steam. A steam locomotive is a power unit which derives its energy from the combustion of coal, oil, or other fuel in afire-tube boiler. The steam produced in this boiler is piped to cylinders, and the energy developed is converted to~reciprocating motion and thence to rotary motion at the driving wheels by means of mechanical linkages. -7- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C -R-E-T (2) Electric. An electric locomotive is a power unit which derives its energy from overhead or side transmiss-ion lines .carry- ing.electrical current of the required voltage and density. This energy is converted to rotary motion at the driving wheels by means of electric motors mechanically geared to the driving axles. (3) Diesel. A diesel locomotive is a power unit which derives its energy from the combustion of fuel oil in an internal combustion engine of the compression-ignition type (diesel engine). In most mainline units the rotating energy thus produced is con- verted to electrical energy by means of an electric generator, and this electrical energy is then converted to rotary motion at the driving wheels in the same manner as in the electric locomotive. In some smaller switch and shunt locomotives the diesel motor is connected mechanically with the driving wheels, effecting a direct drive rather than a diesel-electric. drive. (4) Other Types. Other types of locomotives, primarily of experi- mental design, have been produced in the USSR. They include steam- diesel locomotives and gas-turbine locomotives.* b. Rolling Stock. (1) Freight Cars. Freight cars are nonpowered units which are. designed for the carrying of goods of various types. The princi- pal types of freight cars produced in the USSR are the following: boxcars, flatcars, gondola and hopper cars, tank cars, refrigerator cars, and other special-purpose cars. * For a description of these types of locomotives, see III, A, 1, below. S-E-C -R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E -C-R-E -T (2) Passenger Cars. ? Passenger cars are units, usually nonpowered, which are designed for the carrying of persons and for other passenger train operations. They include coach, sleeper, mail, diner, and baggage cars. Some passenger cars such as subway cars and motor rail cars contain a power unit and are thus self- propelled, but they still are classified as rolling stock. (3) Other Cars. ' Other cars include such units as crane cars, track-laying cars, and other maintenance cars. 2. Relationship of the Industry to the General Planning` and Economy of the USSR. The locomotive and roiling stock industry of the USSR is an integral part of the economy. As industrial capacity in- creases, so must the number of locomotives and rolling stock units increase to supply the expanded industrial facilities of the coun- try with the goods required. Basically the railroad transportation service is responsible for carrying the expanded traffic, but it, in turn, is dependent on the availability of locomotives and rolling stock to meet the demands placed on it. B. Importance of the Industry. 1. Key Position in the Econorgy. The modern economy oflthe USSR requires an ability to concentrate its resources for production and to disperse the prod- ucts to the consumer for end use or for purposes of further produc- tion. In 1947 the railroad transportation service of the USSR accounted for approximately 85 percent of the total transportation services. The railroad transportation service depends on the loco- motive and rolling stock industry to supply the units required to render its services. In an expanding economy, new locomotives and rolling stock are required not only to replace retired units but also to meet the increasing demands placed on the railroad trans- portation service. Indicative of the importance of locomotive and rolling stock production in the USSR is the emphasis placed on it in all S-E -C-R-E -T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T the past Five Year Plans, together with indications that such empha- sis is continuing at present. Cessation of production of loco- motives and rolling stock would not have an immediate effect on the economy of the USSR, because the present inventory could be over- utilized for perhaps 2 or 3 years and the required services still could be rendered by the railroad transportation service. After such a period of time, however, such a large percentage of the inventory would be out of service for major repairs or mandatory retirement that without new units as replacements the rail~transpor- tation service of the country would suffer greatly and eventually collapse. 2. Ease of Conversion to War Production. The locomotive and rolling stock industry of any coun- try is ideally suited to war production. During World War II, both the US and the USSR converted marry of their locomotive and rolling stock establishments to armaments production. The American Locomotive Company and the Baldwin Locomotive Works* in the US pro- duced tanks during the war and are engaged in some production of this nature during the present cold-war situation. In the USSR those plants which. were neither destroyed nor evacuated during World War II were converted to armaments production. A prime example is the railroad car plant at Nizhniy Tagil in the Urals. This plant reportedly turned out over 50,000 tanks during the war and at present is building both railroad cars and tanks on parallel assembly lines. l~~-*- The raw materials, tools, equipment, and labor required for the manufacture of heavy armaments ,are strikingly similar to those used in railroad equipment plants. With the proper prepara- tion beforehand, conversion from production of railroad equipment to production of military armaments can be made easily. It may be assumed that the Russians are: well aware of this fact. and have. made the necessary preparations to carry out such a conversion should it appear appropriate. * The Baldwin Locomotive Works was merged with the Lima-Hamilton Corporation on 30 November 1950, the new combine becoming the Baldwin-Lima-Hamilton Corporation. S-E-C-R-E-T 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S E-C-R-E-T 3. As an Indicator of Capabilities for Heavy Industrial Production. Because the production of locomotives and rolling stock normally keeps pace with the general peacetime industrial develop- ment, the rate of production of these units provides a rough index of a country's general level of industrial production. In addition, since the large-scale production of locomotives and rolling stock requires a large amount of heavy industrial equipment and con- siderable engineering and management skill, the ability of the [iSSR to produce these items to varied specifications in extremely large numbers is a good indication of Soviet general ability to produce heavy capital goods. History of .the Industry. 1. Pre-World War II. a. General. The manufacture of railroad equipment, particularly locomotives, reached a comparatively high level in Tsarist Russia, and the USSR inherited a relatively well-developed industry, par- ticularly as contrasted with the machine tool and metallurgical industries, which are primarily Soviet developments. ~ The indus- try then included the following plants: the Alexandrovsk and Nevskiy plants at Leningrad and plants at Kolomna, Votkinsk, and Voroshilovgrad (then Lugansk), all?of which built locomotives; a plant at Bezhitsa (Ordzhonikidzegrad~, which built locomotives and railroad cars; and plants at Kalinin (then Tver') and Kryukov, which built railroad cars. During the Russian Revolution and civil war and thereafter until 1926 the locomotive and rolling stock industry of the USSR was almost dormant as far as expansion of production was concerned. But with the initiation of the First Five Year Plan, begun in 1928, the locomotive industry of the USSR under- went tremendous expansion. During the 1930's the USSR became virtually independent of foreign imports. The few US- and UK- built locomotives supplied to the USSR in 1931-33 probably were acquired largely for their value in indicating the latest de- velopments in foreign locomotive design. The principal locomotive plants developed under the prewar. Five Year Plans were those at - 11 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T Kolomna, some 60 miles east of .Moscow, and at Voroshilovgrad, in the Eastern Ukraine. The second of these concentrated chiefly on. the production of FD-class engines. Other locomotive plants were situated at Kharkov, Bryansk, Gor'kiy, Orsk, Ulan-Ude, and Novocherkassk, and electric locomotives were built at the Moscow Order of Lenin and Order of Labor Red Banner Dynamo Works imeni Kirov. 3~ The principal rolling stock plants developed before World War II, in addition to those built in pre-Soviet years, were those at Dneprodzerzhinsk and Nizhniy Tagil. 4~ During the First and Second Five Year Plans (1828-37), rolling stock plants also were set up in Kryukov and Dnepropetrovsk, and, during the Third Five Year Plan (1938-42), car foundries were established in Ust'- Katav and Sverdlovsk. 5~ In 1938, when there was a serious deficiency of rolling stock, a number of other plants undertook to supplement the production of railroad cars: namely, Balashov machinery fac- tory, Kazan shipyard, and Chkalov repair plant. Other supplemen- tary production was planned but was interrupted by World War II. 6~ Before the Revolution, Russia was using .largely freight locomotives of classes 0, E, Shch, and F.and passenger locomotives of classes N, K, and S.~ In 1913, Russian locomotive production totaled 418 units. The 0 class, with an 0-8-0 wheel arrangements and weighing only some 52 tons, predominated; 11,000 out of Russia's total stock of 20,500 locomotives in 1917 were of that type. Considerable numbers of these old locomotives are still used for switching and shunting. After the Revolution the steam locomotive inventory of the USSR was in extremely poor condition. In 1921 the Soviet inventory of steam locomotives amounted to 18,500 to 19,000 units, -~ For specifications of these and other types of Soviet locomotives and rolling stock, see Appendix A. Class designations of types of Soviet locomotives throughout this report are transliterated from the Russian. ~~ The wheel arrangement of a steam locomotive is commonly expressed by means of three figures denoting the number of wheels on the lead- ing truck, the driving gear, and the trailing truck, respectively. Thus an 0-8-0 wheel arrangement indicates a locomotive with no lead- ing truck, 8 driving wheels, and no trailing truck. S-E -C -R-E -T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T but some 60 to 66 percent were not serviceable. Furthermore, only 3 to 4 percent of them were heavy-duty locomotives, and 25 percent were from 20 to 60 years old. In spite of the fact that, during the period from 1922 to 1927, repair of nonserviceable locomotives was stressed, the inventory declined by 1928 to 17,000 units, most of which were old. New freight locomotives produced during this period were largely of the E class, and the bulk of the locomotives produced for passenger service were of the newly designed Su class. In 1921-22, after the Revolution and civil war, there appeared an altered version of the E-class locomotive (classified as Eg and Es) produced by German and Swedish manufacturers. During the first decade of the Soviet regime, in fact, all the steam locomotives built or imported by the USSR were based on prerevolutionary types: thus, for example, the Su-class passenger locomotive, of which between 500 and 1,000 were built after 1925, was a development of the Tsarist S class. 8/ In 1927, the last year before the inauguration of the Five Year Plans, production of Steam locomotives amounted to only 458 units. 9~ During the First Five Year Plan (1928-32), 3,412- new steam locomotives were built, 10~ principally E-class freight and Su- class passenger units. 11~ This production resulted in an increase of 43 percent in the total tractive effort of the locomotive inventory. 12~ In 1932, output reached 827 steam locomotives per year.~~- 13~ During the Second Five Year Plan (1933-37), 5,957~~ new steam locomotives were built, 14~ including the new FD- and SO-class freight and JS-class passenger locomotives, 15~ as well as the older E- and Su-class units. The highest level of prewar production was reached in 1935, when a total of 1,556 steam locomotives was produced. 16~ In reviewing the steam locomotive inventory of the USSR, mention must be made of the huge AA (Andrei Andreyev) class, which, with its 4-14-4 wheel arrangement, is the largest type of steam locomotive ever built in Europe. The original prototype .of ~ This figure is lower than the evaluated average of 3,442 as given in Figure 15, following p. 54, below. ~~ For estimates of the Soviet production of locomotives and roll- ing stock, 1928-60, see V, below. This figure is higher than the evaluated average of 5,918 as given in Figure 15, following p. 54, below. This figure is higher than the evaluated average of 1,518 as given in Figure 15, following p. 54, below. S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E -C -R-E -T this class was produced by the Voroshilovgrad Locomotive Works in 1934, the main object being the comparison of the efficiency and power of such a locomotive with that of the Beyer-Garrett or Mallet types of locomotives. The distribution of adhesion weight of the AA-class locomotive over as many as 7 driving axles enables the axle load to be kept down to about~20 tons only. It would appear that only a very small number of these locomotives were built and that they were intended for use on the Donbas coal traffic lines. Also worthy of mention is the Beyer-Garrett articulated locomotive, with a 4-8-2 + 2-8-4 wheel arrangement, which was supplied to. the Soviet railroads by Beyer, Peacock, and Company of Manchester, England, in 1932. At the time of its construction this Beyer= Garrett locomotive, weighing 255 tons, was the heaviest-and most powerful steam locomotive ever built in Europe. It had a maximum axle load of .19 tons and was given the classification of Ya. It is reported, however, that the maintenance requirements of this locomotive did not accord with Soviet operating conditions and that it consequently was dismantled in 1937. 17~ During the Third Five Year Plan (interrupted in 1941 by World War II), production of steam locomotives in terms of physical units declined steadily, probably because of .the build- ing of prototypes and the placing in serial production of new units. This decline was largely offset by the fact that the average trac- tive effort of the steam locomotives built in these years steadily increased, with the larger portion of the production being of SO-, FD-, and JS-class power. Shortly before World War II the Soviet railroads also had brought into use on the Moscow-Leningrad "Red Arrow" express service a new type of passenger steam locomotive with a 4-6-4 wheel arrangement, produced by the Kolomna Locomotive Works, claimed to be capable of a maximum speed of 112 miles per hour. A similar passenger locomotive also was produced by the Voroshilovgrad Steam Locomotive Plant imeni October Revolution, with an even higher claimed maximum speed. In addition, various experimental steam loco- motives (such as higk~-pressure and steam-electric) were being tested in the USSR before the war. Then, in February 1941, only a few months before the extension of the war to the USSR, the Kolomna Locomotive Works produced the initial steam locomotive of another * Tonnages throughout this report are given in metric tons. - 14 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T class, the LK (Lazar~Ka.ganovich), with a 2-8-2 wheel arrangement and an axle of 23 tons. The usefulness of this locomotive is restricted by its comparatively high axle loading. 18~ The changes which occurred during the first three Five Year Plans in the production of steam locomotives are shown in Table 1. Table 1 19~ Estimated Steam Locomotive Production in the USSR by Classes Selected Years, 1928, 1934, 1937, and 1940 Class 1928 1934 1937 1940 Freight . FD 0 1.2 9.5 14.5 so 0 0 3.5 8.g E (All Types) 25.5 41.9 40.2 47.3 Others 74.5 56.9 46.8 29.3 Total 100.0 100.0 100.0 100.0 Passenger JS 0 0.1 2.7 12.0 Su 16.8 2g.9 42.4 48.5 Others 83.2 70.0 54.9 39.5 Total 100.0 100.0 100.0 100.0 The average drawing power (tractive effort) of freight steam locomotives in the inventory increased from 21,200 pounds in 1913 to 31,600 pounds in 1940, and of passenger steam locomotives from 17,200 pounds in 1913 to 21,500 pounds in 1940. 20~ Between 1938 and the outbreak of the war in 1941 the improvements in the Soviet steam locomotive inventory resulted in an inventory of steam locomotives over half of which were less than 12 years old, the youngest inventory in the world. 21~ S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S -E -C -R E -T c. Electric Locomotives. The first Soviet electric locomotive was assembled in 1932. Within 4 years, production had risen to 44 units annually. In the years following 1936, however, production declined steadily, probably because enough units were available for the trackage elec- trified. This type of locomotive is particularly useful for regions with difficult grades, such as the Caucasus and the Urals. It also is more .efficient than the steam locomotive in the colder regions and for hauling heavy loads. In addition, low-grade fuels or water power may be used to supply the necessary electricity. These ad- vantages are somewhat offset by the higher initial cost of the production of these units over the cost of steam locomotives ar4d in addition by the cost of electrification of the trackage where these units are to operate. 22~ Prewar models of electric locomotives produced in the USSR were the SS, VL-19, VL-22, and PB classes. "The first two models of the SS class were built in the US and the remainder in the USSR. The SS class is a~freight locomotive designed for use ,in the heavily graded 39-mile section. of the Suram Pass in the Caucasus. The VL classes predominated in prewar years, 100 of the stock of 140 electric locomotives in 1937 being of that class,. The VL classes are passenger-freight models, and the PB class is a passenger locomotive. In addition to these three principal classes, electric locomotives of Italian construction with the cla,ssif ica- tion of SK were introduced before the,war in connection with the Kizel-Sverdlovsk electrification. 23~ d. Diesel Locomotives. The first diesel locomotives in the USSR were pro- duced singly, probably as experimental prototypes. The earliest model, the Shch-EL-l, was built in 1924 in Leningrad. Following the production of this unit the Russians developed plans for the 0 EL-6 and O-EL-7, and for the E-EL-2, -3, -5, -8, and -9. Of these, the 0 EL-6 and O-EL-7 as well as the E-EL-S and E-EL-B were actually produced in Germany far the USSR in 1931 and 1932? The E EL-2 was built in 1924 and redesigned in 1928 by the Russians. They also constructed 1 E-EL-S unit in 1931 and 1 unit designated the VM-20 in 1934. It is not known dust when the E-EL-9 was built, but it was followed in 1932 or 1933 by the E-EL-12, which became the first series-produced diesel locomotive - 16 - S E-C-R:E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 I  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E -C -R-E -T in the USSR. Both of these units were built at Kolomna. This E-EL-12 class was the standard diesel locomotive in the USSR be- fore World War II. 24~ Soviet acquisitions of diesel locomotives (domes- tic production plus German-built models) before World War II amounted to-some 27 units. During the Second Five Year Plan, some 248 diesel locomotives were to have been produced, 110 of them in 1937. 25~ Technological problems probably were the reason why only the 27 units were actually placed in service during this period. e. Freight Cars. The level of freight car production in Tsarist . Russia was comparatively lower than that of locomotive production, and the task of the USSR under the Five Year Pl.a,ns was conse- quently more difficult. The vast majority of freight cars were small 2-axle units with link couplers and hand brakes. By 1927-28, actual physical production was 7,871 freight cars, of which 5,130 were 2-axle units and the remaining 2,741, 4-axle units. Freight car production increased slightly from 1927-28 to 1934, with both 2-axle and 4-axle units being produced, in a ratio of about two 2-axle units to one 4-axle unit. In 1935, however, the production of freight cars was deemed too low, and L.M. Kaganovich was appointed Commissar of Railroads, evidently in the expectation that he would achieve almost immediate results. Production in fact dumped to 85,675 2-axle units in 1935? This increase was accomplished by the following two means: (1) passenger car produc- tion, which had been increasing during the preceding years, was cut ~ Almost all Soviet. statistics on freight car production and in- ventory are given in 2-axle units. The 2-axle unit is the early type of freight car produced by the Russians, with a tare weight of 7 tons and a capacity of 16.5 tons. This type of car is standard on most European railroads today. In the USSR, however, production. of laxger freight cars with 4 axles has been increasingly predominant, until at present almost all production is of the 4-axle type. For the purposes of counting, however, a 4-axle unit'is considered to be equivalent to two 2-axle units. In this report, all estimates will be in terms of equivalent 2-aacle units, unless otherwise stated. - 17 - S E-C-R E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S E -C -R E -T back sharply; and (2) production of 2-axle flatcars, which are easier to produce than any 4-axle car and any other type of 2-axle car, in- creased sharply. Two-axle flatcars, which had accounted for only 21 percent of the total freight car output in 1927-28, constituted 73 per- cent of the total in 1935. 26~ In the years after. 1935, production declined, primarily because of the trend toward larger a,nd more complex units, which are harder to build. In 19.39, production reached a low of 37,600 equivalent units. In 1940 it began an upswing, which con- tinued in 1941 until the outbreak of World Aar II. 27~ The rise in the number of 4-axle freight cars in the total inventory has been consistent., Relative to the total inventory, they amounted to only 1.5 percent in 1913 and increased to 5.5 percent by 1928, to 8.5 percent by 1932, and to 19 percent by the end of 1937? By 1940 the number of 4-axle freight cars had risen to approximately 25 percent of the total inventory. 28~ In line with the increase in . the percentage of 4-axle cars, the number of freight cars equipped with automatic couplers and air brakes has also increased greatly. In 1913, only 15 percent of the cars were equipped with brakes; and then with hand brakes only. By 1 January 1840, 68.4 percent of the units had air brakes. 29~ The increase in number of freight cars equipped with auto- matic couplers has been more recent. In 1935, only 3.4 percent of the freight cars had automatic couplers, the remainder being of the link- screw type, whereas by 1 January 1840, 31.2 percent were. so equipped. 30~ f . Passenger Cars . Under tree Five Year Plans before World War II, Soviet passenger car production advanced considerably. Between 1927-28 and 1934, it almost quadrupled. Thereafter, until the outbreak of the war, production declined unevenly. Under the First Five Year Pl.a,n (1928-32), 4,054* passenger cars were produced, and under the Second Five Year Plan (1933-37), 5,291 were produced. Under the Third Five Year Plan (1938-42), before the outbreak of war, some 3,300 units were produced. 31~ In 1841 the passenger car inventory was 80 percent higher than in 1920. 32~ The passenger cars produced before the war were mainly 4-axle units of the wooden type, equipped with compressed air brakes. Two main classes of passenger cars were produced by the Russians, "hard" and "soft" classes, providing a minimum of accommodations for the passengers. One concession made to the ~ This figure is higher than the evaluated average of 4,038 as given in Figure 17, following p. 58, below. ~ This figure is lower than the evaluated average of 5,561 as given in Figure 17, following p. 58, below. - 18 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S~-C-R-E-T Soviet climate was the installation of individual heating units in each car rather than reliance on steam heat supplied from the loco- motives. Just before the outbreak of the war, all-metal passenger cars were put into .production, but only small numbers were produced at that time. 33 2. World War II. During World War II, plants which were previously engaged in the production of locomotives and rolling stock and had not been destroyed or evacuated because of the German invasion were converted to armaments production. Production of locomotives and rolling stock virtually ceased; and the USSR became dependent on Lend-Lease ship- ments and captured "war prizes" for additions to its inventory. The Voroshilovgrad, Bezhitsa, and Kharkov locomotive plants were de- stroyed by enemy action or Soviet demolition. Much of the equipment, however, was evacuated to the East. The Kolomna locomotive plant was evacuated during the war but was not destroyed. 3~+~ The locomotive plant at Krasnoyarsk was equipped during the war with equipment evacuated from the plants in the Ukraine, but it did not start production of locomotives until after the end of the war. The Kalinin and Dneprodzerzhinsk railroad car building plants were destroyed during the. war, restored after the war, and went back into production in 19+6. 35~ At Nizhniy Tagil, the site of a huge railroad car building combine, tank production was intro- duced on a mass production basis. Reportedly, over 50,000 tanks were produced at this plant, an excellent demonstration of the ef- fectiveness with which the industry may be converted to armaments production. 3. Postwar. With the end of hostilities the locomotive and rolling stock industry of the USSR began a tremendous program of reorganiza- tion, restoration, and new construction. The Moscow Dynamo Plant imeni Kirov, which produced electric and diesel locomotives before World War II, turned to the production of parts and subassemblies for the production of these units at other plants. The locomotive plant at Khar'kev was devoted to the production of main-line diesel * For estimates of Lend-Lease and war-prize acquisitions by the USSR, see VII, C, below. S-E -C -R E -T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R E-T locomotives. Novocherkassk began the production of main-line elec- tric locomotives. Voroshilovgrad, Bezhitsa, and Kolomna were re- constructed and began production of steam locomotives. Nizhniy Tagil was reconverted to the production of freight cars. Kalinin and Dneprodzherzhinsk were rebuilt and once more began production of freight cars. Numerous other plants also were involved in this postwar program.~- The goals of the Fourth Five Year Plan (1946-50) were high of necessity., The locomotives and rolling stock of the USSR suffered greatly during the war; both from enemy action and from overutilization and lack of maintenance. Getting the railroads back into shape was essential if the planned industrial expansion of the economy was to be attained. The Fourth Five Year Plan included the following production goals for. the 5-year period: 6,160 steam locomotives, 555 electric locomotives, 865 diesel- electric locomotives, 472,500 freight cars, and 6,000 passenger cars. 36/ Principal types of steam locomotives to be built in- cluded the new L (Pobeda) class, as well as the prewar FD, S0, JS, and Su classes. New types were also to be developed. Diesel locomotives were to be of the TE-1, TE -2, and.TE-5 classes, and electric locomotives were to be of the VL-22m class. Postwar passenger cars were to be largely all-metal types. Freight cars scheduled to be produced were to be almost exclusively ~+-axle units, with substantial production of specialized types.~-~ Reports on development of the industry after the end of the Fourth Five Year Plan are scattered and poor. Plans for the future have not been announced, and speculation as to the progress of the industry to date and in the future is dependent to a large extent on projections of earlier estimates. ~ For a more complete list of plants engaged in postwar production of locomotives and rolling stock see IV, below. ~ Actual accomplishments under the Plan are discussed in detail in V and X, below, and spec if ications of the types of units will be found in Appendix A. 'These speculations are discussed in detail in X, below. See also Appendix C, which provides comparative statistics on the US and the USSR for interpreting Soviet capabilities. S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E -C -R-E -T II. Administrative Organization of the. Industry. 37/ Before 1939 the locomotive and rolling stock industry of the USSR was lumped together, for administrative purposes, with the other machine building industries. The ukase of the Supreme Soviet of the USSR of 5 February 1939 ordered the partition of the People's Commissariat of Machine Building, which had emerged from the People's Commissariat of Heavy Industry in August 1937, into three independent commissariats: the People's Commissariat of Heavy Machine Building, the People's Commissariat of Medium Machine Building, and the People's Commis- sariat of General Machine~Building. The People's Commissariat of Heavy Machine Building controlled a Main Administration of Transport Machine Building (comprising the Krasr~yy Prof intern Railroad Locomotive Plant at Bezhitsa and the Voroshilovgrad Steam Locomotive Plant imeni October Revolution), and the People's Commissariat of Medium Machine Building controlled another Main Administration of Transport Machine Building (compris- ing all railroad car building plants). On 15 October 19+5 the People's Commissariat of Transport Machine Building was created from the People's Commissariat of'the Tank Indus- try, .which in 19+2 had emerged from the People's Comm~.ssariat of Medium Machine Building. In March 19+6 the People's Commissariat of Transport Machine Building was changed to the Ministry of Transport Machine Building. As late as March 1953, Yuriy Yevgen'yevich Maksarev was Minister of Transport Machine Building,~and the following have been identified as Deputy Ministers; Sergey A. Stepanov, A.I. Mosin, Ya.A. Nazarov, P.M. Zernov,, N.V. Zherekov, I.A. Lebedev, M.N. Popov, and D.E.~Kochetkov. The following main administrations of the Ministry of Transport Machine Building also have been identified: Main Administration of Locomotive Building (with Shcherbakov as chief). Main Administration of Railroad Car Building (with Shevyakov as chief). Main Administration of Supply. .Main Administration of River Shl.pbuilding. S-E -C-R-E -T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E -C -R-E -T Main Administration of Workers' Supply. Main Administration of Diesel Production. The death of Stalin and the rise to power of Malenkov in March 1953 resulted in several changes in the higher echelons of adminis- trative authority. The effect on the Ministry of Transport Machine Building was to combine it with the Ministries of the Shipbuilding Industry, Heavy Machine Building, and Construction and Road.Machine Building to form the new Ministry of Transport and Heavy Machine Building. The former Minister of the Shipbuilding Industry, Vyacheslav A. Malyshev, became .Minister of the new ministry. In .June 1953, Malyshev became Minister of Medium Machine Building and was succeeded in his former post by Ivan I. Nosenko. III. Current Design and Technology. A. Equipment. The.USSR produces railroad equipment more or less standard throughout the world, .although it is adapted to a degree to Soviet conditions and is in general somewhat behind the most advanced Western standards.. Locomotives. a. Tn Use. (1) Steam. A large variety of types of steam locomotives is in use in the USSR. Since steam locomotives in the USSR are used as long as 45 years before they are scrapped, there are still a great marry old units in service. 38/ Freight steam locomotives now in use on the Soviet lines include the S0, FD, L, E, and Shch classes as well as numerous US Lend-Lease units of the Ye class (Decapods).~ The principal types of passenger steam locomotives in service, in the order of their importance, are units of the ~- A locomotive with a 2-10-0 wheel arrangement. For specifications of all types of Soviet locomotives and rolling stock, see Appendix A. S E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T JSx Su, and N classes. Switch steam locomotives are mainly of the 0 class, which has been produced for many years. with slight changes each year over the preceding model. (2) Electric. Electric locomotives in use in the USSR are the combination freight-passenger VL classes (VL-19, VL-22, and VL-22m) and the SS class, which is a mountain-service freight engine. (3) Diesel. Diesel locomotives in use in the USSR include various models of the E-EL class, the VM-20, the US-built DA (pro- duced by the American Locomotive Compar~y), the US built DB (pro- duced by the Baldwin Locomotive Works), and the postwar TE-l, TE-2, and TE-5 classes. b. In Production. (1) Steam. Steam locomotives in production in the USSR are units of the L, S0, FD, JS, and Su classes. The L class is the predominant unit iri production. (2) Electric. The latest information indicates that the VL-22m class is the principal model of electric locomotive now in produc- tion at the Novocherkassk Electric Locomotive Plant imeni Budenr~yy, although a later model of either the same or a new class may now be in production. . (3) Diesel. The Kharfkov Transportation Machine Building Plant (KhZTM) is continuing its production of the TE-2 and TE-5 classes of diesel locomotives. No other units are known to be in production currently. S-E -C -R-E -T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T c. Planned. (.l) Steam. Several Soviet experimental types of steam loco- motives have been reported in postwar years. Most of them have been prototypes which are undergoing extensive tests before being accepted for mass production. One of the most important is a freight loco- motive with a 2-10-~ wheel arrangement, which reportedly passed tests in 1951. 39/ It has an axle load of 22.5 tons, which predi- cates its use on main lines with heavy rails, but it is reported as having a higher speed than the SO class, thus increasing the carry- ing capacity of single-track lines. Another important type is a passenger locomotive with a ~+-8-4 wheel arrangement and an 18.5- ton axle load. It has a tractive effort of 120 to 125 percent of the now standard Su class and reportedly will be used extensively on both main and secondary lines when put into operation. 40/ (2) Electric. No reports of development of new types of elec- tric locomotives in the USSR have been received, but progress in this field is undoubtedly continuing, since the mileage of elec- trified lines is increasing and presumably creating demands for new types of equipment. (3) Diesel. Development of diesel locomotives in the USSR beyond the TE-2 and TE-5 classes has not been reported. In view of the probable extensive dieselization of Soviet railroads. (following US practice), it is likely that development of new types of units is under way.* ' (~+) Other Types. TWO other types of locomotives should be mentioned here. The first of these is the so-called steam-diesel locomotive. This unit is designed to take advantage of the superior starting ef- fort of a steam locomotive and the higher fuel eff iciency of a diesel locomotive. Briefly, 2 opposed piston cylinders are mounted on the ~ See X, below. S-E -C -R-E -T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 I  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T locomotive, 1 on each side. They are situated between the driving axles of the locomotive, so that the wheel arrangement becomes a 2-~+-t+-2. When starting the locomotive, steam is admitted and exhausted from one side of the pistons. On reaching a certain .minimum speed, the steam supply is cut off, fuel is injected into the other side of the pistons, and the engine operates as a com- pression-ignition engine. One locomotive of this type is Down to have been built in the USSR, and it is believed that a second was built. This is the first such unit built anywhere in the world, and it is of interest in indicating the capabilities of the USSR in technological development. The second type of locomotive to be considered is the gas-turbine locomotive. The Russians claim to have built a 220-hp unit in 1933 and, on the basis of the success of this unit, to have built a ~+, 500-hp unit (date unluiown) . ~+1~ The Soviet claim cannot be validated, but it indicates that the Russians are seriously interested in this type of unit and may be well along in research on it. Development of gas-turbine locomotives was origi- nally begun by the Brown-Boveri Company of Switzerland, and the first unit was put into operation in that country in about 19+1. Since then interest in this type has been high. The British have purchased several Swiss units and have built some themselves. In the US, several units are undergoing road tests, and others are unuer construction for the. purpose of testing. There are no indications of any unusual trends in the development of locomotives in the USSR. Steam locomotives are increasing in weight and power as roadbeds permit and are being equipped with modern features commonly found on US units., such as superheaters, automatic stokers, drifting valves, roller- bearing journal boxes, air-operated sanders, and similar modern appurtenances. Electric locomotive production is fairly well developed in the USSR and can be expected to continue to improve iri types and numbers. Diesel locomotive production, which was started late, is gradually increasing, and the types of units being built conform fairly closely to US standards. All loco- motive production is following earlier US trends and can be ex- pected to continue to do so for many years to come. The * For full specifications of this locomotive, see~Appendix A~ 2. S-E -C-R-E -T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S E -C -R-E -T locomotive production programs in the USSR are comparable to a high degree with US programs of 15 to 20 years ago. The gap is closing, however, and in time the Soviet units probably will be on~a par with their US contemporaries. 2. Rolling Stock. a. In Use. (1) Freight Cars. The types of freight cars in use iri the USSR are similes to US types iri that the USSR is using flatce,rs, boxcars, gondola cars, refrigerator cars, tank cars, and other standard types. In a second respect, however, there is a vast difference. About one-third of the carrying capacity, or numerical],y about one- half of the present inventory of Soviet freight cars, consists of 2- axle low-capacity units, which means more cars and hence longer trains per given train load. In addition, a great marry cars are not equipped with air brakes or automatic couplers. The lack of air brakes requires that, in mixed trains, cars not equipped with air brakes be equipped with pipes enabling those cars equipped with air brakes to be piped to the locomotive. The lack of air brakes also decreases braking power on hills and in emergencies. The lack of automatic couplers results in a considerable time loss in making up trains and in cutting out cars at classification yards. Since rolling stock is in short supply, a great marry cars in .use are overage and in bad repair. (2) Passenger Cars. Little information is available on the types of passenger cars in use in the USSR. They seem to be an aggregate of various types of wooden and all-metal cars, ]~argely 4-axle types, predominantly of older and inferior construction. * Mixed trains are trains made up of a mixture of cars equipped with air brakes and cars not equipped with air brakes. -26- S-E -C -R-E -T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R E-T (1) Freight Cars. During the Fourth Five Year Plan (1946-50) the production of freight cars was largely of 4-axle units of modern construction, equipped with automatic brakes, automatic couplers, and other up-to-date features. The Plan called for the production of the various types of cars in the following percentages: box- cars, 38 percent; flatcars, 30 percent; tank cars, 10 percent; gondola and hopper cars, 20 percent; and refrigerator cars, 2 per- cent. 42~ Presumably this proportion was produced and is still the yardstick for production. A small number of 2-axle cars are being produced in an effort to maintain the inventory of this type of car at a level of about 450,000 units. (2) Passenger. Cars. Information available indicates that current .production of passenger cars in the USSR is largely of the all- metal type, with little or no emphasis on the production of wooden passenger cars. c. Planned. (1) Freight Cars. The USSR will continue to stress the production of specialized freight cars in an attempt to rid the inventory of its heavy overload of flatcars and boxcars. Four-axle cars with modern features will continue to dominate the production schedules, although some production of 2-axle cars will continue for a number of years, since this type of car is well suited to use on lines with light. rails and to short hauls. of small loads. (2) Passenger Cars. For propaganda purposes, the production of the relatively more expensive and more complicated all-metal passenger car in the USSR probably will continue. Equipment for the transporta- tion of more passengers is likely to continue to take a lower priority than the production of de luxe cars, which can be cited as examples of the "glorious" accomplishments of the Soviet economy. S-E -C-R E -T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T (1) Freight Cars. The trend of the past half-century will continue until such time as the Soviet inventory of freight cars is sufficient to meet the demands placed on it. No indications of stress on the production of cars peculiarly adaptable to military use have been received, the trend being instead an attempt to bring the freight car inventory up to a par with the more modern motive-power inventory. (2) Passenger Cars. The present trend in passenger car production in the USSR probably will continue until the freight car inventory no longer requires the top priority. Those cars that are built will be of modern design, but no attempt is evident to provide the Soviet people with an adequate number of passenger cars to meet its needs. 3. Other Units. Electric trains used in suburban service in elec- trified regions of the USSR were first produced in 1928 and have continued to increase in number since that time. They consist of motor rail cars which are equipped with traction motors and over- head current collectors and of trailer cars which are, in effect, ordinary passenger cars similar in appearance to the motor rail cars. Several diesel train sets imported from Hungary also are in use and consist of motor rail cars and trailer cars. b. In Production. Electric train sets are presently being produced in the USSR, and diesel train sets are being imported from Hungary. or re erences to these train sets, see Part II, Section II, C, below. ? -28- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T c. Plans and Trends. No signif icant information is available on future Soviet plans for the production of the special units mentioned above, and no trends, other than the continued production and impor- tation of these trains, are obvious or signif icant. B. Gage Standards and Problems of Gage Conversion. The gage of~Soviet locomotives and rolling stock is 5 feet, or 1,524 mm (broad gage), although that of almost all of the other European countries is ~+ feet 8-1~2 inches or 1,435 mm (standard gage). The through movement of trains in or out of the USSR, there- fore, is restricted, and considerable time is lost in transloading goods or passengers or in re gaging the wheel sets to permit transfer to a different gage. This problem has become more and more important as the USSR has developed its trade with the European Satellites and other European countries. Various schemes have been devised and tried by the Russians to solve this problem, but it is still of major concern. 1. Adjustable Gages. a. Locomotives, Since electrified lines do not cross the border of the USSR and since diesel locomotives are not widely used in either the USSR or other European countries, there is no need for gage conversion on these types. Steam locomotives are therefore the only types to be considered for gage conversion at present. Since in normal operation locomotives are assigned to certain districts, how- ever, the necessity of gage conversion in peacetime does not exist, except for permanent transfer of a unit from one country to another. Steam locomotives produced by the European Satellites for the USSR are usually equipped with wheel sets of standard Euro- pean gage without main and side rods and are towed to a transfer point with the wheel sets of the Soviet br~,d gage and the main and side rods on a flatcar behind the locomotive. On reaching the transfer point, the necessary conversion is made, and the locomotive can then proceed under its own power. S-E -C -R-E -T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S E -C-R-E-T Steam locomotives captured by the Russians were con- verted to broad gage by blocking out the cylinders from the cylinder pads with steel inserts in order to move the center line of the piston out to the wider gage of the wheels. This operation can be performed relatively easily on a locomotive whose frame is of the rail type on which the cylinders are bolted. On a locomotive with a cast frame on which the cylinders are an integral part of the loco- motive bed, such a change is not possible,. and it is not believed that gage conversions on arty such locomotives have been made. In peacetime, when both the standard- and broad-gage lines have a sufficient supply of motive power, it is likely that no gage conversion-of locomotives other than for importation pur- poses takes place. In case of war, when one gage would conceivably have enough of its units destroyed by enemy action to warrant using locomotives of the other gage, such conversions could be effected with a minimum of effort on locomotives of rail-type bed construc- tion. (Most steam locomotives in service in Europe today are of the rail-type bed construction.) b. .Freight Cars. Several devices for adjusting the gage of Freight cars have been tried'by the USSR.* There are three basic methods of changing the gage of a car,. as follows: (1) The first method of gage conversion in- volves the removal of one wheel set or bogie and the substitution of another. Tn the case of 4-axle cars, this substitution is relatively simple, since the entire bogie is changed and the brake rigging and journal boxes are integral with the bogie frame. In the case of 2-axle cars (or any car where the brake rigging is hung Prom the car frame), the substitution becomes somewhat more difficult, since clearances for the wider or narrower wheel and axle set must be allowed for. In most cases, this means cutting the journal-bo$ supports away in some areas and arranging the brake rigging for adjust- ment to either gage. After these adjustments have been made the first time, future changes are made with ease. ~ Since passenger traffic is not heavy in and out of the USSR, the gage difference does not create a problem in passenger transfer. S E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S E -C -R -E =T To change the wheel set or the bogie, the cars are run one at a time onto a special track which has 1 rail on 1 side and 2 parallel rails on the other side, set to the 2 gages.. One end of the car is jacked up, and the wheel set or the bogie is changed by running it out from under the car. The wheel set or the bogie of the new gage is then run under the car, and the jacks are lowered. This operation is then repeated at the other end of the car. It is a relatively quick and easy method of gage conversion, except that a sizable stock of wheel sets and bogies of both gages must be main- tained. (2) The second method of gage conversion reported is that of jacking up the car at one end as before, running out the present wheel set (in this case only the wheels and axles are removed from bogies), and placing the wheel set on a hydraulic press which forces the wheel in or out along the axle as required to adjust the gage to the width desired. This method works well if the gage is to be changed only once (or, at the most, a few times). The wheels are normally pressed on the axles with a pressure of about 40 tons. Moving the wheel back and forth over the same area under this pres- sure will cause deformation of the metal and eventual loosening of the wheel. This method was used on mast of the freight cars captured by the Soviet army during World War II and sufficed as long as these cars remained on Soviet-gage trackage. Many cars have been returned to the European Satellites (particular7,y East Germany), but informa- tion is not available as to whether it was possible to re gage the wheel sets hydraulically or whether new wheel sets were necessary. (3) The third method of gage conversion involves the installation on the wheel and axle of some special device which will permit the widening or narrowing of the gage by means of pulling a pin out of the axle .and reinserting it iri the axle in a different hole when the gage conversion is made. These devices have been reported at various times and vary somewhat in detail. The technological difficulties of such a scheme are such that it does not appear likely that the idea has gone much beyond the experimental stage. Substituting a small pin for the holding force of a wheel pressed on an axle with a pressure of some ~+0 tons is neither safe nor likely, and this method of gage conversion must be regarded with caution until further information is available on the technical de- tails. S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E -C -R-E -T 2. Transloading of Goods. The only alternative to changing the gage of freight cars so that goods may be transported from standard to broad gage, or vice versa, is to transfer the lading from one freight car to another. This is still the practice in many cases. It involves considerable labor, which, however, in the European Satellites does not seem to be a problem, because the labor required can in most cases be of an unskilled,, forced, or convict nature. C. Influence of and Similarity to Foreign Designs. The development of Soviet locomotives and rolling?stock has been influenced considerably by foreign designs, since the Russians are prone to take advantage of improvements developed and proved by other countries. Development of steam locomotives in the USSR was for many years dependent on copying imported locomotives, particularly those of US and UK make. Steam locomotives produced by the American Locomotive Company and the Baldwin Locomotive Works were shipped to the USSR both before and during World War II. Some of the items that are now standard equipment on Soviet steam locomotives which are a result of foreign influences are the automatic coupler, welded boilers., air-brake .equipment (a close copy of Westinghouse equip- ment and interchangeable with it in many instances), automatic stokers, superheaters, and roller-bearing journal boxes. Electric locomotive production in the USSR seems to have been predicated to some extent on the units imported from Italy and the US. fine first units used in the USSR were imported, and the specifications of later units indicate considerable copying. In diesel locomotive production the same situation seems to exist. The first diesel locomotives in operation. in the USSR were German-built. Ls.ter units, built by the Russians, are so closeljr copied that they even bear the same class designation, although the model number is changed.. Postwar models built by the locomotive works at Kharkov bear striking similarity to US road-transfer and road-freight locomotives. S E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T In more recent years the Russians seem to .have taken the initiative to some extent and have been trying to develop units which are basically of their own design; for example, the steam- diesel locomotive discussed earlier. Just how successful these units have been or will be remains to be seen. In freight car production the Russians consistently have been trying to emulate the US. Four-axle freight cars are the rule now, and they are equipped, much as are their US counterparts, with air brakes, automatic .couplers, and other modern devices. It will be a long time, however, before the present inventory of 2-axle low- capacity freight cars is out of service. In passenger car production the Russians seem to be taking a different point of view.. The all-metal passenger car program seems to be intended to impress on the Soviet people the abilities of the Russians to provide de luxe accommodations. As the inven- tory of such cars is, however, inadequate, such an impression may be short-lived. N. Production by Plants. Locomotive and rolling stock plants are numerous in the USSR. About 120 plants have been reported as producing complete loco- motives and~or rolling stock. Plants which 'may only repair or maintain equipment, however, are often reported as producing plants: All the plants reported since World War II as producing plants have been studied, therefore, to determine whether or not they were in fact producing plants- during the .postwar period and, if they were, to determine what their production rate was. Twenty plants were positively identified as producing plants,'and 36 others were tenta- tively so identified. The rest of the plants were identified either as overhaul or repair shops (~+l such installations were identified) or as installations with various special functions such as the produ~etion of parts, the production of narrow-gage equipment, and the production of maintenance equipment. The 20 plants positively identified as producing plants have been studied carefully for information bearing on the type of * For maps showing the locations of.locomotive and rolling stock plants in the USSR, see Fi es 1 and 2, following p: 34. The Konus Railroad Equipment Plant at Saratov (see p. ~+8, below), whicr50X1-H U M is producing locomotive tenders, is not included in this computation and is not shown on the maps. ~-x- For a list classifying all these plants, see Appendix B. S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R E-T equipment produced and the rate of production. Estimates have been made, where possible, by recording and plotting in chrono- logical order all reported actual and planned rates of production, which. are given on different bases ranging"from daily to yearly bases. These plotted rates have been examined, obviously inac- curate ones have been eliminated, and yearly production rates have been estimated. Since all the plants for which production information has been found were in the process of reconstruction, reactivation, or new construction at one time or another during the postwar period, rates of production given for these plants maybe considered as representing the maximum capacity of the plants for the years in question. Production estimates for the 20 plants positively identified as producing-plants account for a very large part of estimated Soviet production of locomotives and rolling stock. Eight plants account for all but a small part of the total estimated produc- tion of locomotives in the USSR. Nine plants account for the greater part of the. total estimated production of freight cars. The information available on passenger car production is insuf- ficient to indicate whether. or not a signif icant number of passenger cars may be produced by plants other than the iahree plants positively identified as producing passenger cars. A. Locomotives. Production information is available for all the postwar years on 7 of the 8 Soviet plants positively identified as produc- ing locomotives. The estimates made for these plants on the basis of this information indicate that they account for all but a small fraction of the estimated total Soviet production of locomotives. The close relation, indicated in Table 2,~' between the total for these plants and the total estimated production of locomotives in the USSR, reflects the fact that locomotive production is a heavy industrial operation that can be undertaken by only a limited num- ber of plants, about which there is considerable information. Information about the plants listed in Table 2 is summarized below, together with production estimates. * Table 2 follows on p. 35. ~- Estimated total production of locomotives is presented and ex- plained in V, below. S-E -C -R-E -T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  SECRET Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 U.S.S.R. some bounder;es shown on this mep arc de /.no 6ound- es (rgs2), not n cessedly reco,naed es de6n;nve 6r the United States Government; the United states Go.emment has not rcco,ni:ed the incorvorcnon of Esmnie, L.Me, end Lithuania inro the So~ut Union. ?- U.S.S.R. Boundary Economic Region Boundary )5o Stetuts Mlles J Kilometers RAILROAD LOCOMOTIVE PLANTS IN THE U.S.S.R. O Steam Locomotive Plant, tentative identification ? Steam Locomotive Plant, positive identification ~ Diesel Locomotive Plant, positive identification D Electric Locomotive Plant, tentative identification ~ Electric Locomotive Plant, positive identification Figure 1 Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 some 6o~oda..a show ~ rh;, maa a e de f cro bo~od- s Gqs~), oor Dace:m.;ly recoflo;:ed e: deRo;r;~e by the Unr""red Srare: Go~e.omeoq the Uohed Srare: Goyemmeor ha. oor,aco,o;:ed ehe ; o,ooror;oo of Esmn;a, La Ma, .od Lahoao;a ;oro the Soder Uo;oo. - i RAILROAD ROLLFNG STOCK PLANTS IN THE U.S.S.R. O Freight Car Plant, tentative identification O Passenger Car Plant, tentative identification ? Freight Car Plant, positive identification ? Passenger Car Plant, positive identification Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Figure 2  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 by Plants Positively Identified as Producing,Locomotives Compared with Total Estimated Production 1946-52 Units 1945 1947 1948 1949 1950 1951 1952 and Plant St eam Bezhitsa o 12 88 180 300 360 360 Gor'kiy N.A. 25 200 250 250 250 250 xolomna 50_ 180 ~'jo 360 390 400 400 Krasnoyarsk 144 144 120 110. 120 130 140 Ulan-Ude 80 165 220 260 295 320 340 Voroshilovgrad 20 220 360 480 600 650 675 Total Plant-b y-Plant 294 746 1,258 1,640 1,955 2,110 2,165 (Total Estima ted Production) Electric (330) (900) (1,360) (1,700) (2,040) (2,170) (2,250) Novocherkassk N.A. (Total Estimated 25 55 100 165 220 265 Production) (2) (25) (60) (110) (170) (225) (280) a. Figures on total estimated production, which are .rounded, are taken from Figure 15, following p. 54, below. -35- Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Estimated Locomotive Production in the USSR by Plants.Positively Identified as Producing"Locomotives Compared with Total Estimated Production 1946-52 (Continued) 1946 1947 1948 1949 1950 1951 1952 Type and Flant Diesel Kharkov N.A. N.A. N.A. N.A. N.A. N.A. N.A. (Total Estimated Production) (1) (40) (75) (140) (185) (2~5) (230) All Types Total Flant-by-Plant 2~4 771 1313 1,740 2,120 2,330 2,,430 (Total Estimated Production) (333) (965) (1,495) (1,950) (2,395) (2,6~) (2760) _36_ Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 1. Bezhitsa Since World War II the Krasnyy prof intern Railroad Loco- motive Building Plant at Bezhitsa, a suburb of Bryansk, has been engaged in the construction of the L (Pobeda)-class steam locomotive for freight service (see Fig. 3~), production began in 191+7 with 12 units. ,In 191+8, production increased to 88 units. In 191+9, 195, and 1951 there were further increases, to 180, 300, and 360 units, respectively. Estimates for 1952 indicate that the plant may have reached its planned capacity of 360 units, since the 1951 production of 360 units is the estimate of planned capacity arrived at by .CIA Industrial Register studies. 2. Gor'kiy. Postwar production figures for the Krasnoye Sormovn Plant imeni Zhdanov at Gor'kiy are scattered and varied. The type of unit is not clearly specified, but reports .indicate that the production is largely of JS-class passenger steam locomotives (see Fig. 1+~~). The best estimate of postwar production of units that is possible from the information available is_as follows: 19+7: 25 1918 : 200 19+9 : 250 1950: 250 1951: 250 1952: 250 There is an indication in the reports that the plant may have started production of some type of freight car in 191+8. No positive information, however, is available. 3? Kolomna. The Kuybyshev Railroad Locomotive Plant at Kolomna is the second largest locomotive lent in the USSR. Many estimates are available and the best compile- 50X1 tion of these various estimates shows that the type of unit produced has been predominantly the L-class freight locomotive. In 181+6, production began again with the output of 50 units. From 191+7 to 1951, ~ Plants discussed throughout this section are numbered consecutively to correspond to the numbering of plants in Appendix B. ~--~ Following p . 38 . - 37 - 50X1-HUM Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T production increased rapidly, with 180 units in 1847, 270 in 1948, 360 in 1948, 390 in 1950, and 400 in 1951. In 1952 the estimate of production is the same as in 1951. In 1847-48, 1 experimental Mallet-type locomotive with a wheel alignment of 2-6-6-2 and 3,000 hp was built by this plant. Further production of this new model, known as the P-34-001, has'not been reported, although, if it proved successful in trials, it is?probable that some additional units have been or will be produced. 4. Krasnoyarsk. ? The Sibirskiy Heavy Machine Plant (also known as the Stalin Locomotive and Crane Plant) at Krasnoyarsk (see Fig. 5~) was enlarged and set up for the production of locomotives with equipment evacuated from the war areas of the USSR during World War II. Production in quantity was begun in 1946, and, with a " sizable force of Japanese prisoners of war, production amounted to 144 units. This production rate was maintained in 1847, but in 1948, with the release of large numbers of prisoners of war, production dropped to 120 units. In 1949 there was a further drop to 110 units. In the succeeding 3 years, production is estimated to have increased by 10 units a year, until, in 1952, approximately 140 units were produced. The type of locomotive produced is the SO-class freight steam locomotive (see Figs. 6 and 7~-). 5. Ulan-Ude. The railroad locomotive plant at Ulan-Ude (see Fig. 8~-) was enlarged from a repair plant during World War II and is at present the largest production plant for railroad locomotives in Asiatic USSR. As in the case of the Krasnoyarsk plant, production , is of the SO-class freight steam locomotive. The eventual capacity of the plant has been repeatedly reported as one unit per day. this goal has not yet been met, although this rate was o e a ost reached in 1952? Estimates of production of units from 1846 on are as follows: ~ Following p. 38. -38- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 FIGURE 3. FIRST L (POBEDA)-CLASS FREIGHT STEAM LOCOMOTIVE PRODUCED AFTER WORLD WAR II AT THE KRASNYY PROFINTERN RAILROAD LOCOMOTIVE BUILDING PLANT AT BEZHITSA, A SUBURB OF BRYANSK, The inscription on the front of the locomotive, pervenets Bryanskikh parovozostroiteley, means "First-born of Bryansk steam locomotive builders." S-E-C-R-E-T Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 FIGURE 4. WORKING MODEL OF THE JS-CLASS PASSENGER STEAM LOCOMOTIVE, THE MOST MODERN SOVIET PASSENGER STEAM LOCOMOTIVE CURRENTLY IN SERIAL PRODUCTION. The inscription on the front of the locomotive is I Stalin. The Kras- noye Sormovo Plant imeni Zhdanov at Gor'kiy is known to be producing the JS-class passenger steam locomotive at the present time. * ? F + . .. Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 FIGURE B. LOCOMOTIVE ASSEMBLY LINE AT THE SIBIRSKIY HEAVY MACHINE PLANT AT KRASNOYARSK. Note the pneumatlC wrenches in use on the bolted, rolled steel frame. The boiler saddle and frame brackets appear to be of cast steel. The tender in the background is largely of welded construction. Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 FIGURE Z. INTERIOR OF THE LOCOMOTIVE ASSEMBLY SHOP AT THE SIBIRSKIY HEAVY MACHINE PLANT AT KRASNOYARSK, 1948. Note that the boiler and the firebox are riveted together. The remain- der of the boiler and the smokebox are apparently of welded construction. Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 FIGURE 8. INTERIOR OF THE LOCOMOTIVE ASSEMBLY SHOP AT THE RAILROAD LOCOMOTIVE PLANT AT ULAN- UDE, 1948. Note the riveted construction of the boiler. 50X1-HUM Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 19+6 : 80 19+7: 165 19+8 : 220 19+9 : 260 1950: 295 1951: 320 1952: 3~+0 6. Voroshilovgrad. The Voroshilovgrad Steam Locomotive Plant imeni October Revolution (see Fig. 9~) is the largest producer of steam locomotives in the USSR. Since World War II, it has produced freight steam locomotives of the SO class and is reported as having produced some locomotives of the JS class. In addition, this plant was responsible for the production of the first steam-diesel locomotive, known as the "Teploparavos." (See Appendix A.) Estimated production of units at this plant from 19+5 to 1952 is as follows: 19+5 : 12 19+6 : 20 19+7 : 220 19+8 : 360 19+9: x+80 1950: 600 1951: 650 195~~ 675 ' 7. Novocherkassk. The Novocherkassk Electric Locomotive Plant imeni Budenr~yy is the onl,}r plant in, the USSR that has been definitely identified as producing electric main-line locomotives- in postwar years. The pilot models of the locomotive that Novocherkassk has produced have been developed and built at the Moscow Dynamo Plant imeni Kirov (see Fig. 10~), but the serial production of these units has been carried out at Novocherkassk. From 19+7 to some time in 1950 the plant was engaged in the production of the VL-22m-class electric locomotive (see Fig. 11~-). Some time in 1950, production may have been ~ Following p. 1+0. -39- Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 started on a later model. It has.been possible, however, to es ma e production of electric locomotive units since the plant began producing in 19+7. Estimated production of units at this plant from 19+7 to 1952 is as follows: 19+7 : 25 19~ : 55 19+9 : 100 1950: 165 1951: 220 1952: 265 There is no evidence that the plant reached its maximum capacity in 1952. Production will probably continue to increase in the future. 8. Kharkov. After the termination of World War' II the Kharkov Transportation Machine Building Plant (KhZTM) was to be rebuilt and assigned the task of producing diesel locomotives. The Kolomna plant had been the only producer of diesel locomotives in the USSR before the war. Very little statistical information on the roduc- tion of diesel locomotives in the USSR is available. first postwar diesel locomotive was completed at Kharkov in September 19+6 and was of the TE-1 class (1,000 hp) and that the first TE-2 class (2,000-hp) diesel-electric locomotive (see Fig. 12~~ was completed in November 19+8. No other production figures are available. B. Freight Cars. The estimated production during the postwar period of the nine plants positively identified as producing freight cars con- stitutes a large part of the estimated total Soviet production of freight cars. As indicated in Table 3,~ however, a significant fraction of production remains, from which it follows that at least some of the plants tentative],y identified as producing freight cars probably do produce them in considerable numbers. ~ Following p. ~+0. ~' Table 3 follows on p. ~+1. -40- 50X1-HUM 50X1 50X1 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 FIGURE 9. PREWAR CONSTRUCTION OF BOILERS AT THE VOROSHILOVGRAD STEAM LOCOMOTIVE PLANT IMENI OCTOBER REVOLUTION, 1934. Note the all-riveted construction and the use of jigs for positioning the boiler in order to facilitate work. Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 FIGURE 10. SOVIET VIr19-CLnss ELECTRIC LOCOIIQOTIVE, PRODUCED naovT 1933. Before World War II, this class of locomotive was produced at the Moscow Dynamo Plant imeni Kirov. Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 FIGURE 11. SOVIET VL-22M-CLnss ELECTRIC LOCOMOTIVE, 1952. The photograph is of a model of ~ the locomotive as produced b$~ the Novocherkassk Electric Locomotive Plant imeni Budennyy. Basically this model seems to be a slightly more modern version of the VL-19~lass electric loco- motive as produced before World War II at the Moscow Dynamo Plant imeni Kirov. Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 50X1-HUM i FIGURE Z2. CUTAWAY VIEW OF THE TE-2-CLASS DIESEL-ELECTRIC LOCOMOTIVE CURRENTLY IN PRO- DUCTION AT THE KIIAR'KOV TRANSPORTATION MACHINE BIIILDING PLANT. The locomotive consists of 2 units, each of 1,000 horsepower. Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S E-C-R E-T Estimated Freight Car Production in the USSR by Plants PositiveJ,y Identified as Producing Freight-Cars Compared yrith Total Estimated Production ~* 1946-52 1946 1947 191+8 1949 1950 1951 1952 Type and Plant 2 Axle Altayskoye 150 1+50 800 1,300 1,000 1,700 1,700 Engel's 600 600 1,200 , zhaanov 3,000 2,500 2,000 Total Plant-by-Plant 3,750 3,50 1-~,000 1,300 1,000 1,700 1,700, (Total Estimated Production) 4 Axle (5,200) (6,200) (7,000) (8,000) (9,000) (9,000) (9,000) Dneprodzerzhinsk 1,300 2,200 3,100 3,7~ 3,900 1+,100 4,300 Engel's 600 1,200 3,000 3,300 3 450 3,600 Kalinin 420 520 620 720 720 , 720 720 Kaliningrad 300 750 1,100 1,300 1,400 1,500 1,600 -~+1- S-E -C -R-E -T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R E-T Estimated Freight Car Production in the USSR by Plants Positively Identified as Producing Freight Cars Compared with Total Estimated Production 19+6-52 (Continued) 1946 1947 1948 1949 1950 1951 1952 e and Plant -Axle Continued) Kiev-Darnitsa 200 700 1,400 2,300 3,100 3,700 4,000. Nizhniy Tagil 9,900 15,000 18,000 19,800 21,000 21,500 22,000 Zhdanov 2,5~ 4,000 6,500 6,500 6,500 6,500 Bezhitsa b~ 70 to 100 Total Plant-by-Plant 12,120 22,270 29,420 37,320 39 920 41,470 42720 (Total Estimated Production) 11,400) .(24,000) (35,000) (47,500) (57,000) (61,000) (64,000) All Types Total Plant-by-Plant 15,870 25,820 33,420 38,620 x,920 ?+3,170 44,420 (Total Estimated Production) 16,600) (30,200) (42,000) (55,500) (66,000) (70,000) (73,000) a. Figures on total estimated production, which ire rounded, are taken from Figure 1 , p. 5 , below. b. See B, 10, p.~43, below. - ~+2 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R E-T 9. Altayskoye.~ The Pravda Railroad Car Plant at Altayskoye is a small freight car plant engaged in the production of 2-axle flatcars. It is the only plant which has been reported as producing 2-axle units as late as 1952, although it is believed that production of such units is being carried. out at other unidentified small plants. Estimates of the production of units for this plant from 1946 are as follows: 1946: 150 1947: 450 1948: ,~ 800 1949: 1,300 1950: 1,600 1951: 1,700 1952: 1,700 Estimates for the later years are not considered firm but are the best available. In 1949,1 (between 70 and 100 refrigerator cars were built at the Krasr~yy Prof intern Railroad .Locomotive Building Plant at Bezhitsa. No later information con- cerning the production of freight cars of at~y type by this plant is available, but it is probable that freight car production con- tinues on at least a small scale. 11. Dneprodzerzhinsk. Since 1945 the Railroad Car Construction Plant imeni Gazety Pravda at Dneprodzerzhinsk has been engaged in the production of 4-axle gondola cars with capacities of .from 40 to 60 tons. In 1951, some cars of 100-ton capacity were produced, but 50X1 this was a special order rather than a switch to serial ~UJC1 production for this new type of car. The standard car in the later years has been the car of 60-ton capacity. Production in 4-axle units has been estimated as follows: * Plants discussed throughout this section are numbered consecutively to correspond to the numbering of plants in Appendix B. - 43 - S-E -C -R -E -T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E -C -R-E -T 1845: 400 1946: 1,300 1947: 2,200 1948: 3,100 1849: 3,700 1950: 3,900 1951: 4,100 1952: 4,300 12. Engels. The Railroad Car Building Plant imeni Uri_tskiy at Engel's (also known as Sara~~v Engels) started production again in 1945, at which time it produced 2-axle flatcars of 18- to 20-ton capacity and repaired war-damaged cars. During 1947, production was switched to a combination manufacture of 2-axle flatcars of 20-ton capacity and 4-axle flatcars with low wooden sides of 60-ton capacity for ore and the like. Less emphasis was placed on repair. The 1947 product mix seems to have been continued in 1948. Since 1948, production has been entirely of 4-axle cars, with little or no repair work. In 1951, how- ever, the type of car produced was switched to pneumatic dump cars, and such production would continue through 1952. Production for these years has been estimated as follows: 1945: 300 2-axle flatcars of 18- to 20-ton capacity. 1846: 600 2-axle flatcars of 18- to 20-ton capacity. 1947: 600 2-axle flatcars of 20-ton capacity. 600 4-axle flatcars of 60-ton capacity with low wooden sides for ore and the like. 1948: 1,200 2-axle flatcars of 20-ton capacity. 1,200 4-axle .flatcars of 60-ton capacity with low wooden sides for ore and the like. 1949: 3,000 4-axle flatcars of 60-ton capacity with low wooden sides for ore and the like. 1950s 3,300 4-axle flatcars of 60-ton capacity with low wooden sides for ore and' the like. 1951: 3,450 4-axle pneumatic dump cars of 60-ton capacity. 1952: 3,600 4-axle pneumatic dump cars of 60-ton capacity. -44- S-E-C-R-E-T .n 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T 13. Kalinin. The main efforts of.the Railroad Car Building Plant imeni Kalinin are devoted to the construction of freight cars of approxi- mately 50-ton capacity. These are flatcars with wooden sides for ore and the like. Some boxcars may also be produced, and a secondary function of the plant seems to be the roduction of assen er cars. The lant is a small one The best estimates of production show 50X1 a pro uc ion ra e o 20 -axle cars in 1946, increasing by 100 cars per year until 1949, when production is estimated at 720 units. This production rate has been estimated to continue through 1952? 14. Kaliningrad. The Kaliningrad Railroad Car Plant is engaged in the production of ~+-axle all-metal pneumatic gondola dump cars. The cars are of advanced design, being o~ all-welded construction with 14 unloading hatches. Operation of the dump mechanism may be controlled from the locomotive cab. Production began in 1946 with some 300 units. In 1947, production jumped to 750 units, and in 1948 to 1,100 units. In 1949, 1,300 units were turned out, and production increased after that by about 100 units per year. In 1952 it is estimated that 1,600 freight car`s were produced. 15. Eiev-Darnitsa. The railroad car plant at Kiev-Darnitsa is engaged in the capital repair of freight cars as well as the production of riew units. Separating the two functions is difficult because a car which has undergone ca ital repair is often reported as a new car. new production, all of 4-axle units, s een screened out and estimated as follows: ' 1946: 200 1947: 700 1948: 1,400 1949: 2,300 1950: 3,100 1951: 3,700 1952: 4,000 - 45 - S-E-C-R-E-T 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T The planned production of this plant is, according to statements by the Soviet press, to be 12,000 2-axle freight cars and 2,500 passenger cars per year. No reports of passenger cars being produced at this plant were found, and estimates of freight car production in 1952 amount to only two-thirds of the stated Pl.a,n. 16. Nizhniy Tagil. The Ural Railroad Car Plant imeni L.M. Kaganovich at Nizhniy Tagil is the largest freight car plant in the USSR. During World War II it was converted entirely to the production of tanks for the Soviet Army. .One of the 3 production lines is reported still to be engaged in the production of tanks, although the other 2 have been reconverted to freight car production. In 1946 it is esti- mated that 9,900 ~+-axle flatcars with wooden sides were turned out. In 1947 this figure was raised to 15,000 flatcars. In 1948 the production rate increased to 18,000 units, but 20 percent of the production was boxcars. In 1949 the ratio of products remained the same, and 19,800 cars were produced. In 1950, 1951, and 1952, production was gradually raised to 21,000, 21,500, and 22,000 cars, respectively. Of these, 20 percent were boxcars, but the remaining 80 percent were reported to be all-metal gondola cars rather than flatcars, as previously reported. 17. Zhdanov. The Mariupol' Steel Plant imeni I1'ich at Zhdanov is' the largest, and perhaps the only, producer of tank cars in the USSR. In 1945 and 1946 the type of car produced was a 2-axle unit with a capacity of 25 cubic meters (see Fig. 13~). In 1947 and 1948, production seems to have been split between 2-axle cars and 4-axle cars with a capacity of 50 cubic meters. From 1949 on, it is estimated that only the larger 4-axle car with a capacity of 50 cubic meters has been produced. Production of units at this plant and their capacities have been estimated as follows: 1945: 750 2-axle, 25-cubic-meter 1946: 3,000 2-axle, 25-cubic-meter 1947: 2,500 2-axle, 25-cubic-meter 2,500 4-axle, 50-cubic-meter * Following p. 46. - 46 - S -E -C -R E -T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 FIGURE 13. TANK CAR ASSEMBLY LINE AT THE MARIIIPOL' STEEL PLANT IMENI IL'ICH AT ZHDANOV, 1946. The photograph shows assembly-line production of 25-cubic-meter tank cars. Note the all-welded construction of the tanks. Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 1948: 2,000 2-axle, S-E -C -R-E -T 25-cubic-meter 4,000 ~+-axle, 50-cubic-meter 1948: 6,500 4-axle, 50-cubic-meter 1950: 6,500 4-axle, 50-cubic-meter 1951: 6,500 ?+-axle, 50-cubic-meter 1952: 6,500 4-axle, 50-cubic-meter C. Passenger Cars. 18. Leningrad. The Railroad Car Building Plant imeni Yegorov at Leningrad is engaged in the production of passenger and mail cars. Information on rates of production is very sketchy, and no estimate of production could be made. It is the plant which produces the much-publicized all-metal passenger cars for service on express trains in the USSR (see Fig. 14~). 19. Mytishchi. The Fourth Five Year Plan (1946-50) calls for the production of 500 cars for the subways, but no cars were produced until the middle of 1948. It is doubtful that the Plan figures were realized. were possible The Mytishchi Railroad Car Building Plant builds passenger cars for the Moscow "Metro" (subway). Postwar produc- tion of V- and G-class passenger cars has been reported, and there are indications that production of a new type of car, the M-5 class, was started in 1951. No estimates of production rates 20. Riga. The Riga Railroad Car Building Plant "Vayrogs" produces electric train sets for use on suburban electric lines. An electric train set consists of three cars, the middle car of which is the power car. It contains a 200- to 300-hp electric motor which draws its current from overhead electric wires by means of a pantograph. Production of train sets at the plant has been estimated as follows: ~- Plants discussed throughout this section are numbered consecutively to correspond to the numbering of plants in Appendix B. ~ Following p. 1i.8, - 47 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R E-T 1946: 3 1847: 36 1848: 60 1948: 80 1950: 93 1951: 103 1952: 110 Since 1950, some tramcars (streetcars) have been pro- duced. Since 1951, some of the train sets produced have been of the new "low-platform" type; which permits the loading and un- loading of passengers from track level rather than from a raised platform. 21. Saratov . ~- The Kanus Railroad Equipment Plante produced 50X1-HUM' tanks during World War II and continued to produce them until the summer of 1947, when the production of ~+-axle tenders for steam locomotives was begun. Reconversion. to tank production probably could be made on short notice. Tender production from 1847 on has been estimated as follows: 1947: 120 1848: 300 lg4g: 360 1950: 390 1951: 410 1952: 410 Plants discussed throughout this section are numbered consecu- tively to correspond to the numbering of plants in Appendix B. - 48 - S -E -C -R-E'-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 FIGURE 14. ALL-METAL PASSENGER CAR, PRODUCED BY THE RAILROAD CAR BIIILDING PLANT IMENI YEGOROV AT LENINGRAD, 1947. The inscription on the side of the car at the top, goluboy ekspress, means "Blue Express." On the lower part of the car the inscription zhestkiy M. Kur. 4001 means "hard (seats) , Moscow-Kursk (Railroad) 4001." Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T V. Production Estimates, 1928-60. Production estimates of Soviet locomotives and rolling stock are given in Tables ~+, 5, 6, 7, and 8-~ and the couIInentary following each of these tables a detailed discus- sion of the method used in the development of the appropriate graph is given. The following general comments apply, however, to all three graphs. are presented in graphic form in Figures 15, 16, and 17.E T_n. The production figures shown for the period 1928-June 19+1 are probably accurate within a very small margin of error, as they are largely Soviet figures which are considered reliable. In some cases, differing estimates were averaged, and in others the more highly evaluated estimate was chosen. The production figures developed for 19+5-50 are based on es ima es ma e from figures obtained from plant studies, They are subject to a greater margin of error than the prewar estimates. The projected production figures for 1951-60 are based largely on estimates of productive capacities. The capacities and their rate of expansion, are based on the general rate of increase of the production of the unit concerned during 1928-~+0. These estimates do not purport to forecast the industrial plans of the USSR. Instead they show the estimated possible production rates ,with respect to particular commodities, taking into account previous average rates of capacity increase. 50X1 50X1 50X1 Estimates of steam locomotive production in the USSR are given in Table ~+~-~- (see also Fig . 15~ ) . 50X1 * F'p? 50, 52, 53, 55, and 57, respectively, below. ~ Following~pp. 54, 56, and 58, respectively, below. ~x-at- Table ~+ follows on p. 50. *~-~-~- Following p . 5~+ . -~+9- S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E -C -R-E -T Table 4 Estimated Steam Locomotive Production in the USSR . 1827-52 Units I zzzz III IV V V I VI VII IX X Year 43/ 44/ 45/ 46/ 47/ , ~?8/ 49~ 50~ 51/ 52/ 1927-28 479 479 479 1928-29 575 575 1929-30 625 625 1931 810 810 1932 827 827 827 827 1933 930 930 930 930 1934 1,211 1,165 1 ,165 1,165 1935 1,529 1 ,500 1,518 1 ,518 1,518 1936 ~ 999 1 ,194 999 1937 1,171 1 ,214 1,171 1938 1,144 1,200 1939 1,000 1,030 1940 915 917 920 1941 739 650 1942 1943 1944 1945 13 13 10 12 '9 1946 390 390 300 300 334 280 1947 1,080 1,020 830 865 746 770 1848 1,650 1,500 1,200 1,200 1,258 1,180 lg4g 1,880 1,800 1,380 1,600 1,630 1,600 1950 2,200 2,000 2,164 2,200 1,955 2,200 1951 2,110 . 1952 2,165 The estimates in Table were plotted see Fig. 15-~ , and the best estimate of steam locomotive production was made from these plotted * Following p. 54. S-E -C -R-E -T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C-R-E-T points. Consideration was given to the evaluation attached to each of the reported estimates, and the best estimate arrived at in this report will not therefore necessarily be an arithmetic average of the several estimates for each year. The projections for the years beyond 1952 were made by estimating the average increase in the production rate from 1928 to 1940 and using this as a guide to prob- able increases in production rate during future years. The curve was rounded off to greet the predicted rate evenly. Precluding a change in production because of a shift to armaments production, the production rate as projected is given a range of error of plus or minus 20 percent, and the estimates before 1952 are given a range of error of plus or minus 10 percent. 2. Electric . Estimates of electric locomotive production in the USSR are given in Table 5~ (see also Fig. 15~). Estimates in Table 5 for the years before 1938 agree to a reasonable extent. They are plotted (see Fig.. 15~) with prefer- ence being given to the higher estimate, since no evidence has been found to substantiate the sudden drop in production indicated in Table 5, Column VI. In the years followin World War II estimates of production var greatl . the electric locomotive 50X1 plant in Novocherkassk, it seems to be the only plant .producing main-line electric locomotives at present. These figures are regarded as the most reliable presently available. Projections beyond 1952 are made on the basis of possible expansion of capacity through in- creased eff iciency and additional plant facilities. Requirements of the railroads through increased electrification of the system have not been considered by themselves, but, considering the advan- tages of electrification in mountainous and cold regions, it is felt that a continued expansion of the electrified network of the Soviet railroads will occur. For this reason, the production as projected is on a continually increasing basis at a rate equivalent to the expan- sion of the production of electric locomotives in the immediate postwar years. This expansion conforms to a degree with the esti- mates of required production of electric locomotives as shown in ~ Table 5 follows on p. 52.. ~ Following p. 54. S-E -C -R E -T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Table 5 Estimated Electric-Locomotive Production in the USSR 1932-54 Year I 5_3/ II 5?~/ III 55/ N 56/ V 57/ VI 58/ VII 59/ 1932 1 1 1933 17 17 1934 19 19 1935 34 34 1936 44 44 1937 39 39 1938 30 15 1939 25 to 1940 l0 20 5 1941 l0 3 1942 1943 1944 1845 1946 2 2 1847 20 20 30 25 3 1948 50 50 88 50 55 1948 ll0 110 lgo 80 loo 1950 140 140 125 165 256 1951 220 306 1952 -356 1953 406 1954 456 Table 5, Column VII. Combining this conformity with the relative paucity of information on Soviet plans, a .range of error of plus or minus 25 percent has been assigned to the estimate for the years 1952-60, and plus or minus 10 percent for the preceding years, for which reports are much more complete. - 52 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 3. Diesel. S-E-C-R-E-T Estimates of diesel locomotive production in the USSR are given in Table 6 (see also Fig. 15~-). Table 6 Estimated Diesel Locomotive Production in the USSR from Various Sources 1931-50 .,I 60/ II 61/ Iy 63/ 1931 2 1932 1 ~ 1 1 1933 '1 1 1 1934 8 8 8 1935 ~+ 4 ~+ 1936 1 1 13 1937 1 1938 ~ 1939 1940 5 1941 1942 1943 1844 1845 1946 1. 1947 60 45 1948 150 85 1949 180 125 1950 200 175 As can be seen from Table 6, diesel locom~tiYe produc- tion before World War II was extremely small. Postwar estimates are practically nonexistent, and those available differ widely. Kharkov plant, which is now the sole producer locomotives for the USSR. * Following p. 54. S-E-C-R-E-T the of main-line diesel 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E -C -R-E -T US shipments of diesel locz~motives to the USSR as a part of Lend Lease together with imported German technical skills have increased the production ability of the Russians considerab],y. Diesel engines of 1,000 hp have been and are being built for tanks, and these same engines or similar engines are adaptable for loco- motive use. Because of the higher efficiency of the diesel loco- motive over the steam locomotive, it is believed that the USSR will push the .production of this type of unit to the limit. The projection of the estimate to 1960 is made with this belief (see Fig. 15*). Dieselizatiori of the Soviet railroads in the future may well follow the same pattern as in the US, in which case the production of diesel locomotives will be increased at a rate even greater than indicated. Prewar estimates are believed to be accurate within plus or minus 10 percent, and postwar estimates are given a range of error of plus or minus 25 percent because of the scarcity of information available. B. Rolling Stock. 1. Freight Cars. Estimates of freight car production in the USSR are given in Table 7~-~- (see .also Fig.. i6-) The various estimates given in Table 7 were plotted (see Fig. 16-), and the best estimate of freight car production in terms of 2-axle units was made from these plotted points. Prewar estimates agree fairly well, and little difficulty is en- countered in making an estimate for these years. In the post- war years, however, estimates vary widely, and it is difficult, to arrive at a best estimate. Primary consideration was given to those estimates which were more highl,}r evaluated. In addition the estimates for the years 19+5-~+8 were a valuable gu e in es ima n~ production * .Following p. 51+. ~- Table 7 follows on p. 55 Following p. 56. S E -C -R E -T 50X1 our i 50X1 50X1 5X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 SECRET USSR Figure 15 LOCOMOTIVE PRODUCT ION ig28-ig6o TABULATION OF LOCOMOTIVE PRODUCTION w rn m ~F s a~ ~ w~ w s x o ~o E O ao r~o 0o a H~ ~ w ~ ~ o ~ ? lsza s99 0 o s40 1929 805 0 0 605 1930 880 0 0 880 1931 - 810 0 0 810 1932 827 1 1 829 1933 930 17 1 948 1934 1185 19 8 1192 1935 1518 34 9 1558 1938 1100 44 13 1157 1937 1205 39 0 1244 1938 1144 30 0 1174 1939 1000 25 0 1025 1940 917 20 0 937 1941 739 10 0 749 1942 0 0 0 0 1943 0 0 0 0 1944 0 0 0 0 1945 12 0 0 12 1946 330 2 1 333 1947 900 25 40 985 1948 1360 60 75 1495 1949 1700 110 190 1950 1950 2040 170 185 2395 1951 2170 225 205 2800 1952 2250 280 230 2780 1953 2310 340 250 2900 1959 2350 400 275 3025 1955 2390 450 300 3140 1958 2430 995 320 3245 1957 2470 590 340 3350 1956 2510 575 380 3445 1959 2550 800 385 3535 1980 2590 620 410 3620 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E -C-R-E -T Table 7 Estimated Freight Car Production in the USSR 19 50 Year I 64/ II III 65/ IV 66/ V 67/ VI 68/ VII 69./ 1928 10,612 10,800 10, 612 1929 ~ 15,190 15, 19p X930 19427 19 427 1931 21,175 21, 175 1932 20,152 23,100 20, 152 1933 18,126 21,600 .18, 126 1934 28,957 33,500 28, 957 .1935 85,000 7 0/ 85,675 90,800 85, 675 1936 67,200 67,100 67, 100 1937 59,000 7 1/ 59,000 66,100 59, 000 1938 43,400 49, 100 1939 40,000 33, 9.00 1940 55,000 47,000 7 2/ 50,000 52,000 47, 000 1941 55,000 60, 000 1942 1843 1g44 1945 1,000 800 1; 050 1,850 1946 30,000 23,200 31,500 26, 1go 30,500 1947 47,000 60,000 73 / 45,000 63, 500 47,340 60,000 1948 68,000 80,000 7T- E/ 65,000 105, 500 61,840 80,000 1949 100,000 117,600 75 / 92,000 127, 000 76,040 110,000 1950 117,000 126,goo 7? / 125,000 146, 000 135,000 Projections for the years beyond 1950 are largely based on two lines of reasoning. First, since the Soviet freight car in- ventory is overutilized by Western standards, the production of freight cars will continue to increase in an attempt to bring the inventory up to a higher standard. Second, the annual increase in production after 1950 is assumed to equal the average numerical - 55 - S-E -C -R-E -T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E-C -R-E-T increase during the prewar years, when the industry was engaged in what might be called normal, but intensive, development. Estimates up to 1952 are given a-range of error of .plus or minus 10 percent. Without considering the possible shift to armaments production- in some of the freight car plants, produc- tion rates from 1952 on are given a range of error of plus or minus 20 percent. With the exception of a few specialized units such as depressed-center cars and the like, production of freight cars in the USSR has consisted of 2-axle and ~+-axle units. To show the trends in the type of units produced, estimates have been made of the produc- tion of each of these two types of units as well as of the total num- ber of physical units. The method used in making these estimates was the same as the method used in estimating production of equiva- lent 2-axle units, with the exception of the production estimate of total physical units, which .is merely the summation of the 2 esti- mates of 2-axle and ~+-axle units. Where required, the various estimates were modified so that they agreed when totaled.. 2. Passenger Cars. Estimates of passenger car production in the USSR are given in Table 8~ (see also Fig. 17**~). The various estimates given in Table 8 were plotted (see Fig. 17~*), and the best estimate of passenger car production was made from these plotted points. As can be seen, there is not much conflict among the three estimates in most years. Informa- tion on passenger car production is not voluminous, but the esti- mates for the years 1928-50 are consiflered to be accurate within 10 percent: Projections for the years beyond 1950 are based on two lines of reasoning. First, the Russians do not consider passenger car production a high-priority item. Such units as are presently produced seem to be produced in an attempt to picture * The results of a shift to armaments production are discussed in X, below. *-~ Table 8 follows on p. 57. -~*-~ Following p. 58. -56- S-E-C -R-E-T 50X1 50X1 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 SECRET USSR FREIGHT CAR PRODUCTION /q28-/q60 TABULATION OF FREIGHT CAR PRODUCTION C U 6 6 6 C a Z ~ U U 6 SC ~' a ~ F ~ F ~ .Wy7~ ~ a s ~ a O a o W C 1928 2,791 5,130 7,871 10,812 1929 3,929 7,338 11,287 15,190 1930 5,543 8,341 13,684 19,427 1931 4,736 11,703 18,439 21,275 1932 4,922 10,800 15,722 20,844 1933 5,137 9,200 14,337 19,474 1934 8,225 12,500 20,725 28,950 1935 16,037 53,600 69,837 85,674 1936 26,809 13,982 40,591 87,200 1937 29,100 800 29,900 59,000 1938 23,500 850 29,150 47,650 1939 18,500 800 19,100 37,800 1940 24,250 1,500 25,750 50,000 1941 25,000 5,600 30,600 55,800 1942 0 0 0 0 1943 0 0 0 0 1944 0 0 0 0 1945 725 400 1,125 1,850 1946 11,400 5,200 18,800 28,000 1947 24,000 8,200 30,200 54,200 1948 35,500 7,000 42,500 78,000 1949 47,500 8,000 55,500 103,000 1950 57,000 9,000 86,000 121,000 1951 61,000 9,000 70,000 131,000 1952 64,000 9,000 73,000 137,000 1953 65,700 9,000 74,700 140,400 1954 67,400 9,000 76,800 143,800 1955 89,000 9,000 78,000 147,000 1956 70,800 9,000 79,800 150,800 1957 72,400 9,000 81,400 153,800 1858 74,100 9,000 83,100 157,200 1959 75,800 9,000 84,800 180,600 1960 77,300 9,000 88,300 183,600 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 S-E -C -R-E -T Table 8 Estimated Passenger Car Production in the USSR lg 50 Year I 77/ II 78/ III 79/ 1928 387 387 lg2g 414 321 1930 817 828 1931 1,295 1,299 1932 1,141 1,157 1933 1,274 1,338 1934 1,495 1,616 1935 887 a/ 1,080 1936 723 a/ 1937 912 a/ 193$ 1,000 1939 1,200 lg4o 800 1,000 1941 300 1842 1943 1844 1945 1946 loo loo 1947 500 200 1948 1,100 1, 200 1949 1, 700 . 1,800 1950 2,600 2,500 a. The drop in production in ese years was ue to the stress~on and the shift to freight car pro- duction. the USSR as having modern, well-equipped passenger car facilities. No attempts seem to be made to supply the railroads with sufficient numbers of passenger cars to meet traffic demands. Second, it is further reasoned that production in the years after 1950 has -57- S E-C-R E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 continued and will continue to follow the average pattern of the prewar years: that is, production will be increased, but at a rate roughly equivalent to the average increases in production in the years 1928-40. Without considering a shift to armaments production, the projected production rates are given a range of error of plus or minus 20 percent. S-E-C -R-E-T VI. Input Requirements. The determination of inputs of materials, power, labor,services, and capital required for the production of locomotives and rolling stock in the USSR is a problem that can be approached by several methods. The ideal method would be to obtain complete bills of material for all types of units produced, complete lists of all machine tools required for the production of a specified number of these units, and figures on the number of men and on the-power re- quired for this production. A lengthy study of Russian-language documents and texts available in the Library ~f Congress may show that such information is available in sufficient detail to permit such estimates. This method, although undoubtedly the most accurate, would be the longest process. analogy with US practice, for which there are figures rather readily obtainable from the US Census of Manufactures and the US Bureau of Labor Statistics. Because of the pressure of time, this method of approach has been applied fully in this report. Estimates of inputs to the locomotive and rolling stock industry in the USSR were made on the basis of figures obtained from the US Census of Manufactures, 19+7, and from tabulations of purchases made. y the locomotive and parts industry and the railroad and streetcar industry in 19+7. 80~ The tabulations list the dollar values of in- puts of materials, fuel, electricity, and contract work to these two industries. By reference to the 19+7 Census and these tabulations, it was possible to determine an index of amount of input required per unit of output. ~ .The results of a shift to armaments production are discussed in X, below. -58- S-E-C -R-E=T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 SECRET Figure 17 PASSENGER ODUCTION Ig28-Ig60 0 1925 TABULATION OF PASSENGER CAR PRODUCTION YEAR NO. OF CARS 1928 340 1929 414 1930 828 1931 1299 1932 1157 1933 1310 1934 1818 1935 1000 1936 7^.3 1937 ~" e ~ 1938 1000 iy39 1200 1940 910 1941 300 1942 0 1943 0 _ 1944 0 1945 0 1946 110 1947 500 1948 1140 1949 1750 1950 2500 ~ 1951 2740 1952 2800 1953 2840 1954 2880 1955 2920 1958 2980 1957 1958 3000 1959 3040 3080 1960 3120 1950 1955 1960 GR1269 CIA, 1152 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 For purposes of estimating inputs, the Soviet units of steam, diesel, and electric locomotives currently produced have been con- sidered as being comparable to units produced in the US in 1947. A comparison of the gross weight of individual locomotives currently produced in the USSR-and the average gross weight of units produced in the: US in 1947 substantiates this assumption. In the case of freight cars, the average US freight car is a 4-axle unit, and the inputs derived for these 4-axle units have been halved and listed as inputs per equivalent 2-axle unit. In the case of passenger cars, lack of time in which tb make a similar estimate by reference to the 1947 Census made it necessary to estimate inputs to passenger cars on the basis of freight car inputs, using a suitable correction factor. The tare weights of passenger and 4-axle freight cars are in the ratio of approximately 2.5 to 1. Since the largest part of such cars is iron and steel in various forms, this ratio has been applied to all input items for freight cars to derive inputs to passenger cars. It is realized that this approximation is not accurate, but since the number of passenger cars involved as compared with the number of freight cars is small, it is felt that the error introduced by using this approximation will not alter materially the inherent error involved in making input esti- mates by the analogy method. It should be noted here that the so-called analogous method of making input estimates is subject to many errors and requires many assumptions. It is merely a first approximation, which must be fol- lowed by estimates made by other methods or combinations of methods. It is, however, a start toward the solution of problems of input estimation. Further discussion of methodology and an evaluation of the analogous type of estimation will be found in Appendix C. The figures which follow in Table 9~- are estimates of inputs per unit required for the production of representative or "average" types of steam, diesel, and electric locomotives and freight and passenger cars currently produced. Table 10~ gives an estimate of the total input requirements for the production of the total number of loco- motive and rolling stock units to be built in the years 1950, 1952, 1955, and 1960, as estimated in V, above. ~ Table 9 follows on p. 60. ~' Table 10 follows on p. 61. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Estimated Input Requirements per Unit oP Production of Locomotives and Rolling Stock in the USSR Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Estimated Total Input Requirements for the Locomotive and Rolling Stock Industry in the USSR 1950, 1952, 1955, and 1960 Item oY Input and Year Units Steam Locomotives Electric Locomotives Diesel Locomotives Freight Cars Passenger Cars Total Labor ~* thousand man-years 1959 27.8 3.3 2.7 30.3 3.1 67.2 1952 30.7 5.5 3.3 34.3 3.5 77.3 1955 32.6 8.8 4.4 36.8 3.7 86.3 1960 t 35.4 12.1 5.9 40.8 3.9 98.1 Agricultural Products m 1950 3.3 0.4 0.3 0.0 0.0 4.0 1952 3.7 0.7 0.4 0.0 0.0 4.8 1955 3.9 1.1 0:5 0.0 0.0 5.5 1960 4.2 1.5 0.7 0.0 0.0 6.4 Raw Steel thousand.mt 1950 335.0 37.0 36.0 1,153.0 119.0 1,680.0 1952 370.0 61.0 44.0 1,305.0 133.0 1,913.0 1955 385.0 98.0 58.0 1,400.0 139.0 2,080.0 1960 426.0 135.0 79.0 1,559.0 149.0 2,348.0 Aluminum mt 1950 1,200.0 150.0 110.0 1,090.0 uo.o 2,660.0 1952 1,330.0 240.0 140.0 1,230.0 130.0 3,070.0 1955 1,380.0 260.0 190.0 1,320.0 130.0 3,280.0 1960 1,530.0 360.0 250.0 1,470.0 140.0 3,750.0 - 61 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Estimated Total .Input Requirements for the Locomotive and Rolling Stock Lndustry, in the USSR 1950, 1952, 1955, and 1960 (Continued Item of Input and Year Units Steam Locomotives Electric Locomotives Diesel Locomotives Freight Cars Passenger Cars Total Copper 1950 mt 4,320.0 540.0 420.0 1,090.0 110.0 6,480.0 1952 4,770.0 890.0 520.0 1,230.0 130.0 7,540.0 1955 4,960.0 1,440.0 680.0 1,320.0 130.0 8,530.0 1960 Zinc t 5,490.0 1,980.0 930.0 1,470.0 140.0 10,010.0 1950 m 0.0 0.0 0.0 1,450.0 150.0 1,600.0 1952 0.0 0.0 0.0 1,640.0 170:0 1,810.0 1955 0.0 0.0 0.0 1,760.0 180.0 1 940.0 1960 0.0 0.0 0.0 1,960.0 190.0 , 2,150.0 Bituminous Coal ~ thousand mt ? 1950 98.4 12.1 9.4 153.9 15.9 289.7 1952 108.5 16.4 11.7 174.3 17.8 328.7 1955 112.9 32.1 15.3 187.0 18.6 365.9 1960 Electric Power ~ illi k h 124.9 44.2 20.9 208.1 19.8 417.9 1950 m on w 104.7 12.8 10.1 104.1 10.8 242.5 1952 115.4 21.0 12.5 117.8 12.0 278.7 1955 120.0 33.8 16.3 126.4 12.6 309.1 lg6o 132:9 46.5 22.3 140.7 13.4 355.8 62 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Estimated Total Input Requirements for the Locomotive and Rolling Stock Industry in the USSR 1950, 1952, 1955, and 1960 (Continued) Steam Electric Diesel ~ Freight Passenger Item of Input and Year Units Locomotives Locomotives Locomotives Cars Cars Tots] Fuel Oil ~ tho 1950 1952 1955 1960 Rubber usand mt ~ mt 15.6 i7.2 17.9 19.8 1.9 3.1 4.9 6.8 1.5 1'.9 2.4 3.3 24.8 28.1 30.1 33.5 2.6 2.9 3.0 3.2 46.4 53.2 58.3 66.6 1950 430.0 50.0 40.0 220.0 20:0 760.0 1952 470.0 90.0 50.0 250.0 30.0 890.0 1955 490.0 140.0 70.0 260.0 30.0 990.0 1960 540.0 200.0 90.0 290.0 30.0 1,150.0 Paper 'and Paperboard mt 1950 44.0 5.0 4.0 0.0 0.0 53.0 1952 48.0 9.0 5.0 0.0 0.0 62.a 1955 50.0 14.0 7.0 0.0 0.0 71.0 1960 55.0 19.0 9.0 0.0 0.0 83.0 Plastics 1950 mt 68.0 8.0 7.0 0.0 0.0 83.0 1952 75.0 14.0 8.0 0.0 0.0 97.0 1955 78.0 22.0 11.0 0.0 0.0 111.0 1960 87.0 -63 31.0 - 14.c o.o o.0 132.0 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Estimated Total Input Requirements for the Locomotive and Rolling Stock Industry in the USSR 1950, 1952, 1955, ana 1960 (Continued Item of Input and Year Units Steam Locomotives Electric Locomotives Diesel Locomotives Freight Cars Passenger Cars Total Compressed and Ligtte- fied Gases thousand cut ft 1950? 8.,730.0 1,070.0 840.0 0.0 0.0 10,640.0 1952 9,630.0 1,760.0 1,040.0 0.0 0.0 12,430.0 1955 10,020.0 2,840.0 1,360.0 0.0 0.0 14,220.0 1960 11,090.0 ? 3,910.0 1,860.0 0.0 0.0 16,860.0 Flat Glass thousand sq ft 1950 1,500.0 190.0 140.0 0.0 N.A. 1,830.0 1952 1,660.0 310.0 180.0 0.0 N.A. 2,150.0 1955 1,730.0 500.0 230.0 0.o N.A. 2,460.0 1960 1,910.0 680.0 320.0 0,o N.A. 2,910.0 Mineral Wool mt 1950 3,710.0 460.0 380.0 3,750.0 390.0 8,690.0 1952 4,100.0 760.0 470.0 4,250.0 430.0 10,010.0 1955 4,260.0 1,230.0 620.0 4,560.0 450.0 11,120.0 1960 4,710.0 1,690.0 840.0 5,070.0 480.0 12,790.0 Asbestos mt 1950 610.0 70.0 60.0 120.0 lo.0 870.0 1952 680.0 120.0 70.0 140.0 lo.0 1,020.0 1955 700.0 200.0 100.0 150.0 20.0 1,170.0 1960 780.0 270.0 130.0 160.0 20.0 1,360.0 -6~+_. 50X1-HUM Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Estimated Total Input Requirements for the Locomotive and Rolling Stock Industry in the USSR 1950,.192, 1955, ana 1960 (Continued Item of Input and Year Units Steam Locomotives Electric Locomotives Diesel Locomotives Freight Cars Passenger Cars Total Lumber million bd ft 1950 8.5 1.1 0.8 53.2 5.5 69.1 1952 9.4 1.7 l.0 60.3 6.2 78.6 1955 9.8 2.8 1.3 64.7 6.4 85.0 1960 10.8 3.8 1.8 72.0 6.9 95.3 Plywood million sq ft 1950 0.0 0.0 0.0 185.1 19.1 204.2 1952 0.0 0.0 0.0 209.6 21.4 231.0 1955 0.0 0.0 0.0 224.9 22.3 247.2 1960 Pru ks 2 t it 0.0 0.0 0.0 250.3 23.9 274.2 c - 1950 on un s 50.0 - 6.0 5.o N.A. N.A. 61.0 1952 55.0 10.0 6.0 N.A. N.A. 71.0 d~ 1955 58.0 16.0 8.o N.A. N.A. 82.0 1960 Shunt L ti - b 64.0 23.0 11.0 N.A. N.A. 98.0 ocomo ves 1950 num er 49.0 .6.0 5?o N.A. N.A. 60.0 dJ 1952 54.0 10.0 6.0 N.A. N.A. 70.0 1955 56.0 16.0 S.o N.A. N.A. 80.0 J 1960 62.0 22.0 11.0 N.A. N.A. 95.0 J -65- Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Estimated Total Input Requirements for the Locomotive and Rolling Stock Industry in the USSR 1950, 1952, 1955, and 1960 (Continued) Item of Input and Year Units Steam Locomotives Electric Locomotives Diesel Locomotives Freight Cars Passenger Cars Total Rolling Stock 1950 2-axle units 116.0 14.0 11.0 N:A. N.A. 141.0 1952 128.0 24.0 14.0 N.A. N.A. 166.0 J 1955 133.0 38.0 18.0 N.A. N.A. 189.0 1960 148.0 53.0 25.0 N.A. N.i. 226.0 Motors and Generators 1950 thousand kw 220.0 310.0 260.0 0.0 0.0 790.0 1952 250.0 500.0 320.0 0.o a.o 1,070:0 1955 260.0 810.0 420.0 0.0 0.0 1,490.0 1960 280.0 1,120.0 580.0 0.0 0.0 1,980.0 Antifriction Bearings ~ thousand standard pieces 1950 1,095.0 135.0 105.0 762.0 79.0 2,176.0 1952. 1,208.0 222.0 130.0 863.0 88.0 2,511.0 1955 1,257.0 357.0 170.0 926.0 92.0 2,802.0 1960 1;391.0 492.0 232.0 1,031.0 98.0 3,244.0 Capital Equipment (Not Elsewhere Counted) mt of raw steel 1950 8,200.0 860.0 790.0 5,930.0 610.0 , 16,390.0 1952 9,050.0 1,410.0 980.0 6,710.0 690.0 18,840.0 1955 9,410.0 .2,260.0 1,280.0 7,200.0 720.0 20,870.0 1960 10,410.0 3,120.0 1,750.0 8,020.0 760.0 24,060.0 Unallocated (Percent Each Year of Total Value) -66- Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Estimated Total Input Requirements for the Locomotive and Rolling Stock Industry in the USSR 1950, 1952, 1955, ana 1960 ('Continued) a. At present, Soviet labor is considered to be approximately two-thirds as efficient as US labor. (See note a, Appendix D, Table 39.) It is probable that the labor efficiency of the Russians will increase in the coming years. For this reason, the estimates of the labor force required in the years 1955 and 1960 may be too high, since no allowance has been made for this increased efficiency. It is conceivable that production may increase at the rates estimated while the size of the labor force remains constant or nearly constant. The figures in Table 10, there- fore, represent the labor force required for the years 1950, 1952, 1955, and 1960 at the present estimated ef- ficiency level of the labor force. b. The estimates for bituminous coal, electric power, and fuel oil presented here are representative of US power practice. It should be remembered that the Russians may not, on the average, follow this practice and that their fuel requirements may therefore differ from. US requirements. These figures, then, are presented as a sample of what the fuel requirements may be. More detailed studies of the fuel requirements of the USSR for individual plants will have to be made before more reliable estimates can be made. c. The total as shown does not include ax~y estimate of flat glass for passenger car production. d. The totals as shown do not include any of these items for either passenger car or freight car production: e. The antifriction bearings as shown here represent average-size bearings. Since the bearings used in railroad equipment are usually considerably larger than this average size, the figures shown here do not represent actual numbers of bearings. Atypical US 2-10-4 Yrelght locomotive requires the following antifriction bearings: Type Bore (Inches) Number Required ITriver-Journal Boxes Roller 12 20 Guiding Truck Roller 7 4 Side and Main Rods Roller 7 to 9 14 Eccentric Rods Roller 32 2 Stoker Roller or Ball 2 to 2z 8 Valve Gear Needle lu to 4 24 Valve Pilot Ball 3~8 to 1z 12 Throttle Ball 3/4 1 Reverse Gear Ball 1-3~8 1 Generator Ball 1-3~8 2 Feed Water Pump Roller or Ball 2 2 Tender-Journal Boxes Roller. 6z to 7 24 Train Control Roller or Ball 12 4 67 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Estimated Total Input Requirements for the Locomotive and Rolling Stock Industry i~ the USSR 1950, 1952, 1955, end 1960 (Continued It should also be noted that Soviet. freight cars are not reported as generally being equipped with antifriction- bearing ,journal boxes and that the figures for freight cars shown in Table 10 will not apply unless evidence is found to indicate that such bearings are in fact being used on Soviet cars. f. This item represents the percentage oY the total inputs to the industry which cannot be allocated to any of the previous]y listed industries. It must not, however, be construed as anything other than a raw material, fuel, power, labor, or contract input. -68- Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 VII. Imports. A. From the European Satellites. A complete statistical breakdown of postwar imports of loco- motives-and rolling stock from the European Satellites by the USSR is not possible. Also, there is insufficient information on any of the Satellites to permit an accurate estimate of exports to the USSR. Such information as could be compiled is presented in Table 11.~- It is well known that the Russians are exploiting the European Satellites to the extent that the inventories of these countries are suffering from shortages of both locomotives and rolling stock. The point at which this shortage begins to affect the delivery of other items of reparations which the USSR has de- manded from these countries and to impair the Soviet program of Satellite industrialization is difficult to estimate. Thus it is also difficult to determine Gthen the Russians will decide that retention of a larger portion of production within the Satellite countries will produce more benefits to the USSR than additions to its own operating inventory of locomotives and rolling stock. The information as presented in Table 11 represents a compila- tion of available estimates. It is not intended as a firm estimate of Soviet Bloc contributions to the USSR but as an index of probable trends in Soviet demands on the European Satellites. A range of error of plus or minus 50 percent should be applied to these esti- mates. Importation of locomotives and rolling stock from non-Soviet Bloc countries by the USSR is not extensive. The largest known commitment was that of Sweden for the delivery of 300 ]T;-lass (Decapod)- steam locamotives to the USSR between 1947 and the end of 1952. 81/ Delivery of these units has not as yet been reported. * Table 11 follows ors p . 70 . ~-x' For a more detailed breakdown of the various types of units being imported from the European Satellites by the USSR, see Part II, below. A locomotive with an 2-10-0 wheel arrangement. For specifica- tions of all types of Soviet locomotives and rolling stock, see Appendix A. - 6g - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Table 11 Estimated Soviet Imports of Locomotives and Freight Cars Prom the European Satellites 1946-52 Units Item by Country of origin 1946 1947 1948 1949 1950 1951 1952 Steam Locomotives East Germany 0 0 0 32 82 Poland N.a. ,N.A. 20 83/ 5o to 83 84 50 to 120 ~ 150 86 150 Czechoslovakia N.A. 20 ~ 20 $"~/ 45 90 45 91 ~ N,A. N.A,, ia H 60 92 65 93 65 ~ 60 95 60 70 97/ 70 98 ,~an 42 ~ 20 t 130 100 1 20 101 120 102 120 103 130 10 140 105 Hungary o Total SO to N.A. 215 to N,A. 2 25 275 to 308 275 to 345 3 50 to N.A. 3 92 to N.A. East Germany 1,700 106 1,80 0 to 2,700 1~ 1,800 to 2,700 108 1,800 to 2,700 10 4,700 to 5,200 110 5,000 to 5,700 N A 111 6,700 to 7,800 N A 112 Poland x,500 113 2,750 114 3,000 11 3,000 116 3,000 117 . , . . Czechoslovakia N.A. 5~ ~ 5,400 ~ 7,700 120 7,700 121 N.A. N.A.. R~miania N.A. 1,500 122 5,400 123 7,200 12 N.A. N.A. N.A. Hungary 354 125 1,336 ~ 2,275 to 3,000 12 3,000 to 5,~i+ 0 128 3,000 ~ N.A. N.A. 8 8 6 6 8 t 1 19 500 040 700 to 26 22 18,400 to N.A. ~rLA, N_A. Total !+,554 to N.A. 7, ,7 88 to 75 7, , o , , -70- r, + , ~ - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Finland, under terms of its reparations agreement with the USSR, is to ship to the USSR a total of 500 narrow-gage locomotives and 5,500 4-axle narrow-gage freight cars. 130 These units prob- ably are for mining or lumbering purposes in the USSR and as such do not enter into the main-line locomotive and rolling stock in- ventory. Japan shipped 15 passenger cars, 27 locomotives, and 270 freight cars to the USSR during 19+9. 131 Shipments probably ? have continued during the succeeding years, but the amount is small because of Japan's own shortage of railroad equipment. 132 Postwar shipments for COCOM-participating countries are nil with respect to main-line locomotives and rolling stock. Shipments from nonparticipating countries probably will continue to be small because of pressure from the US and other Western powers against such exports. The USSR is not in such straits with respect to its railroad equipment inventory as to 'be alarmed over such controls,, although it would undoubtedly accept any offers of locomotives and rolling stock, particularly diesel locomotives and specialized types of freight cars. It is not felt that present or future shipments of this type of goods will be of much consequence in Soviet attempts to procure strategic material from the West. Parts for the maintenance of foreign-built units probably are of much more importance to the Russians, and it can be expected that attempts to procure some of the more important of these parts are being made and will continue to be made. Such parts would specifically include equipment for the 82 US Lend-lease diesel locomotives and perhaps for US-built steam locomotives, which were also Lend-Lease equipment. (For types of Lend-Lease locomotives and rolling stock shipped to the USSR, see Figs. 18, 19, 20, 21, and 22.x) Although no evidence has been received as yet, it is more than likely that an attempt to procure roller bearings for journal boxes for Soviet cars will be made if the USSR intends to carry out its proposal in the Fifth Five Year Plan to equip all rolling stock with roller bearings during the period 1951-55-'~' ~ Following. p. ,72. *~ For discussion of this stated intention, see X, C, 1, below. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 ' C. Acquisitions as a Result of World War II. Table 12 gives the number of locomotives and items of rolling stock shipped to the USSR by the US from 22 June 1941 to 20 September 1945 as Lend-Lease aid and supplemental shipments during 1946 and 1947 under the so-called "pipeline" agreements. 133/ US Shipments of Locomotives and Rolling Stock to the USSR 1941-47 Lend, Lease Pipeline Item (1941-45) (1946-47) Steam Locomotives 1,911 a/ 290 Diesel Locomotives b_/ 70 ~ 16 Electric Locomotives d/ 8 Flatcars 10,000 e/ 20 f Dump Cars / 1,000 Tank Cars g/ 120 Heavy Machinery Cars h/ 35 a. Including 11 steam locomotives lost en route to the USSR and the following; eight 50-ton 0-4-0; fifteen 70- ton 0-6-0; 200 80-ton 2-8-0; and 1,685 105-ton 2-10-0. b. Units built by the American Locomotive Company and the Baldwin Locomotive Works (Russian DA and DB classes). c. Including 4 diesel locomotives lost en route to the USSR. d. 20-ton units, probably for mining. e. Including 8 flatcars lost en route to the USSR and fifty 12-ton cars for mining. The remainder consist of 50-ton 4-axle main-line cars. f. 40-ton 4-axle cars. g. 10,000-gallon 4-axle cars. h. Including various 125- to 200-ton heavy-duty well-type cars with 6 or 8 axles. * Agreements for the shipments of equipment produced for Lend Lease but not shipped before the termination of Lend Lease in September 1945? - 72 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 FIGURE 18. DA-CLASS DIESEL-ELECTRIC LOCOMOTIVE (1,000 BRAKE FIORSEPOWER), PRODUCED BY THE AMERICAN LOCOMOTIVE COMPANY AND SHIPPED ON LEND LEASE TO THE USSR, 1945. Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 FIGURE 19. DB-CLASS DIESEL-ELECTRIC LOCOMOTIVE (1,000 BRAKE HORSEPOWER), PRODUCED BY THE BALDWIN LOCOMOTIVE WORKS AND SHIPPED ON LEND LEASE TO THE USSR, 1945. Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 FIGURE 2O. EA-CLASS STEAM LOCOMOTIVE OF THE Z-10-O TYPE, PRODUCED BY THE BALDWIN LOCOMOTIVE WORKS AND SHIPPED ON LEND LEASE TO THE USSR. Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 FIGURE Zl. SHA-CLASS STEAM LOCOMOTIVE OF THE 2-8-0 TYPE, PRODIICED BY THE BALDWIN LOCOMOTIVE WORKS AND SHIPPED ON LEND LEASE TO THE USSR. Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 FIGURE `LZ. 4-AXLE FLATCAR OF 5O-TON CAPACITY, PRODUCED BY THE PULLMAN-STANDARD CAR MANUFACTURING COMPANY AND SxIPPED ON LEND LEASE TO THE USSR. Eighty of these cars were delivered to the USSR. Postwar Soviet-built flatcars are undoubtedly similar to this unit. Note the inscriptions in Russian stenciled on the car before delivery. The inscription on the side of the car at the top left, sosredoto- chenny gruz, means "concentrated freight"; at the top right, tormoz Vestingauza, "Westinghouse brakes"; and at the bottom left, pos- troyen 8-45 Pull. Std. Car Mfq. Co., "built August 1945 (by the) Pullman-Standard Car Manufacturing Company." Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 During the course of World War II the USSR lost many locomotives and railroad cars, captured or destroyed, to the ad= vancing German armies. When the Russians took the offensive, many of these units were recaptured along with locomotives and cars of German origin. It is claimed by the USSR that some 15,800 steam locomotives and 428,000 cars were lost to the Germans. 134/ It is estimated that some 70 to 75 percent of these were subsequently recaptured. In addition, some 2,000 German steam locomotives and 178 electric locomotives,* as well as 45,000 2-axle and 2,500 4-axle freight cars, were captured in the Soviet advances and in looting after the end of the war. 135/ Including retirements and Lend-Lease additions, it is estimated that as a result of World War II the USSR suffered a net loss of 900 steam locomotives, 35,000 2-axle freight cars, and 24,000 4-axle freight cars. At the same time, it gained some 66 US diesel electric locomotives and the previously men- tioned 178 German electric locomotives. VIII. Adequacy of Production. It is believed that the production of locomotives and rol- ling stock in the USSR during the period from 1945 to the present has been adequate for the needs of the Soviet economy. The general basis for this rather broad statement is indicated below. According to official Soviet statements, the goals of the Fourth Five Year Plan (1946-50) were substantially fulfilled. The mining, metals, machine building, power, and chemical industries as * These locomotives were included in the estimate of the Soviet locomotive inventory during 1945-52 as given in IX, below. It is likely that, because of differences in electric equipment, they were not part of the serviceable inventory. most, if not all, of these locomotives will be returned to East Germany by the USSR during late 1952 and in 1953. For this reason, these 178 locomotives have been dropped from the in- ventory estimates from 1953 on. 136/ 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 50X1-HUM well as agriculture and other sectors of the economy all fulfilled (or slightly overfulfilled or underfulf illed~ their goals . Rail transportation goals were overfulfilled in 1950 by some 13 per- cent. 1.37/ Since some 85 percent of all transportation of indus- trial goods in the USSR is by rail, it follows inevitably that had the supply of railroad equipment been grossly inadequate during the period, the Pl.a,n would have been underfulfilled to a large extent. Other more specific information which supports the belief that the production has been adequate is as follows: Retirement rates are a clue to adequacy of produc- tion. Lowering the rate of retirements means that a greater portion of the production in a given year will constitute a net addition to the operating inventory. At the same time, however, a reduction in retirement rates means an increase in the labor and material required to maintain the old equipment and, usually, a decrease in the ef- ficiency of railroad transportation operations. .When the demand for additional men and materials begins to exceed the supply, then it follows that the younger equipment in the inventory may suffer from insufficient preventative maintenance, and the results may be that the useful age of the newer equipment will be lowered. This would be the situation if the supply of new equipment were inadequate. On the contrary, however, estimates of inventory increases of Soviet locomotives and rolling stock indicate a gradually increasing rate of retirement. This indicates that the production of these units has been adequate, since, in the event of an inadequate supply, the Russians probably would find it easier to hold the retirement rate at a lower figure and supply additional maintenance-men and materials as heretofore mentioned than to attempt to increase production at a rate faster than it has been increased.-~-~ ~ The rate of retirement is the ratio of locomotives and railroad cars retired to their respective inventories. ~ In X, A, below it is pointed out that Soviet production has been at maximum capacity since the end of World War II. -7~+- Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 ~  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 2. Soviet-Press Complaints of Shortages. Had the suppl of locomotives or freight cars been grossly inadequate during the period from the end of World War II to the present, the Soviet press, following the Communist theory of "self-criticism," would undoubtedly have included many complaints about such shortages. Such comments have been few, however, and only. local in nature, thus supporting the belief that sufficient units have been generally available. 3. Over-All Fulfillment of the Fourth Five Year Plan 19 -50 . As discussed in detail in X, A, below, with the addition of the Satellite contributions of locomotives and rolling stock during 19+6-50 the goals of the Fourth Five Year Plan for the production of these items were fulfilled. If it is assumed that in planning these goals, the Russians set production goals at a level equal to the requirements of the rail transportation service, then it follows that the number of units supplied. by in- ternal production and Satellite imports has been adequate for the needs of the USSR . It is not possible to forecast positively the adequacy or inadequacy of the future production of locomotives and rolling stock in the USSR. The fact that such production has evidently been ade- quate_in the past few years is somewhat of a yardstick for stating that it probably will continue to be so in the future. The Fifth Five Year Plan (1951-55) calls for an increase in freight transportation by rail of 35 to 40 percent. Although this figure seems low when compared with the projected increases in industrial and agricultural production,* it does indicate that the Soviet inventory of locomotives and rolling stock is considered to be adequate and that the estimated trends in production and inventory are reasonable. ~- The Plan calls for over-all increases by 1955 in industrial pro- duction of about 70 percent and in agricultural production of about 50 percent. The apparent discrepancy between these goals and the projected increase in freight transportation by rail is at least partly covered by the very rapid projected increases in other forms of transport. 138/ Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 50X1-HUM Production of all types of rail units in the USSR is increas- ing, as are imports from the Satellites. Retirement rates are also evidently rising. Inventory estimates as made in IX, below, show a ~+1-percent increase in both locomotive and freight car inventories (1955 over 1950), validating, to a degree, the Soviet claim of the ability to increase freight transportation by rail 35 to ~+0 percent by 1955?x' For these reasons, it is believed that the production and inventory of this equipment in the USSR will continue to be adequate to meet the demands of the planned industrial growth of. the country. ` IX. Inventory Estimates. The best available estimates of the inventory of Soviet loco- motives and rolling stock are given in Tables 13, 1~+, 15, 16, and 17** and are presented in graphic form in Figures 23,~--~ 24,x-- and 25.-* The tables are followed b a detailed discussion on the method of estimation and reference is made to appropriate graphs. The following general comments apply, however, to all three graphs. Inventory estimates are, in general, difficult to make. Informa- tion on the actual retirement rates of Soviet locomotives and rol- ling stock is not available, and it is necessary to assume some reasonable figure. In addition, the effect of imports from the Satellite countries is difficult to assess. Since the utilization factor (degree of use) of Soviet equipment is much higher than for ~ The estimates of inventory increases of both locomotives and freight cars as presented in IX, below, were made independent~..y of each other and several months before the publication of the Fifth Five Year Plan. Accepting the Soviet goal of a 35- to 40- percent increase in freight transportation by rail in this same period (1951-55) means that the inventory increases as predicted may in fact prove to be accurate within a narrow margin of error. Since production estimates during this same period were used_ as a guide in making inventory' estimates, the Soviet stated goal also tends to substantiate the accuracy of the production estimates as reported in V, above. ~ Pp. 78, 80, 81, 82, and 83, respectively, below. Following p. 78, below. -~ Following p. 84, below. -76- 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 any other country of the world and since the ability of the Russians to maintain equipment under these high rates of utilization is not. known, there is still more guesswork involved in estimating inven- tories. Uncertainty as to gains and losses during World War II constitutes another problem in making such estimates. The estimates as presented below represent the best approxima- tion possible, taking into account the above-mentioned factors. It is believed that they are reasonably accurate, at least with respect to yearly increases if not in actual count. A. Locomotives. _ - 1. Steam. Estimates of the steam locomotive inventory in the USSR are given in Table i3~ (see also Fig. 23~). Scattered information has been found to support the estimates as given in Table 13 for the years shown through 1950, and these estimates are accepted as being reasonably correct. The postwar estimates are more subject to error than the prewar estimates because no positive statement of postwar inventory has been released by the Russians. Even if the 1945 estimate is off, the order of magnitude of inventory increase since that time is~felt to be substantially accurate. Estimates beyond 1950 were made on the following assumptions: first, that the inventory increases would become smaller as the years go on, and electrification and dieselization of the Soviet railroads would increase; second, that this decrease in the rate of expansion of the inventory would become more noticeable as the units built during years of high production became of age for retirement. The second assumption does not affect the estimates greatly, because locomotives in the USSR are used for periods ranging up to and over 45 years, end. the majority of the high production years are much more recent. On these assumptions the curve of inventory was ex- tended and mechanically plotted to begin to level off in the later years of the estimate. Since it is felt that this inventory * Table 13 follows on p . 78 . ~~ Follow Ong p . 78 . 50X1-HUM Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 50X1-HUM Table 13 Estimated Steam Locomotive Inventory in the USSR 1929 5 1139/ II 140 III 141 IV 142 1929 16,665 1930 17,441 1931 18,300 1932 19,500 1933 20,100 1934 21,000 1935 22,200 1936 22,800 1937 23,500 1938 24,400 1939 25,100 lg4o 25,700 1941 26,200 1842 1943 1844 1945 25,300 1946 25,600 26,000 1947 26,200 1948 27,200 1g4g 28,500 1950 30,500 1951 1952 . 1953 1954 30,500 32,000 33,500 34,500 35,500 estimate is relative]~y accurate, the range of error applied to it has been set at plus or minus 10 percent for the years up to 1841 and plus or minus 15 percent for the postwar years up to 1860. - 78 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 USSR LOCOMOTIVE INVENTORY ~q28-~q6o TABULATION OF LOCOMOTIVE INVENTORY M~ ~ ~ F a.F ~ W U ~ y ~ ~ W ~ ~ Q ~ w o wo o a ~ a a a ? 1928 16,500 0 0 16,500 1929 17,000 0 0 17,000 1930 17,750 0 0 17,750 1931 18,300 0 0 18,300 1932 19,500 9 1 19,510 1933 20,100 28 2 20,126 1934 21,000 45 10 21,055 1935 22,200 79 J4 22,293 1938 22,800 123 27 22,950 1837 23,500 162 27 23,889 1938 24,400 192 27 24,819 1939 25,100 217 27 25,344 1940 25,700 237 27 25,984 1941 26,200 247 27 28,474 1x42 No No No No Is43 1944 Data Data Data Data 1945 25,300 425 93 25.818 1948 25,600 521 110 28,231 1947 26,200 548 150 28,898 1948 27,200 608 225 28.031 1949 28,500 718 365 29,581 1950 30,500 888 547 31.933 1951 32,000 1101 755 33,856 1952 33,500 1381 984 35,865 1953 34,750 1541 1233 37,524 1954 36,000 1924 1488 39.422 1955 37,250 2371 1788 41,407 1956 38,100 2832 2105 43,037 1957 39,000 3328 2149 44,677 1958 39,700 3854 2818 46,372 1959 40,200 4324 3213 47,737 1960 40,500 4919 3633 49,052 50X1-HUM ~UX"I Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Estimates of the electric locomotive inventory in the USSR (see Fig. 23*) are. based on the following assumptions: first, ' that the average life of an electric locomotive is 20 years (this life expectancy is in accord with US practice, and it is not be- lieved that-the Russians are able to extend the life of this type of unit much,, if any, over this length of time); second, that the inventory will consist of those units purchased by the Russians from other countries plus those produced by the Russians them- selves and that the inventory will increase each year in direct proportion to these numbers minus those units which become 20 years of age and are thus retired. 143,/ This method of estimation is necessarily subject to the variables of retirement age, accident, and unknown acquisitions, and for this reason a range of estimation of 10 percent is applied to the prewar years and 20 percent to the postwar years. 3. Diesel. Estimates of the diesel locomotive inventory in the USSR (see Fig. 23*) are even more difficult than those of the electric locomotive inventory. Estimates of production rates are less reliable, and estimates of length of life are subject to a greater variation. Inventory estimates of the diesel loco?- motive inventory were made on the same basis as in the case of electric locomotives. The range of error, however, has been set at. plus or minus 30 percent for the postwar years because of the paucity of information available, and at plus or minus 10 percent for the prewar years. B. Rolling Stock. 1. Freight Cars. Estimates of the freight car inventory in the USSR are given in Tables 14, 15, 16, and 17~ (see also Fig. 24). ~- Following p. 78, above. ~ Table 14 follows on p. 80; Table 15, on p. 81; Table 16, on p. 82; Table 17, on p. 83. Following p. 84. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 r, z. ~ Table 15 Estimated Freight Car Inventory in the USSR in Numbers of PY~ysical Units 1828-5o End of Year I 150 II 151 III 152 1928 450,000 1929 1930. 1931 1932 520,300 1933 1934 1935 1936 1937 622,700 622,700 622,700 1938 63?+, 600 1939 644,425 1940 659,775 651,950 651,900 1941 679,425 680,000 1942 1943 1944 X91+5 648,300 610,000 610,000 1946 665,350 609,400 1947 673,400 623,800 1948 685,100 655,200 1949 730,550, 711,700 1950 794,300 775,000 772,500 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Table 16 Estimated Freight C.ar Inventory in the USSR in Numbers of 2-Axle Uni s 1928-50 f Y I i53~ II 154 III 155/ ear End o 1928 725,500 1929 1930 1931 1932 476,100 1933 1934 1935 1936 1937 488,800 488,800 488,800 1938 479,650 1939 470,650 1940 462,750 48g,ooo 489,000 1941 458,500 510,100 1942 1843 1944 1845 432,100 450,000 450,000 1946 441,300 439,300 1947 432,900 429,500 1948 422,800 429,100 1949 432,600 441,800 1950 444,300 448,900 450,000 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Table 17 in um ers o - e ni s 1828-50 - 83 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Each of the estimates in Tables 1~+, 15, 16, and 17 was plotted, and tentative curves showing estimates from 1928 to 1950 were drawn on the basis of the points plotted. Then, by giving added weight to estimates which were more highly evaluated and by adjusting the curves so that the totals represented checked, a final estimate was made and plotted. Projection of estimates to 1960 was made on the basis of estimated production, estimated im- ports, and estimated retirement. As shown in Figure 2t+,~ the estimated net increase in inventory in terms of 2-axle units from 1950 to 1960 is 90,000 units per year. It is believed, barring a major change in planning or a war, that this projected estimate should have a range of not more than plus or minus 20 percent. The estimates for the years shown up to 1950 bear a-range of error of plus or minus 10 percent. 2. Passenger Cars. Estimates of the passenger car inventory in the USSR are almost nonexistent. The available estimates are plotted in Figure 25,E and the inventory for the other years estimated on the basis of production and calculated retirements. 159/ The average retirement age of passenger cars in the USSR is not known. Since the inventory is reported as being very inadequate, it has been assumed, for the purposes of calculating the inventory, that the 'retirement each year is approximately 1 percent of the end-'of-year inventory of the preceding year. It is believed that imports from the Satellite countries in the postwar years, not included in the inventory computation, are sufficient to make the actual retirement rate nearer to 2 or 3 percent of the end-of-year inventory. It is believed that the "best estimate" curve in Figure 25 represents a figure that shows the probable maximum inventory of passenger cars in the USSR rather than a middle-of-the-road estimate as is shown in the other inventory estimates. For these reasons, the prewar estimates are given a range of plus 5 percent. and minus 15 percent, and the estimates for the postwar years pro- jected to 1960 are given a range of plus 10 percent and minus 30 percent. Following p. 8~+. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 FREIGHT CAR INVENTORY ~q28-~q6o TABULATION OF FREIGHT CAR INVENTORY E H F 7 . . ~ `7 N 7 _ m ~ E" . ' 6 a . + W 6 U 6 C ] M M U~ U W W ~ ~ d~ W C k ~ ~ a O O N a a W 1928 25,000 425,000 450,000 475,000 1929 27,000 438,000 485,000 492,000 1930 29,000 450,000 479,000 508,000 1931 31,000 463,000 494,000 525,000 1932 33,000 474,000 507,000 540,000 1933 41,000 479,000 520,000 581,000 1934 64,000 482,000 548,000 810,000 1935 88,000 484,000 570,000 858,000 1936 110,000 486,000 598,000 708,000 1937 134,000 486,000 620,000 754,000 1938 148,000 485,000 833,000 781,000 1939 161,000 484,000 845,000 806,000 1940 178,000 482,000 880,000 838,000 1991 200,000 480,000 880,000 880,000 is42 1993 No No No No lgg4 Dara Dara Dare Dara 1945 176,000 445,000 621,000 797,000 1948 188,000 433,000 821,000 809,000 1947 210,000 429,000 839,000 849,000 1948 240,000 429,000 889,000 909,000 1949 280,000 435,000 715,000 995,000 1950 325.000 945,000 770,000 1,095,000 1951 370,000 950,000 820,000 1,190,000 1952 415,000 950,000 885,000 1,280,000 1953 460,000 450,000 910,000 1,370,000 1954 505,000 450,000 955,000 1,480,000 1955 550,000 450,000 1,000,000 1,550,000 1958 595,000 450,000 1,045,000 1,840,000 1957 840,000 450,000 1,090,000 1,730,000 1958 685,000 450,000 1,135,000 1,820,000 1959 730,000 450,000 1,180,000 1,910,000 1g80 775,000 450,000 1,225,000 2,000,000 v~%t'~~~ ~~e ~. ~o~1,P.- ~~' Two~Axle Units 50X1-HUM 50X1 Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 50X1-HUM Figure 25 USSR PASSENGER CAR INVENTORY ~q28-ig6o TABULA TION OF PASSEN GER CAR INVEN TORY YEnx uxrrs 1928 28,000 1929 28,500 1930 28,900 1931 27,200 1932 28,085 1933 29,115 1934 30,440 1935 1938 31,138 31 584 1937 , 92,145 1938 32,824 1939 33,898 1940 34,289 34 227 1941 1942 , Na 1943 1944 Data 1845 32,500 1948 32,810 1947 32,784 1948 33,598 1949 35,010 1950 37,180 1951 39,529 1952 41,833 1953 44,354 1854 48,790 1955 99,292 1956 51,710 1957 54,193 1956 58,891 1959 59,204 1960 81,732 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 50X1-HUM Until firmer information on imports, retirement rates, and inventory for a recent year are available, it is felt that this is the best estimate that can be made of the Soviet passenger car inventory. X. Capabilities, Vulnerabilities, and Intentions. A. Capabilities. This section is a discussion of Soviet capability to produce locomotives and rolling stock from the point of view of postwar production rates, future possible production, and the ability to convert to production of other types of locomotives or rolling stock or to convert to production of military end items. 1. Postwar to 1950. It is believed that, in order to build the operating inventory of locomotives and rolling stock into a more modern and efficient -one, Soviet manufacture of these items has been at capacity since the end of World War II and will continue to be so in the foreseeable future, barring arty major change in the national econozgy . The condition of the Soviet inventory of locomotives and rolling stock at the close of World War, II was such that it was necessary for the Russians to exert a tremendous effort toward getting production facilities into full swing again in order to provide the railroads with sorely needed equipment. Thus, during 19+5-5o the Soviet locomotive and rolling stock industry was engaged in a double undertaking. First, the plants not damaged by war but engaged in armaments production during hostilities were again con- verted, this time back to locomotive or freight car production. The plants rendered either wholly or partially inoperable by German and Soviet bombing or demolition were reconstructed and re-equipped with the purpose of getting them back into production as quickly as possible. At the same time, some new plants were also under construction. Second, the production of locomotives and rolling stock was under- taken concurrently with the program of reconversion and rebuilding. As quickly as assembly lines could be put into operation, production of new equipment was begun. Thus, although production in 19+5 was ~ See I, C, 3, and IV, above. - 85 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 almost nil, production by 1950 had reached a point considerably higher than in any prewar year.* It is estimated that over the period of the Fourth Five Year Plan (1946-50) the quotas for production_of locomotives and rolling stock were fulfilled by the following percentages: Locomotives (All Types) 94 Steam 103 Electric 66 Diesel 51 Freight Cars 81 Passenger Cars 100 Although accurate figures for Satellite contributions during this period are not available, the estimates shown in VII, A, above, when added to Soviet production, show a percentage figure for locomotives (~11 types) of 109 percent and for freight cars of 97 percent. Thus it can be seen that during the period of inten- sive effort to reconstruct and reconvert, as well as to build new plants, the USSR was able, with Satellite aid, to supply to. the railroads as much equipment as was required by the planners. In the case of diesel locomotives, Soviet capabilities were initially hampered by the fact that mass production of this item had not taken place during the prewar years. Numerous experi- mental models had been built, however, and it is believed that ~- Estimated production in 1950 was as follows: steam locomotives, 2,040; electric locomotives, 170; diesel locomotives, 185; freight cars, 121,000 (in equivalent 2-axle units); passenger cars, 2_,500. The best prewar production was as follows: steam locomotives,. 1,518 in 1935; electric locomotives, 44 in 1836; diesel locomotives, 13 in 1936; freight cars, 85,674 in 1935 (in equivalent 2-axle units); passenger cars, 1,616 in 1934? ~ Ma.r~y of these Satellite cars are 4-axle units and would probably push the total over 100 percent if counted as such. For a discussion of the adequacy of this production, see VIII, above. - 86 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Soviet capabilities in the production of diesel locomotives in- creased greatly, if this experience is considered in combination with (a) the rebuilding of the Kharkov plant for the production of diesel locomotives exclusively, (b) the aid of German technicians which was available after the war, and.(c) the US Lend-Lease units which were on hand for studying and copying. 2. Probable Changes after 1950. by the end of 1950 the Soviet program of rebuilding and reconversion was nearly complete and that gains in production after this date are ascribed to increased efficiency of labor, "normal" additions to capital equipment, and the like. It has been assumed that the Russians are capable of increasing their production of steam and electric locomotives and passenger and freight cars at a rate equivalent to the average increase in production during the prewar years 1828-~+0.~ Since it also seems evident, as pointed out in VIII, above, that such capacity production will provide an adequate amount of stock for the railroads, there is no reason to suspect that the Russians will attempt any future program of accelerated expansion of the industry. The probable sole exception to this last statement might be an accelerated drive to increase the. production of diesel locomotives. Such an expansion is not indicated in the informa- tion published in the Draft Directive of the Fifth Five Year Plan (1951-55)? Since the Russians have shown a predilection for copying US practice in many cases, however, it is possible that the present US trend toward extensive dieselization might be re- flected in future Soviet plans. Two major deterrents, techno- logical skill required for manufacture and fuel oil required for operation, would probably delay and somewhat modify such a trend. In the event that such an attempt were to be made, it would be further hampered by the lack of capital facilities for the pro- duction of such units and by the additional skilled labor re- quired. Should the Soviet planners put sufficient priority on such a plan, it is possible that they would be capable of increasing production of diesel locomotives severalfold over the estimates made in V, A, 3, above. ~ For a more detailed explanation of this estimate of the rate of expansion, see V, above. - 87 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 3. Conversion. During the postwar rebuilding and reconversion period, it is possible that the number of steam locomotives produced could have been increased at the expense of production of the diesel and electric' locomotives. A similar increase in the number of diesel or electric locomotives produced at the expense of the production of steam locomotives would probably not have been feasible, how- ever,because of the higher degree of technological skill and greater labor skill required. This is further borne out by the fact that production of diesel and electric locomotives over the period of the Fourth Five Year Plan (191+6-50) was only 51 percent and 66 percent, respectively, of the planned production. 3imila,rl~, the product mix of freight cars could have been varied from what was actually produced, and the total produc- tion would have been slightly higher if more basic units (such as flatcars and boxcars) had been produced and somewhat lower_if more specialized units (such as refrigerator cars and tank cars) had been produced. Although it is not possible to estimate what the varia- tions in product mix could be in terms of post-1950 capabilities, the same general application of a variation of results as in the preceding paragraphs would hold true. The building of new capital .facilities for production also would alter the capability picture, but no evidence has been received of arty extensive construction program. As discussed in I, above, conversion to the production of armaments is not difficult in the 1?comotive and rolling stock industry.* Such conversion took place with relative ease during World War II, and it is doubtless true that Soviet plans for re- conversion in the event of another war have already been made. occasional references to the faces a particular plant had on hand the plans and~or tool- ing for conversion were noted. No firm over-all icture of these conversion plans could be obtained but it seems only logical that the Russians have anticipated such actions should the need arise. ~ See I, B, 2, above . 50X1 ~UX1 50X1 50X1 ,~ Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 In the event of such conversion, production of loco- motives and rolling stock would taper off and possibly cease entirely if conditions should warrant such action. The capacity for railroad equipment production would inherently remain, as before; but actual available capacity would be determined by the military demands placed on production facilities. For the purposes of this report, vulnerability is defined as the liability to attack of the industry under discussion causing (a) a reduction or cessation of production and (b) a reduction in the size of the inventory. Such liability will be discussed from the point of view of both cold and hot war and of the consequences of such attack. Locomotives and rolling stock are not, in themselves, military end items. It is the consequences of damage or destruc- tion to either the production facilities or the equipment inventory that provide a reason for a discussion of the vulnerabilities which exist. The railroads of the USSR are responsible for moving some 80 percent of the freight traffic in the USSR. 160 Any action which reduces the effectiveness of the rail transportation service will cause a reduction in the flow of supplies to industrial installations, thus causing production difficulties, and, in time of war, may critically affect the movement of troops and military supplies, thus making military planning dependent to a varying degree on the services available from the railroads. It can be seen that, whether it be in a period of hot or cold war or by direct or indirect attack on either production facilities or equipment inven- tory, the effect of exploiting the vulnerabilities hereafter dis- cussed must be considered in the light of the consequences of such action on the over-all economic activities and the military planning of the USSR, rather than the immediate effects on the industry in question. Since locomotive and rolling stock plants are easily con- verted to the production of heavy armaments such as tanks, attacks on such installations must consider the degree of conversion which these facilities have undergone. This degree of conversion, in turn, will be effected by the Soviet planners on the basis of their esti- mate of whether hostilities will be of a long- or short-term nature. In a relatively short-term period of hostilities, the Russians would - 89 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 50X1-HUM s be likely to plan that the current inventory of railroad equipment would suffice and that complete or at least nearly complete conver- sion to military production would be most effective in aiding the war effort. In the case of a long-term war, the inventory would be expected to suffer from enemy action to the extent that replace- ments would be necessary. It is thus possible that only partial conversion would take place and that production of new locomotives and rolling stock would ,continue throughout the war. Since the vulnerabilities of the production facilities are similar for either railroad equipment or armaments production in the same plant, the discussion of plant vulnerabilities which fol- lows applies to either type of production. 1. Cold-War Production. It is believed that the production facilities of Soviet railroad equipment are not significantly vulnerable under arty cold- war conditions. Neither raw materials nor fabricated parts are known to be imported by the USSR in sufficient quantity to affect production noticeably. Shortages of men, materials, or capital equipment which might cause a "soft spot" in the production picture have not been found, although with all plants presumably working at capacity there is probably little or no "cushion" which the USSR could fall back on in the event of need. It is the lack of "cushion," together with the~pos- sibility of conversion to armaments production, that presents the most vulnerable aspect in the production of locomotives and rolling stock under cold-war conditions. Should the Soviet planners con- sider it necessary to convert some of these facilities to the production .of armaments, the production of railroad equipment would suffer accordingly. 2. Hot-War Production. In the event of a hot war, the railroad equipment indus- try of the USSR will almost certainly be converted, in whole or in part, to armaments production. Consequently, any attacks against its facilities will be, at least in part, attacks against armaments production as well as against locomotive and rolling stock production. In a prolonged war, however, it will be impossible to convert the industry completely, especially in the absence of external supplies such as Lend Lease. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Since substantially the same men, materials, power, and capital equipment would be used for production regardless of the degree of conversion, it is believed that some discussion of the vulnerability of specific items involved in the production of either railroad equipment or armaments should be made. Specific definitive vulnerability studies 4f individual plants would have to be made in order to determine the most effective type of attack for each facility. Since this is not within the scope of this report, the following comments are intended to provide information as to the effect of partial or complete destruction of a phase or phases of production and not to determine the means of causing disruption of production in a given plant. As can be seen from the input estimates shown in VI, above, large amounts of raw materials in the form of steel, coal, coke, and other goods are required for the production of a single locomotive or railroad car. Therefore, the production facilities are dependent to a great extent on the rail transporta- tion service which they themselves suppl, and any significant interruption in the flow of raw materials to these plants would cause a comparable decrease in production. Such interruption would have to be continuous to.be completel~~ effective. By contrast, an industry which requires but relatively small inputs would be less affected by restrictions of such raw materials: for example, the electronics industry, whose production is of highly complex, but usually small, items. By the same token, attacks on the iron and steel and other supplying industries would have some effect on produc- tion at locomotive and rolling stock plants. Damage to the power supply of these plants would also hamper production greatly. Determination of whether .the sup- ply of electric power for a given plant is internal to the plant area or external from a transmission grid would depend on individual plant studies. Machine tools, welding gear, cranes, and similar equipment which are dependent on electric power would be idle during * For instance, a single locomotive and tender weighs from 100 to 150 tons on the average, almost all of~which is steel in some form. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 a period of power interruption, and, although it is true that a certain amount of production which does not require such power could continue and perhaps even increase with the additional labor available, a stoppage of the power supply to a plant would curtail its production to a large extent. The foundries in locomotive and rolling stock plants are also important links in the production picture, since a great deal of the metal going into the production of these items is in the form of iron and steel castings. Destruction of a~foundry would hamper .production for the period of time required to repair or rebuild the furnaces. ' A general direct attack on the plant area would create the problem of clearing debris and repairing damaged equip- ment. Since a large part of-the equipment used in the .manufacture of locomotives and rolling stock is heavy, it is believed that only a direct hit on a piece of equipment would destroy it anal that a general attack has only nuisance value as compared with a more precise attempt to inflict damage on a specific phase of production. Any open hostilities w auld of course draw away from all types of production a certain amount of labor for military service. Destruction of the remaining labor force in the plant areas also would be a means of. interrupting production. A somewhat more appealing a~ctdon, yet as effective, would be the contamination of the work area by some. means. The following statement, from a survey of actions such as are described above during World War II, summarizes the general vulnerability of such facilities: "The results of the attacks on Henschel and Krupp do indicate the relative ease with which locomotive building facilities can be effective l nullified. They indicate, moreover, the serious difficulty and consequent long delay in recuperation, especially where the suppling industry is also suffering." 161 b . Sabotage . In the field of sabotage, two co~~siderations must be reviewed in general terms. The first of these is the encourage- ment of such acts as passive resistance, work slowdown, poor work- manship, and the like by the employees?in the plant. In the case Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 of the USSR, such actions conceivably could be spontaneous because.. of unrest within the country. The second consideration would be sabotage by in- dividuals or teams .acting covertly within the USSR. Sabotage would be effective when directed against the same targets as discussed in 2a, above. 3. Cold-War Inventory. It is not believed that the operational inventory of locomotives and rolling stock in the USSR is vulnerable to 'cold-war actions. Imports by the-USSR of either complete units or parts from other than the Satellites is not significant, and a complete embargo on these shipments probably would not. affect significantly the number of units available for service. Also, because of the internal security measures taken at present in the USSR, sabotage of locomotives and rolling stock in the inventory on even a small scale is unlikely. ~+. Hot-War Inventory. The USSR is perhaps most vulnerable with respect to its locomotive and rolling stock inventory under hot-war conditions. This vulnerability is not peculiar to the USSR but applies to any country whose economy is dependent to a xery large degree on railroad transportation. One factor which perhaps makes the USSR somewhat more vulnerable than many other countries is the lack of a "cushion" in the operational inventory of locomotives and rolling stock. In spite of efforts to maintain a reserve inventory for emergency use, the inventory presently on hand is being used at near maximum capacity, as is evidenced by the Soviet efforts to reduce turnover time, to raise train speeds, and to increase the ratio of actual loads to capacity loads in freight cars. Thus a reduction in the operational inventory over and above what reserves may be available would put a burden on the railroad transportation service which would be difficult to overcome by increasing the efficiency of opera- tions. Direct concentrated actacxs on the operating inven- tory of locomotives and rolling stock by bombing of individual Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 trains, marshalling yards, and repair depots would reduce the ability of the Russians to move the raw materials and finished goods needed in a war economy. Initial losses could perhaps be off se.t by divergence of undamaged equipment from less essential services, but since some plants would be converted to armaments production, the Russians would find it impossible to replace all of the destroyed inventory. b . Sabotage . On the same premise, destruction of locomotives and rolling stock by sabotage, would create the same type of shortage of inventory. Sabotage could take the form of direct attack on the vehicles or indirect attack on the right-of-way, which would result in damage to the vehicles as the result of wreckage. In such attacks the locomotive, the more complex piece of equipment, would be the logical target, since its re- placement is accordingly more difficult. Thus, in summarizing, it can be seen that, al- though the exploitation of the vulnerabilities of both the production facilities and the inventory of railroad equipment in the USSR would perhaps not be considered as a direct attack on the military capabilities of the USSR, its effect would be to reduce the kinetic energy of Soviet efforts to wage war. by effectively reducing their ability to supply the production economy and the military machine of the country with their re- quirements. 1. Specific Indications from the Fifth Five Year Plan 1951-55 T'ne following statement is quoted from the Draft directive of the Fifth Five Year Plan (1951-55): " ... To meet fully the demands of railway transport in long-distance locomotives, electrically driven locomotives, and diesel locomotives and in railway freight cars, refrigerated cars, and passenger coaches; to complete in the main the introduction of automatic couplings on all rolling stock and to equip all rolling stock with roller bearings; to begin the production of new power- ful locomotives, electric locomotives and diesel locomotives, - g4 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 including gas-generator locomotives." 162 With a single exception,. it appears from this statement that the intention of the Russians is to continue the production of railroad equipment in much the same vein as during the 1946-50 Plan period: that is, production of diesel and electric locomotives will continue to increase as rapidly as technology and facilities will permit, more modern units of all types will be designed and placed in production, and the locomotive and rolling stock industry as a whole will continue to expand at a rate consistent with the economic development of the country. Neither the Fifth Five Year Plan nor other external sources indicate an intention to expand capital facilities significantly. The single phrase from the above statement to which exception must be taken is "to equip all rolling stock with roller bearings." A study of this phrase by a language expert in the original Russian text as printed in Fravda led to the following conclusions: (a) it could literally mean the equipping of all rolling stock with roller bearings (both locomotives and cars according to the Soviet use of the term rolling stock), or (b) it could mean the equipping of all new equipment with roller bearings, or~(c) it could mean undertaking a program to equip either all or all newly constructed locomotives and rolling stock with roller bearings. The third of the possible meanings is believed to be the most reasonable: that is, during the course of the Plan, attempts will be made to equip all newly constructed units with roller bearings. Even this interpreta-- tion~is subject to some question, since the installation of roller- bearing journal boxes on freight cars has not been carried out exten- sively even in the US, where, if such practice were considered sound from an economic and engineering point of view, no production problem would prevent their installation. The principal advantage of roller- bearing journal boxes is in the reduced power required for starting a train. Roller bearings are most common in the US on locomotives and passenger cars, and the same can be expected in the USSR. In the case of freight cars, the additional maintenance problem imposed by roller bearings has offset the advantages to the point that only a relatively small number of freight cars in the US have been so equipped. Roller-bearing journal boxes are more subject to damage by humping operations than are solid sleeve-type bearings. For this reason and the reason that the 'roller bearings production industry in the USSR is not producing enough bearings for present Soviet needs, it is not believed that arty serious attempt to equip ever new freight cars with roller-bearing journal boxes will be made by the USSR dur- ing the 1951-55 period. 163/ Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 2. Indications of Economic or Political Changes. The current intentions of the Russians with respect to the production of locomotives and rolling stock do not indicate arty change in the political or economic activity of the USSR. Railroads, together with the development of their operational inventory through production of new locomotives and rolling stock, are an inherent part of the Soviet economy, and normal expansion of the industry indicates nothing but the continued development of the industrialization of the country. Any conversion of the Soviet locomotive and rolling stock production facilities to armaments production probably would indi- cate changes in economic or political intentions. Since there is no such conversion at present, it appears that the Russians are empha- sizing the long-term growth of the economy with the possibility of ultimately either raising the standard of living or expanding the Soviet war potential. Conversion of these facilities would imply a de-emphasis on long-term armaments expansion in favor of short-term military advantage. The rate and degree of conversion might well indicate something about the Soviet evaluation of the imminence of hostilities. 50X1-HUM s _96_ Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 PART II: EUROP.~AN SATELLITES Part II of this report is not intended as a completed basic research study on each of the European Satellites- as is Part I on the USSR. Section II, below, presents only the immediate post- war intelligence estimates on these countries, including such basic information as a brief description of the administrative organization of the industry, production and inventory estimates, information on individual plants from the point of view of produc- tion, and some additional information on particular items of intelligence value. Section III, below is a discussion of over-all capabilities, vulnerabilities, and intentions of the European Satellites. Technological specifications of equipment and statistical comparisons between the US and the European Satellites have been 50X1 50X1 II. Studies of Individual European Satellites. A. East Germany. 1. Administrative Organization. The production of locomotives and rolling stock in East Germany is controlled by two apparently independent organiza- tions. The first of these is the Transmash Soviet Corporation (Ministerstvo Transportnogo Mashinostroyeniya Sowjetische Aktien- gesellschaft -- Transmash SAG) which is Soviet-owned and Soviet- operated and controls the activities of railroad equipment plants at the following places 16~+~: Dessau, railroad cars; Weimar, narrow-gage railroad cars and refrigerator cars; Ammendorf,-~-~ express train coaches; Ilsenburg,~ railroad wheel sets; and Berlin ~ For a map showing the locations of locomotive and rolling stock plants in the European Satellites, see Figure 26, following p. 98. ~ These plants were resold by the USSR to the German Democratic Republic (-GDR) in mid-1952. Information obtained in August 1953 lists them under the administration of the Association of People-Owned _ 97 _ Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 (formerly Knorr-Bremse), brake equipment. Railroad equipment con- structed by these plants is considered as reparations even though the plants are Soviet-owned and Soviet-controlled. The second organization is the Association of People- Owned Enterprises, Locomotive and Railroad Car Works (Verwaltung Volkseigener Betriebe - Lokomotiv and Waggon -- VVB-LOWA).~ The plants under the direction of this administration are engaged in the production of railroad equipment for the USSR as reparations and of items for the Internal use of the East German railroad net- work. Wldau is the seat of the LOWA administration, but no produc- tion is carried out there, with the possible exception of conversion of steam locomotives to coal-dust firing. People-Owned Enterprises (Volkseigene Betriebe -- VEB's) under .the VVB-LOWA administration are located at the following places: Goerlitz, Niesky, Bautzen, Werdau, Babelsberg, Go+.ha, Uebigau, and Vetschau. 166/ The estimated production of locomotives and rollin stock in East Germany in 1950, 1951, and 1952 is given 3. Inventory Estimates. a. Locomotives. The estimated locomotive inventory in East Germany as of 29 February 1952 is given in Table 19.E b. Freight Cars. The estimated freight car inventory in East Germany as of 20 December 1951 is given in Table 20.E Enterprises, Locomotive and Railroad Car Works Verwaltung Volkseigener Betriebe - Lokomotiv and Waggon -- VVB-LOWA), and even though the ad- ministrative function of the VVB's was reported to have been assumed by the Ministry of Machine Construction as a result of its reorganization in January 1953, the use of the term VVB-LOWA as a commodity group, designation has Continued. 165/ ~. See p. 97; note ,above. Table 18 follows on p. 99. Tables 19 and 20 follow on p. 101. -98- 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 50X1-HUM Figure 26 50X1 esk9-L\ip~' ~ibere PRAGUE ~J Kolin o -V C Stud~nkaof .. ~WInInS ~ l?. ~ ^~n Sv3ty Martin oTrnava i J J GERM+A N~ ~Ammendorfo \ 0 o eimar Ba tha o erdau ~ti1~ Soviet Zone / ~Hennigsdorf ` O \ Babelsberg Dessau J,~ Soviet 1 v~ `J `'6~ Zone l~~ h~ ~ G, $~, 6y izen~ ( Oder P 0 GrUnbAcQ \ \ 9 F. A (Gd~Ask) 0. Lubaho Breslau o~,(Wroct~w) oGylSr ~Sosnowieci 6v~ _oChrun6w /L/ o iskolc ^'/ _ oDi6sgy6r LBUDAPEST / KSbBnya GARY I -WARSAW N ~~D 0 Bra$ov Craiova 0 ~~~ /'rlpyat' a ryanovo o BULGARIA SOFIA The Ueired Sera. Go,~emmmrdoes eoe mmvei:. rM Odr.~Neisre Unr rs the ddinTi,. Pohsh.Ge.mrn bouedr.r, nor does R r.copnGe ehe ineorpo.reior o! Urhwni. into ehe So.ire Union. Some o! ehr oche. bomd.de::ho?n .m noe nra.:..iy .rco.er:rd by EUROPEAN SATELLITES RAILROAD LOCOMOTIVE AND/OR ROLLING STOCK PLANTS 0 100 0 100 200 Scale 1:10,000.000 200 400 Kilometers 400 Statute tulles J J Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 r Estimated Production of Locomotives and Rolling Stock in East Germany 1950-52 Item Destination Gage (mm) 1950 1951 1952 Freight Cars Refrigerator Cars USSR 1,524 1,551 to 1,820 2,296 to 2,696 1,890 to 2,940 4-Axle Slag and~'Dump Cars USSR 1,524 500 95 to 120 72 to 96 Gondola Cars USSR 1,524 0 N.A. 400 Tank Cars USSR 1,524 7+ 600 to 720 720 Flatcars USSR 1,524 and 1,435 350 610 to 730 2,420 to 2,444 ~* Boxcars USSR. 1,524 2,081 to 2,281 950 0 Freight Cars (Type Not USSR, 1,524 250 500 960 Specified) Boxcars Czechoslovakia 1,435_ 0 0 250 Coal Cars Poland 1,435 0 350 to 500 0 Coal Cars East Germany 1,435 0 0 400 Total Freight Cars ~ 4,739 to 5,2~ 5,401 to 6,216 7,112 to 8,21C Passenger Cars Passenger Cars USSR 1,524 650 to 850 995 to 1,170 535 to 895 Dining Cars USSR 1,524 25 40 to 50 80 Double-Deck Passenger Cars East Germany 1,435 0 36 100' Total Passenger Cars 675 to 875 1,071 to 1,256 715 to 1,075 Work Cars 15=Ton'Railroad Cranes USSR 1,524 75 to 80 90 144 25-Ton Railroad Cranes USSR 1,524 60 to 65 100 to 115 120 to 150 50-Ton Railroad Cranes Total Work Cars USSR 1,524 0 135 to 145 45 to 50 235 to 255 72 to 100 336 to'394 ~ Footnotes for Table 18 follow on p. 100. -99- Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Estimated Production of Locomotives and Rolling Stock in East Germany 1950-52 (Continued) Item :Destination Gage (mm) 1950 1951 1952 Work Trains ~ USSR 1,524 0 0 5 Hospital Cara ussR a' 1,435 0 40 66o to 700 Coal-Dust Tenders East Germany 1,435 15 to 17 0 0 Steam Locomotives Steam Locomotives USSR 1,524 0 0 (30 Plan) Steam Locomotives East Germany 1,435 0 0 (32 Plan) Total Steam Locomotives 0 0 62 Plan Electric Locomotives. USSR 1,524 50 80 61 Narrow-Gage Cars, "Long Timber" Cars USSR 750 1,200 to 1,440 240 0 Mobile Generator Cars USSR 750 353 to 360 400 to. 720 295 Freight Passenger Cars USSR 750 557 0 40 Passenger Cars USSR 750 600 0 0 utility cars ussR 750 600 0 0 Flatcars USSR 750 0 650 400 to 600 Total Narrow-Gage Cars 3 310 to 3,557. 1,290 to 1,610 735 to 935 Mining Locomotives USSR- 750 . 200 Over-100 Over 160 Mining Locomotives Czechoslovakia Unknown 0 100 0 a. 2,300 of these are 1,435-mm gage. .For details, see 5b, below. b. estimate of .freight car production for 1950 and 1955? The 1950 estimate is 4,760 cars. The 1955 Plan estimate is 11,900 cars. Straight-line interpolation between 1950 and 1955 shows estimates for 1951 and 1952 of 6,188 and 7,616 units, respectively. These estimates all fall within the range of estimate as shown in this table. Since these estimates as shown were made by summing up individual plant production estimates and since the estimate s subsequent to these plant estimates, the concurrence of the two estimates lends a great deal of support to the contention that individual plant studies which result in estimates of produc- tion may well be a valid means of estimating total production within a given country. c. Composition unknown. d. For details, see 5a, below. 1.00 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Estimated Locomotive Inventory in East Germany as of 29 February 1952 168 a. These are locomotives used exclusively for the transportation of goods to the USSR. b. Probably locomotives captured during World War II, largely badly damaged and not capable of repair. Estimated Freight Car Inventory in East Germany as of ~4 December 1951 ~ 169 exact sums of the columns. A 2-percent margin of error is allowed by East Germany in the figures for types of cars and in the totals, since the count is a paper one and not. an actual one. The totals at the foot of the table do not represent 5X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 c. Passenger Cars. The estimated passenger car invento as of 31 January 1952 is given in Table 21. 50X1 50X1 Leaving out the narxow-gage, railway service, and S-Hahn cars, 8,502 cars were in service on 1 January 1952 (of which 1,767 were baggage cars and 656 were mail cars) and 1,610 were out of service awaiting repairs. Estimated Passenger Car Inventory in East Germany as of 31 January 1952 170 Type of Passenger ,, ~ Car Operable Under Rep air Beyond Repair ~ Total Express Train 457 (D-Zug) 127 98 682 Limited Stop Train 199 (E -Zug) 44 10 253 Local Train 5,400 894 179 6,473 ISG Sleeping 38 38 ISG Dining 39 39 Mitropa Sleeping 10 1 11 Mitropa Dining 13 13 ~g~ge 1, 767 390 232 2, 389 Berlin S=Balm 1,018 111 179 1,308 Narrow-Gage 636 118 98 852 Mail 656 154 11 821 Railway Service 1,344 153 1- 1,498 a. These cars can be used only for obtaining parts cannibalizing . Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 4. Plant Information. Estimates of production in 1950 and 1951 and planned production in 1952 at those of the above-mentioned and other~7_ants 50X1 50X1 which produce locomotives and~or rolling stock follow. 171 Proper Name: .Waggonfabrik Dessau. Production: 1950: 1,000 refrigerator cars. 60 to 65 25-ton railroad cranes. 75 to 80 15-ton railroad cranes. 150 to 200 express train coaches. Unknown number (probably small) of 4-axle slag and dump cars. Unknown number of flatcars. 1951: 1,500 to 1,800 refrigerator cars (see Fig. 27*). 100 to 115 25-ton railroad cranes. 45 to 50 50-ton railroad cranes. 90 15-ton railroad cranes. 35 to 60 slag cars. 60 dump cars. 250 express train coaches. Unknown number of flatcars. 1952: 1,440 to 2,100 refrigerator cars. 144 15-ton railroad cranes. 120 to 150 25-ton railroad crane s..~' ~ Following p. 104. ~-* Railroad cranes are to be shipped as special flatcars to Waggonbau Ba,utzen for installation of crane riggings. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 a. Dessau (Continued). Production: 1952 72 to 100 50-ton railroad cranes.* 36 to 48 foundry cars. 120 to 144 flatcars. 36 to 48~slag cars. b. Weimar. Proper Name: Waggonbau Weimar. Former Name: Fritz Saukel Werke. Production: 1950: 1,200 to 1,440 narrow-gage "long-timber" cars. 353 to 360 narrow-gage mobile generator cars . 557 narrow-gage freight-passenger cars. 451 to 720 refrigerator cars. Unknown number of tank cars. 1951: 240 narrow-gage "long-timber" cars. 720 refrigerator cars. 400 to 720 narrow-gage mobile generator cars. 600 to 720 tank cars. 1952: 295 narrow-gage mobile generator cars. 40 narrow-gage passenger- freight-cars. 450 to 840 refrigerator cars. 400 soft-coal cars (probably gondola cars). 720 tank cars . * Railroad cranes are to be shipped as special flatcars to Waggonbau Ba,utzen for installation of crane riggings. - 104 - 50X1-HUM .. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 FIGURE 27. REFRIGERATOR CAR, PRODUCED BY WAGCONFABRIK DESSAU SAG AS REPARATIONS FOR THE USSR. The photograph WaS taken at the Coswig Bahnhof on 3 August 1951. Note the modern construction of the car and the inscription in Russian stenciled on the car before delivery. The inscription on the side of the car at the top, lednik, means "Refrigerator." Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 c . Ammendorf . Proper Name: Former Name: Production: Waggonfabrik Affinendorf. Gottfried Linder AG. 1950: 350 to 450 coaches (conver- tible to hospital cars). 600 narrow-gage passenger cars. 600 narrow-gage utility cars. 1951: 355 to 390 passenger coaches. 650 narrow-gage flatcars. 1952: 480 to 540 passenger coaches. 400 to 600 narrow-gage flat- cars. d. Goerlitz. Proper Name: Waggonbau Goerlitz. Former Name: Wumag Waggon and Maschinen Werke. Product-ion: 1950: 100 to 150 express train coaches. 500 4-axle dump cars. 350 flatcars . 25 dining cars. 1951: 35o to 50o coal cars (;for Poland). 40 to 50 dining cars, 10 80-ton flatcars. 250 coaches. 36 double-deck passenger cars. 40 reconstructed hospital cars. 1952: 100 double-deck passenger cars. 50 to 350 coaches. 80 dining cars. 60 to 100 hospital .cars. - 105 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 cl. Goerlitz (Continued). Production: 1952: 700 50-ton 4-axle flatcars .- ~+00 coal cars . e. Niesky. Proper Name: Waggon- and Stahlbau Niesky. Former Name: Christoph and Unmack. Production: 1950; 781 boxcars. 15 to 17 coal-dust tenders. 1951: No information. 1 600 80 t 6 f 1 1 l t 2 95 -ax , - on e a, - : cars. f. Bautzen. 250 boxcars (f'or Czecho- slovakia). Proper Name: Waggonbau Bautzen. Former Name: Busch Waggonbau. Production: 1950: 800 to 900 boxcars. 50 (or more) passenger cars. Unknown number of coal cars (gondola cars). 1951: 950 boxcars. 140 to 280 passenger cars. Unknown number of coal cars. * The total order Prom the 6oviet Control Commission is for 2,300 flatcars of 50- and 80-ton capacity. The order consists of 700 50-ton ~+-axle cars and 1,600 80-ton 6-axle cars. Distribution of production assignment between Waggonbau .Goerlitz and Waggon- and Stahlbau Niesky is positive. The flatcar program is said to take priority over all but orders for hospital cars. 172/ - l06 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 f. Bautzen (Continued). g. Production: Werdau. 1952*: 200 3-car hospital trains. 250 crane cars from Dessau for finishing. 5 work trains (composition unknown).. Proper Name: Waggonbau Werdau. Former Name: Schumann Werke. Production:. 1950: 500 to 600 boxcars. 100 refrigerator cars. 7 tank cars. 1951: 76 to 176 refrigerator cars. No other information. 1952: Converted to motor vehicle production. h. Babelsberg. Proper Name: Karl Marx Werke.~ Former Name: Orenstein and Koppel". Production: 1950: 200 narrow-gage steam and diesel mining locomotives. 1951: Several hundred narrow-gage steam and diesel mining loco- motives. 1952: Unknown number of narrow-gage mining locomotives. 30 broad-gage steam loco- motives planned but not ? built . * Waggonbau Bautzen is to discontinue railroad equipment production at the end of 1952 and concentrate on motor vehicle production. 173 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Proper Name: Waggonbau Gotha. Former Name: Gothaer Waggonfabrik. Production: 1950: 250 unk freight cars (type nown). 1951; 500 unk freight cars (type nown). 1952: 960 unk freight cars (type nown). j. Hennigsdorf. Proper Name: Lokomotivenbau Elektrotechnische Werke (LEW) .-~ Former Name: AEG Borsig Lokomotivbau. Production: 1950: 50 80-ton Bo-Bo electric locomotives.~* 1951: 80 electric locomotives of varying types and weights . 100 narrow-gage electric mining locomotives for Czechoslovakia. 1952 221 electric locomotives of varying types and weights . -~~~ 32 steam locomotives planned but not built. 5 passenger coaches. ~ LEW Hennigsdorf is under the administrative control of the Min- istr~ of Machine Construction through the Main Administration for Electrical, Radar, and Electronics Construction. *~ A Bo-Bo wheel arrangement consists of two 2-axle trucks. Each of -the four axles is driven by its own traction motor. ~~' Of which 61 are of over 60-ton total weight. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 All production of the SAG-owned plants is for the USSR as reparations. Unless stated to be of narrow gage, the equipment produced is of Soviet broad gage. It is shipped to a border point on standard-gage wheel sets, and then the broad-gage wheel sets, which accompany the equipment, are installed. The narrow-gage equipment listed is primarily 750-mm-gage units for use in mines and in timber hauling. The VVB-LOWA plants are primarily engaged in repara- tions production for the USSR, with the following exceptions: at Waggonbau Goerlitz the double-deck passenger cars are being produced for the East German State Railways; at Waggon- and Stahlbau Niesky the coal-dust tenders are for internal East German use; and at Hen- nigsdorf the mining locomotives noted in 1951 are for Czechoslovakia, and the 32 steam locomotives scheduled in 1952 are for internal East German use. 5. Additional Information of Intelligence Value. a. Hospital Cars. In late December 1951, Waggonbau Goerlitz received orders f,~om the USSR to construct a num- ber of hospital trains. These trains were to consist of 5 or 6 cars each (1 power car equipped with generators and other special equip- ment, 1 car equipped for surgery, 1 first-aid car, and 2 or 3 cars for casualties). The original order seems to have. been for 10 such trains. The cars. are reported to be of standard European gage and not convertible for broad gage. This could mean that they are for the use of Soviet troops stationed in Germany as mobile aid stations where permanent hospital facilities are not available. further production of these hospital trains at Waggonbau Goerlitz after the completion of the first 10. 174 in 1952 Waggonbau Bautzen was ordered to produce 200 emergency hospital trains con- sisting of 3 cars each (1 surgery car, 1 X-ray car, and 1 car of unknown type). 175/ 50X1 50X1 50X11 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 b. Heavy-Duty Flatcars. Another item of importance is the 1952 Soviet order for 2,300 heavy-duty flatcars from East Germany. These cars, of 50- and 80-ton capacity, are said to be under .construction at Waggon- bau Goerlitz and Waggon-.und Stahlbau Niesky and are reported to have a priority over all production except hospital cars. The present in- ventory of such cars in East Germany is not over 250 units, so that this order takes on added significance. the East Germans axe making efforts to obtain special strip steel for these cars from sources outside the Soviet~Bloc and~are willin t extremel hi h rices for it. Since a loaded depth of 18 to 24. inches on the flatcars would load them to their capacity, they would be well suited for. the purpose. In addition, in case of necessity the cars can be used for the transportation of tanks and other similar heavy military equipment. 176 c. Coal-Dust Locomotives. In East Germany, supplies of black coal are almost nonexistent, and the firing of locomotives 'is done largeJ~y with brown coal briquettes. This procedure causes a marked loss in operating efficiency as well as other unpleasant features, and for this reason the development of locomotives fired with coal dust was urged by the coal and other industries. Before World War II the Reichsbahn had explored the possibility of using locomotives fired with coal dust and had con- structed a total of 10 such units. The operation was not too successful, because of the expense of the coal dust, until 1937, when the Halle'sche Pfaennerschaft, an old mining corporation, estab- lished a large coal-dust-grinding mill in Senftenberg and, having to find a regular account, offered coal dust to the Reichsbahn on favorable terms and prices. The coal-dust locomotives were used in the transport of heavy brown coal briquettes to Berlin and the return of the empty trains to Senftenberg. During World War II, coal-dust locomotives lost their importance because they depended on a specific fuel base. 50X1 ~Ux1 50X1-HUM Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 When the Russians occupied Germany at the end of the war, they dis- mantled the coal-dust plant at Senftenberg, and the locomotives were no longer used. The coal-dust locomotive program was reopened at the beginning of 1949, and a German civil engineer, Hans Wendler, under- took the assignment of developing such locomotives for use in East Germany. He started with a prewar model and, after considerable experimentation, succeeded in developing a unit which would operate well on relatively poor grades of coal dust. Major changes were made in the prewar models: They were considerably simplified and thus made more dependable as well as more efficient. The advantages claimed for coal-dust firing with the Wendler design are the following: there is no shortage of steam; flying sparks are completely eliminated, as well as ash dumping along the right-of-way; there is no more smoke, and fuel combustion is almost complete; steaming up normally takes about 45 minutes as compared with 4 to 6 hours for a grate-fired loco- motive; coaling is cleaner and quicker; and the fireman on the loco- motive is released from physical labor, leaving him free to watch with the engineer for signals and the like, thus enhancing the safety of operation of the locomotive. In addition to these advan- tages, it is also claimed that a fuel saving of some 30 percent over the grate-fired locomotive is achieved. The disadvantages of coal-dust operation are also considerable, 50X1 "Lately, there has been a shortage of suitable coal dust because it was found that, as heretofore, only coal dust with a maximum residue of 20 percent on the 4,900 sieve is actually usable. Such coal dust is in short supply in the Halle area, and Senftenberg has not resumed deliveries yet. Therefore, plans are being voiced to reconvert part of the coal-dust-fired locomotives to grate firing. Furthermore, the high .sulphur content of the brown coal dust always creates difficulties. Those copper fireboxes still in existence are almost corroded through, and steel fire- boxes cannot be manufactured in the German Democratic Republic as yet. Thus, several boilers have torn open already, an occurrence Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 which always constitutes considerable danger for everybody in the vicinity." 177/ The fact that some of the coal-dust locomotives may have been reconverted is borne out by an official tabulation of locomotives in East Germany as of 31 January 1952 which indicates that 83 coal-dust locomotives were .included in the inventory, and by a second similar tabulation as of 2g February 1952 which indi- cates only 7b such units in the inventory, although the total inventory remained the same. These same tabulations also indicate that, on 31 January 1952, 42 of the coal-dust locomotives were in operational condition (50.5 percent) and that, on 29 February 1952, only 35 were in operational condition (~+6 percent). Thus it can be seen that the program for coal-dust firing may not be as success- ful as anticipated. 178/ The development of this coal-dust 'locomotive program is of interest because of the fact that successful development of such units will, to a-large extent, aid the East German railroads in their present problems of fuel shortages. It is estimated that 1,250 locomotives so fired would effect an annual saving of 8 million tons of briquettes. 179/ d. Return of E quipment from the USSR. In 1951, some 20,000 freight cars seized by the Russians in eastern Germany during World War II were returned. These cars were in such poor condition that most of them had to be scrapped. 180/ It was also reported that in 1952 20,000 additional freight cars would be returned 181/ and that 180 electric locomotives which were similarly seized during the war also will be returned. 182/ The freight ears in this second return probably also will be in such poor condition that few can be rebuilt for addition to the East German inventory. Arty additions, however, will be of use to East Germany, as there is a continual shortage of freight cars on its railroads at present. The electric locomotives will need extensive repair, and it was estimated that about 50,000 East German marks would have to be provided by the East German government for the repair of each of these units. Where the materials and money for these repairs are to come from is not known, even by the East German authorities, and it is doubtful that the electric locomotives will be placed in service at an early date. 183/ Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 1. Administrative Organization. Administratively, the plants in Poland which produce railroad equipment are subordinate to the Central Administration of the Metal Industry, which, in turn, is subordinate to the Ministry of Heavy Industry. The production of locomotives and rolling stock at these plants in Poland is presently scheduled according to the requirements of the current Six Year Plan (1950- 55). Previous to the current Plan a Three Year Plan (1947-50) was in effect. 2. Production Estimates. It is impossible to estimate the total yearly produc tion of locomotives and rolling stock in Poland There are, however, several reports of production on a yearly basis which make it possible to estimate total production for the years 1946-49 and the 1950-55 Plan, inclusive. These estimates are given in Table 22. Estimated Production of Locomotives and Rolling Stock in Poland 1946-4g, 184/ 150-55 Plan 185/ Year Steam Locomotives Freight Cars (2-Axle Equivalent) Passenger Cars 1846 178 5;221 5 1947 254 11,500 108 1948 265 15,000 232 1948 267 14,200 200 1950 Plan 280' 16,200 300 1951 Plan 290 15,500 400 1952 Plan 300 16,400 400 1953 Plan 300 16,400 400 1954 Plan 300 16,400 400 1955 Plan 300 18,000 400 1955 a/ 315 18,800 630 a. These figures were introduced at the request of the Soviet Control Commission-after the 1950-55 Plan was announced. - 113 - 50X1 5UX1 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 3. Inventory Estimates. Estimates of the inventory of locomotives and rolling stock in Poland vary to an appreciable extent over the years 1946-52 and the 1955 Plan. All estimates have been considered, and~Table 23 gives a summary considered to be most reliable. Estimated Inventory of Locomotives and Rolling Stock in Poland 186/ 1846-52, 1955 Plan Year Steam Locomotives Passenger Cars Freight Cars 1946 5,200 to 5,700 a/ 1947 5,848 a/ 1948 5,860 a/ 1849 4,800 1950 4,870 a/ 1951 4,950 a/ 1952 5,030 a/ 1955 Plan 5,240 - 7,276 110,000 b/ 8,161 164,996 c/ N.A. 170,500 c/ 8,000 160,000 b/ 8,250 a/ 165,500 a/ 8,500 a/. 171,000 a/ 8,750 a/ 176,500 a/ 9,500 193,000 a. Including an undetermined number of damaged .units. b. Freight cars actually in use. c. Total number of freight cars in use and damaged cars. d. Increases between 1949 and the 1955 Plan are arbitrarily divided equally. 4. Plant Information. Some 17 plants in Poland have been reported as producin locomotives and/or rolling stock. ~ A summary of total productiori of the major plants indicates that plants noted with a dagger (f~ are of minor importance and may actually be engaged in parts production rather than in actual assembly of loco- motives and/or rolling stock. - 114 - 50X1 50X1 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Proper Name: Polish Railroad Car Plant. Former Name: Zieleniewski Railroad Equipment Plant. Production: This plant reportedly resumed produc- tion after World War II in 1946 with a monthly production of 100 coal cars. No recent information is available. Proper Name: Dzierzynski Railroad Locomotive Plant. Former Names: First Railroad Locomotive Plant. Fablok Railroad Locomotive Plant. Production: Production reports vary, but it seems clear that this plant has produced the TY-45-class and the OK-21- and OK-22-class steam loco- motives for the USSR (see Fig. 28~-). Production of the TY-45 was begun in 1946, and some 100 units were reported as produced for the USSR by November 1947. 150 locomotives of "other" types also were reported as produced in 1947. These were probably tank=type shunt locomotives of the "Ferrum" class for the USSR. The 1948 Plan purportedly called for the production of 217 main-line loco- . motives -- 150 for Poland and 67 for export to the USSR. The PT-47-class express locomotives for Polish use were first built in 1948 (see Fig. 29~). It is described as the largest and most powerful steam locomotive presently produced in Europe. Production in 1949 is reported as 332 units of all types. No later information is available.' ~ Following p. 116. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 c. Wroclaw (Breslau . Proper Name: Pafawag Railroad Car Plant. Former Name: Linke-FFoffmann Railroad Car Plant. Production: The following breakdown of produc- tion was reported: 1846: 1,1+68 coal cars in the first 7 months. 1947: 5,400 to 5,800 coal cars. 76 to 82 locomotive tenders. 17 to 18 passenger cars. 1948: 5,300 coal cars. 122 locomotive tenders. 46 passenger cars. 1949: 66 mail coaches. Beginning on 1 October 1949, troop transport. railroad cars to seat 130 men were to be produced at the rate of 1 car every 2 days.. Beginning on 1 October 1948, armored freight cars at the rate of 1 a day were to be produced. 1950: 30 special flatcars with 8 axles and a gear ring in the center of the car for an artillery ' piece . 1951: 150 additional special 8-axle flatcars by May. 1,000 freight cars for Hungary, delivery to start on 1 August 1951. About 80 percent of all produc- . tion was for the USSR. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 - - ~ .~ Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 FIGURE 29. INTERIOR OF THE BOILER ASSEMBLY SHOP AT THE CHRZANOW LOCOMOTIVE WORKS, 1949. The boiler shown is probably for a PT-47-class steam locomotive. The inscription written on the side of the boiler, Ostroznie partaczu!, means "Careful, bungler!" . ~ , ~ ~, Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Proper Name: Cegielski Locomotive and Machine Plant . was reported for 1949 and about 90 USSR did not start until November 1949. A total of 8 locomotives for the USSR production for the No figures are available after 1950 or before 1949? e. Gdansk (Danzig). Proper Name: Waggonfabrik Railroad Car Plant. Production: No information. f. Chorzow. Proper Name; Kosciuszko Iron Works. Former Names; J.G. Katowice and Laura Iron and Steel Corporation. Koenigshuette Steel Plant. Production: No information is available. g . Luban . Descriptive Name: Railroad Car and Locomotive Plant . Production: Prewar: Electric locomotives. Present: Locomotives and cars. No other information is available. 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 50X1-HUM ' h. Lublin. Descriptive Name: Railroad Locomotive Plant. Production: No information is available. i. Sosnowiec. - Proper Name: Babcock and Zieleniewski Flant. Production: Said to have produced 100 locomotives from the end of World War II to October 1.9+7. Bulgaria reportedly ordered 30 locomotives from this plant. No other information is available. j. Warsaw., Proper Name: Lilpop, Rau, and Loewenstein, Inc. Production: In 1951 the plant was reported as producing 40-hp mining locomotives. k. Warsaw. Proper Name: Ostrowiec Railroad Locomotive Plant. Production: Also produces ~+0-hp mining locomotives. May possibly be the same plant as the preceding one or may be engaged in joint production of these mining loco- motives with this plant. 1. Wroclaw (Breslau . Proper Name: Zaodrzanski Railroad Car and Bridge Building Plant. target for 19 7 was 300 freight cars per month. production, Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 m. Zielona Gora (Gruenberg). Proper Name: Zaodrzanski Railroad Car and Bridge Building Plant. Production: As of March 1950 a total of 3,000 ~--axle coal cars has been reported as shipped to the USSR since the end of World War II. In addition, some 300 tank cars were reported shipped up to December 19~F9. No other information ~.s available. n. Bedzin. Proper Name: Zamkost Railroad Tank Car Plant, f Production: Reportedly produces tank cars for the- . Polish railroads. No other informa- tion is available. 5. Additional Information of Intelligence Value. a. Exports to Communist China, Albania, and Bulgaria. Polish capacity for the production of locomotives and rolling stock is such that, in addition to production for the USSR and for its own use, it is able to produce some units for export to other Satellites. On 7 October 1951, 2 locomotives and 29 railroad cars were loaded on the SS Kosciuszko resumably for shipment ~o Communist China. 188/ this shipment as going 50X1 to Albania. 189/ Whether this particular shipment went to Communist China or to Albania, the likelihood is that both countries are receiving some units from Poland. In addition, on 11 July 1951 a 2-year trade agreement between Bulgaria and Poland was signed in which Poland agreed to ship both locomotives-and .rolling stock to Bulgaria in 1952 .and 1953. 190/ Even though rio complete statistics on such exports are available, it is important to note that the capacity of the Polish industrial plant is high enough to satisfy both internal and Soviet demands and still leave a surplus for export. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 b. Imports from Sweden. Poland has recently received from Sweden forty- four 3-coach electric train sets (for use or. the Warsaw subway) and 8 electric locomotives. The first of the electric train sets was put into service in December 1950, and the first locomotive was put into service in May 1951. It is interesting to note that, even though Poland has sufficient capacity to produce steam loco- motives in exportable quantities, it evidently does not have the proper facilities for the construction of electric locomotives within its own boundaries. 191/ C. Hungary. 1. Administrative Organization. The production of locomotives and rolling stock in Hungary is scheduled according to the current Five Year Plan Act (1950-~4). Previous to the current Plan, the Three Year Plan (1947-49) was in effeet. The locomotive and rolling stock plants are controlled by the Ministry of Heavy Industry, as the higher authority, with a form of chief directorate having immediate administrative authority over the individual plants. 192/ The Three Year Plan and the Five Year Plan were, and are, flexible enough to permit changes in production quotas to meet current economic conditions. The Three Year Plan was re- portedly fulfilled in 2 years and 5 months, resulting in consider- able changes in the 1949 schedules, and the Five Year Plan was re- ported extensively revised in 1951. 193/ The Hungarian locomotive and rolling stock industry is concentrated in six plants. Only one of these, the Mavag Heavy Machinery Plant in Kobanya, makes substantial numbers of locomotives, and only the Ganz Electrical Equipment Factory in Budapest, the Wilhelm Pieck Railroad Car Plant in Gyor, and possibly the MAV Railroad Car Plant in Miskolc make substantial numbers of freight cars.* ~ For details on each of these plants, see 4, below. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 2. Production Estimates. .Estimates of the production of locomotives and rolling stock in Hungary by type of equipment for the years 1946-54 are given in Table 24. Table 24 Estimated Production of Locomotives and Rolling Stock in Hungary 1946-54 Item 1846 1947 1948 1949 1950 1951 7-952 1953 1954 Steam Loco- motives 194/ 20 130 155 175 185 200 210 220 N.A. Electric Loco- motives 195/ 0 0 0 0 0 2 4 8 N.A. Freight Cars 196/ N.A. N.A. N.A. 4,850 N.A. N.A. 6,500 N.A. 10,000 Passenger Cars 197 N.A. N.A. N.A. N.A. N.A. N.A. 507 to 610 N.A. N.A. Diesel Train Sets 1g8/ 0 0 0 N.A. 5 16 N.A. N.A. N.A. 50X1 50X1 In the case of freight cars, estimates of yearly produc- tion are even more difficult, because, even though production at the two major plants, at Budapest and Gyor, has been fairly well estab- lished, there is probably enough production at Miskolc (on which little information is available) to preclude the possibility of making a production estimate solely on the basis of plant information. A statement by the Hungarian press giving 1949 production and 1954 These yearly estimates are logical from the point of view of the plant production information available and are therefore given in Table 24 as the best estimates of freight car production available. planned production is available Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 There are no estimates of Hungarian .passenger car pro- duction on a yearly basis available. Two plants are engaged in the production of passenger cars, and an estimate for their total pro- duction of passenger cars in 1952 is shown in Table 24. The Ganz plant in Budapest is engaged in the production of diesel train sets for export. 3. Inventory Estimates. Estimates of the invento of locomotives and rolling stock in Hungary as compiled are given 50X1 in Table 25. 50X1 these figures as shown should be allowed a range of error of plus or minus 15 percent. 201 Estimated Inventory of Locomotives and Rolling Stock in Hungary a~ 1938; 1846-52, 1951+ Plan ~ . Unit s 1954 Item 1938 1946 1g47 1948 1949 - 1950 1951 1g52 Plan Locomotives 1,841 1,144 1,680 1,1+1+0 1,1+70 1,616. 1,685 N.A. N.A. Passenger- Cars 3,970 1,930 2,1+72 2,300 2,350 2,396 3,Og6 N.A. N.A. Freight ' Cars 46,815 16,375 32,855 35,000 37,880 42,000 43,152 46,760 54,600 a. Including locomotives and rolling stock owned and held by the Hungarian State Railways .(Magyar Allamsutak -- MAV) and excluding foreign-owned stock in Hungary and MAV stock abroad. The estimates are as of 31 December for each year shown. b. The large increase in inventory between 1946 and 191+9 is attributed to a return by the USSR to Hungary of considerable numbers of locomotives and rolling stock seized by the Russians at the end of World War II. Changes ~. in inventory after that period are attributed to retirements plus additions as the result of production which was not sent to the USSR. Since retire- ments probably are determined by the amount of new equipment available, it is not possible to estimate, on the basis of increases to Hungarian inven- .~ tort', the percent of production which actually is exported to the USSR. 50X1-HUM Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 ~+. Plant Information. a. Kobanya. Proper Name: Mavag Heavy Machinery Plant. Production: This plant is the only one in Hungary engaged in the production of main- line steam locomotives. For this reason it is possible to use yearly estimates of Hungarian production as well as estimates of the production rate of the plant in determining the probable actual production rate. By so doing, the production of units of steam locomotives for the years 1946- . 53 has been estimated as follows: 1946: 20 1950: 185 1947: 130 1951: 200 19~~ 155 1952: 210 (Plan). 1949 175 1953: 220 (Plan). In addition to the production of steam locomotives, the plant is engaged in a joint project with the Ganz plant in Budapest on the production of a new model electric locomotive for the Budapest-Komarom-Hegyeshalom main line. These locomotives are 5-motor, single- phase to three-phase converter units, with a Bo-Co wheel arrangements (see Fig. 30~-~-). The Ganz plant is supply- ing the electrical equipment for the * A Bo-Co wheel arrangement consists of one 2-axle truck and one 3- axle truck. Each of the five axles is driven by'its own traction motor. ~ Following p. 124. 50X1-HUM Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 a. Kobar~ya (Continued) . Production: locomotives, and the Kobar~ya plant is supplying the frames and the like and is responsible for the assembly of the units. Two units were built in 1951, ~+ are scheduled for 1952, and 8 are planned for 1953. 203 b. Budapest. Proper Name: Ganz Electrical Equipment Factory. Production: In addition to cooperating with the Kobar~ya plant in the production of the electric locomotive mentioned in a, above, this plant produces diesel train sets and freight and passenger cars. Before World War II, 1-, 2-, and 3-car diesel train sets were built for ex- port, primarily to Argentina, Egypt, Rhodesia, Uruguay, Bulgaria, and other European countries. Immediately after the war and up to early 1951 the plant was engaged in the conversion of Soviet diesel train sets to the Ganz- Jendrasik system. It is not known how many such conversions took place in this period. The mass production of diesel train sets began again in 1948- +9? Three types are now in production: ~+- and 5-car units for Argentina and 6-car unit's for the USSR. The first and last car of each train set is motor- driveri by a Ganz-Jendrasik diesel engine and generator set. -124 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 FIGURE $O. SINGLE-PHASE TO THREE-PHASE CONVERTER ELECTRIC LOCOMOTIVE OF THE KANDO SYSTEM, PRODUCED FOR THE HUNGARIAN STATE RAILWAYS, 1952. Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 b. Budapest (Continued). Production: Freight cars produced by this plant are almost wholly for export to the USSR as reparations. Types produced include 40-ton 4-axle boxcars, 60-ton .4-axle gondola cars, 50-ton ~+-axle tank cars, 2-axle tank cars, and 2-axle refrigerator cars. Passenger cars are produced for the USSR and the MAV. The cars for the USSR are 4-axle type "CAK"~ modern express coaches, and the MAV cars are 2-axle third-class coaches. Electric mining locomotives for Hungary and for export at the rate of 20 to 30 units per year are also produced at this plant . This plant is also engaged in considerable production of diesel engines of the Ganz-Jendrasik design, gears, pumps, turbines, and other capital goods, which account for about 50 percent of the value of production at the plant. 204 An estimate of production at this: plant from 1947 through 1951 is given in Table 26:x- 205 c. Gyor. Proper Name: Wilhelm Pieck Railroad Car Plant. Former Name: Gyor Railroad Car Plant. ~ Hungarian abbreviation for a car designed for internal traffic. ~- Table 26 follows on p.. 126. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Estimated. Production of Locomotives and Rolling Stock at the Ganz Electrical Equipment Factory, Budapest ~9~7_51 4-Car Units (for Argentina) 5-Car Units (for Argentina) 0 0 0 0 0 N.A. 0 5 1 7 6-Car Units (for the USSR.) 0 0 0 0 8 Conversiam (for the USSR) N.A. N.A. N.A. 0 0 Mining 'Locomotives N.A. N.A. 20 to 30 20 to 30 20 to 30 - 126 - ~ y ~ ~ Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 ,~ 50X1-HUM c. Gyor (Continued). Production: This plant is ,the largest manufacturer of railroad cars in Hungary. The plant produces all types of pas- . senger and freight cars for both .internal use and export to the USSR and other countries. Production in 1951 amounted to about 1,800 cars. Before 1951 the plant pro- duced mostly standard types of freight cars, and production has been largely of. specialized types of freight and passenger cars since that date. Orders on hand at the end of 1951 were reported as follows: Passenger Cars? 100 type "CAK" 18-ton 2-axle third-class cars t'or Czecho- slovakia. Delivery by mid- 1952 (50 of this order were delivered in 1951). 50 type "CAK",cars, specifica- tions as above, for the MAV. Delivery by end of 1952. 100 broad-gage 20-ton 2-axle second-class. cars for the USSR -- 50 in 1952 and 50 in 1953? 60 20-ton 2-axle special first- class cars for the Egyptian ,State Railways. Delivery to be complete by end of 1952 (some were delivered in 1951). 50 broad-gage 24-ton 2-axle luxury sleeping cars for the USSR. Delivery by end of 1953 (a few were delivered in 1951). - 127 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 c. Gyor (Continued . Production: Freight Cars: 900 broad-.gage 60-ton 4-axle ore cars for the USSR. ~+0 30-cubic-meter 2-axle tank cars for the USSR. Delivery by end of 1952. Unknown number of 15-ton ore- tipping cars, refrigerator cars, timber cars, and the like. Probably constructed in small lots as orders are placed. Spare Parts: x+0.,000 tons of spare parts for the MAV. In addition to the rolling stock portion of this plant, there is considerable production of such items as. trucks and buses, lift trucks, bridge parts, rail points and crossings, and the like. Ap- proximately 50 percent of the plant capacity is involved in other than railroad equipment production. * This order, current since 19+5, amounted in all to 5,000 cars by the end of 1952. ~It was a reparations item, and prompt delivery was enforced. This order accounted for 50 percent of the entire output of rolling stock at this plant. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 d. Budapest. Proper Name: Rossemann Harmatta Factory. Production: Reported in 1849 as producing narrow- gage diesel mining locomotives. e. Miskolc. Proper Name: MAV Railroad Car Plant. Production: Formerly a repair shop. Reported as producing new cars in 1951. f. Diosgyor. Proper Name: Mavag Steel Plant. Former Name: Diosgyor Steel Works. Production: Mostly parts for locomotives. Possibly some industrial-type locomotives of 275 hp. 5. Additional Information of Intelligence Value. a.. Hospital Cars. In early September 1951 it was reported that con- version of passenger and freight cars to hospital cars was taking place at 2 shops in Hungary, the former Wagon-Lits Workshop in Budapest and the MAV General Workshops some 12 km north of Budapest. Third-class coaches with wooden seats of both 2- and 4-axle types, as well as 2-axle 15-ton boxcars, were being converted. As of the end of August 1951 the total number converted was 150 freight cars and 35 to 40 passenger cars. Of these, 8 to 10 were fitted as surgical cars, and the remainder were fitted as double-deck hospital .cars. 206 The total number of cars converted is not known, nor is it known whether the program is still in progress,. The-last re-~ ported date of production of these hospital cars was October 1951. 207 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 b. Imports from Poland. About September 1951 a consignment of Polish freight cars was delivered to the MAV. It consisted of 1,500 freight cars of 20-ton capacity, 500 of which were covered. One thousand ad- ditional cars, also of 20-ton capacity, have been ordered. 208/ It is interesting to note that, even with a sizable freight carr produc- tion capacity, Hungary is forced to depend on Poland for such units because of the required delivery of cars to the USSR. c. Export of Diesel Train Sets. A trade agreement between Hungary and East Germany signed on 6 June 1952 calls for the delivery of 12 diesel train sets tb the East German government by 1955. Three of these train sets are to be delivered at the end of 1953? Some details of the agreement remain to be cleared up, but the production of such train sets by Ganz for Argentina and for the USSR suggests that these train sets for the East German government will be similar to those made for these two countries. 209 It has also been reported that Bulgaria was to import some of these diesel train sets from Ganz in 1952 and afterward. 210/ 1. Administrative Organization. Economic planning in Czechoslovakia started with the Two Year Plan (1947-48) and has been continued with the present Five Year Plan (1949-53)? The planning begins with the .Central Planning Board, which has as its operating agency the State Planning Off ice. The State Planning Office is divided into four divisions. With respect to production of locomotives and rolling stock, the division which controls heavy industry, light industry, construction, and transportation is the one which must be considered. 271/ Of these sections only the ones for heavy industry and light industry are directly pertinent here. The exact apportionment of firms and plants within these sections is not clear, but there are four main enterprises, or "state organizations," which fall within these sections. Since they are all large industrial combines, each of the four probably produces items which fall into both the heavy industry and light industry sections. These four enterprises are- as follows: 50X1-HUM . Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 a. Skoda Works (the main plant, the Skoda Machine Building Factory -- the V.I. Lenin Plant -- at Plzen, is the only one engaged in the production of locomotives and rolling stock). b. CKD (one CKD plant in Prague produces locomotives). c. Zbrojovka Brno (one plant in Brno produces rolling stock). d. Tatra Works (the main plant at Koprivnice and the branches at Prague, Studenka, Ceska Lipa, and Kolin all produce loco- motives or rolling stock). There are several other independent installations in Czechoslovakia engaged in the production of locomotives and rol- ling stock, but they also are state-controlled (see ~, below). 2. Production Estimates. There are several estimates of over-all yearly produc- tion of locomotives and rolling stock in Czechoslovakia. From a consideration of these estimates 50X1 the pro- 50X1 duction of locomotives and rolling stock in Czechoslovakia has been developed in Table 27.E 3. Inventory Estimates. Estimates of the inventory of locomotives and rolli stock in Czechoslovakia, 50X1 are given in Table 2 ,~- showing actual inventory in 1937, 1947, and 1948 and planned inventory for 1949 and 1853? In view of Czechoslovak production capacity, it is felt that, considering possible changes in plans, the figures as given are correct within an estimated range of error of plus. or~minus 10 percent. 212 * Table 27 follows on p. 132. ~~- Table 28 follows on p. 133? Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Estimated Production of Locomotives and Rolling Stock in Czechoslovakia 213 1945-53 Item 1845 1946 1947 1848 1949 1950 1951 1952 1953 Locomotives 50 150 234 290 32 0 360 400 440 480 Passenger Cars N.A. N.A. N.A. 306 N.A. N.A. N.A. N.A. N.A. Freight Cars N.A. 10,600 15,345 11,000 13,00 0 15,000 15,000 to 18,000 ~ N.A. N.A. a. 29,000 freight cars for 1951. This figure is believed to have been obtained on the assumption that a new plant at Brezna went into operation in 1951. This plant was to be a subsidiary of the Tatra Works. Its construction was begun during the 'I`wo Year Plan and was to have been completed sometime in 1950. Somewhat belatedly it was realized that the capacity of those plants already in operation was about 18,000 cars per year and. that an additional plant was not needed. Ac- cordingly, the plans were changed, and this plant is at present believed to be engaged in the produc- tion of bridge sections. Production of freight cars in 1951, therefore, probably lies between the 1950 figure of 15,000 and the estimated capacity of 18,000 for the entire industry. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Table 28 Estimated Inventory of Locomotives and Rolling Stock in Czechoslovakia 1937, 1947-53 Units Item 1937 1947 1948 1849 1950 , 1951 J 1952 ~ 1953 Steam Locomotives 3,962 4,114 4,249 4,190 4,180 - 4,171 4,161 4,152 Freight Cars ~ 95,112 82,961 85,763 83,073 83,931 8+,789 85,647 86,505 Passenger Cars ~ 10,526 7,826 8,125 8,279 8,479 8,679 8,879 9,080' Motor Rail Cars 523 579 532 546 602 659 ~ 715 772 Postal Cars 521 524 544 579 563 547 531 514 a. Straight-line interpolation between 1~9 and 1953 estimates. b. Including approximately 1.3 percent service cars. c. Including approximately 13.0 percent baggage cars. - 133 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 ~+. Plant Information. Proper Name: Skoda Machine Building Factory (V.I. Lenin Plant). Production: From the end of World War II to about the middle of 1948, ap- proximately 250. locomotives were built by this plant. Of these, 10 to 12 were electric loco-. motives for Czechoslovakia, ~+ were freight steam locomotives for Czechoslovakia, 6 were narrow- gage mining locomotives for Czechoslovakia, and the remainder were steam locomotives (similar to the Soviet L class) for the USSR (see Fig. 31~-). Production from mid-1948 to the present seems to be of a similar nature. The prob- _~able capacity of the plant is about 120 to 180 units per year. In addition~to exports to the USSR, a few units have gone to Bulgaria, Communist China, and Rumania. In 1951, 2 armored trains were con- structed for the USSR, with composi- tion as follows: 4 flatcars with 150-mm naval guns mounted in turrets, 3 armored boxcars, 2 flatcars with antiaircraft guns, 4 ammunition box- cars, and l armored locomotive. * Following p. 134. -134_ Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 FIGURE $1. INTERIOR OF 'IHE LOCOMOTIVE ASSEMBLY SHOP AT THE SKODA MACHINE BUILDING FACTORY AT PLZEN, SHOWING POSTWAR SERIAL PRODUCTION OF LOCOMOTIVES SIMILAR TO THE SOVIET I, CLASS. Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 a. Plzen (Continued). Production: (The locomotive was reportedly built by the plant in Krakow, Poland.) Three more armored trains were reportedly scheduled for production in 1951. b . Prague . Proper Name: CKD Sokolovo Locomotive and Motor Vehicle Plant. Former Names: CKD Liben Locomotive and Motor Vehicle Plant. Praha Liben Motor Vehicle Plant. Production: Production in 1946, 1847, and 1948 was about 120 to 150 steam loco- motives. Of these, 50 to 80 per- cent were for the USSR. In 1949, production was at least 150 units, of which some 25 to 50 were scheduled for delivery to Turkey. The remainder were sent to the USSR, with the exception of seven, which were reported as produced for the Czechoslovak railroads. In 1950 and 1951, no total produc- tion figures are available, but exports to the USSR of 96 units in 1950 and g0 units in 1951 indicate that production probably was continued at a rate of 150 to 200 units per year. Produc- tion in 1952 has not been reported, .except for mention of a coal-dust locomotive which was built at this plant . Proper Name: Gottwald Machine Building Factory. Former Names: 1st Brno Machine Building Factory. Konigsfelder Machine Building Factory. Kralovo Pole Machine Building Factory. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 c. Brno (Continued). Production: Production estimates at,this plant, available only for the years 1950 and 1951, are given in Table 29. Table 29 Estimated Rolling Stock Production at the Gottwald Machine Building Factory, Brno 1950-51 1950 1951 Type of Car (Actual) (Plan) Remarks .Electric .Cars 47 15 For Czechoslovak use. Specifications unknown. 30 For local Brno use. Flatcars a~ 80 244 Ordered by the Ministry of National Defense. 1950 Plan was for 324 cars. 1951 Plan was for the balance of cars not built in 1950. Tenders, Narrow- 300 ~ 124 For the.USSR. 1950 Plan was for 424 Gage b tenders. 1951 Plan was for the balance of tenders. not built in 1950. Tenders, Broad- 140 For the USSR. 1950 Plan was for 360 Gage c~ tenders. 1951 Plan was for balance of tenders not built in 1950. Tank Cars d~ 80 For Czechoslovak State Railroads. Railroad Cranes 3 For Czechoslovak State Railroads. Factory Railroad Cranes e~ 1 For Vitkovice Iron Works. Diesel Cars 38 For Czechoslovak State Railroads. Mobile Post- Off ice Cars 27 For Czechoslovak State Railroads. Fire Cars for Coking Plants f~ 3 Large Tenders g~ 65 For Czechoslovak State Railroads t4 to Communist China). 50 For Czechoslovak State Railroads. ~ Footnotes for Table 29 follow on p. 137. - 136 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Table 29 Estimated Rolling Stock Production at the Gottwald Machine Building Factory, Brno 1950-51 (Continued) - - - - - - - - a. -axle 50-ton flatcars with Knorr brakes and SKF roller-bearing axles. b. Factory railroad tenders with SKF roller-bearing axles. c. ~+-axle tenders with Knorr brakes and SKF roller-bearing axles. d. 2-axle tank cars with 200-hectoliter capacity. e. ~+-axle flatcar with crane installed. f. 4-axle coke-quenching cars with SKE' roller-bearing axles. g. ~+-axle tender with Knorr brakes and SKF roller-bearing axles, with broad- or standard-gage axles to suit. d. Koprivnice. . Proper Name; Tatra Narodni Podnik (NP~. Former Name: Ringhoffer Railroad Car and Motor Vehicle Plant. Pro uction is mainly freight production of passenger cars for the USSR and diesel motor rail cars, probably for Czechoslovak use. Capa- city of the plant seems to be about 15 to 20 freight cars per day. If this is correct, this plant is one of the larger producers of this type of equipment in the Satellite area. An examination of the area covered by this plant indicates that such capacity estimates are in-line with the s ize of the plant . - 137 - 50X1 50X1 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 e. Prague. Proper Name: Tatra Railroad Car Plant, Smichov. Former Name: Ringhoffer Railroad Car and Motor Vehicle Plant. Capacity seems in 19 9 and 1950 to have been ap- proximately 5 freight cars per day. Production of the plant, in addi- , tion to freight cars, is reported as passenger cars, electric trains, and streetcars. Seventy percent of the production is reported as destined for the USSR. A small part of this 70 percent probably goes to Poland and Bulgaria. An order placed in December 1951 re- putedly calls for the production of 200 boxcars for the USSR in 1952. These cars are 4-axle units with double doors on either side. They are reported as being convertible to hospital cars on an 8-hour notice. Proper Name: Tatra Railroad Car Plant. Former Name: Ringhoffer Railroad Car and Motor Vehicle Plant. Production: Little information. Postwar capacity is about 6 to 12 freight cars per day. There is some possibility that Tatra in Koprivnice and Prague send chassis of freight cars to Studenka for finishing. Gondola cars and box- cars are reported as being produced at this plant. - 138 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 g. Ceska Lipa. Proper Name: Tatra Railroad Car Plant. Former Name: Czecho Huta Railroad Car Plant. Production: .This plant has a postwar capacity of 150 to 300 freight cars per year. Its importance is small as compared with the preceding three plants. h. Kolin. Proper Name; Tatra Railroad Car Plant. Former Name: Ringhoffer Railroad Car Plant. Production:. Reported capacity from end of World War II to June 1951 was one freight car-per day. Some production of passenger cars-for Turkey in 1948 and 1950 was indicated. 50X1 ~ux~i facilities of the plant were to be converted to tracked military vehicles in mid-1951. i. Klatovy. Descriptive Name: Railroad Locomotive and Aircraft Engine Plant. Descriptive Name: Railroad Car Plant. Production: From 1945 to 1949, reportedly pro- duced railroad cars. From 1949 to 1952, engaged in production of armaments, but no conf irmation is available. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Descriptive Name: Railroad Car Plant. Descriptive Name: CKD Railroad Car Plant. m. Turciansky-Svaty-Martin. Descriptive Name: Railroad Locomotive Plant. n. Sumperk. Descriptive Name: Railroad Car Plant. Production: Anew plant, reportedly completed about the end of 1951. Production is to be of diesel motor rail cars. No estimate of the rate of produc- tion is possible, nor is conf irma- tion that production has in fact begun available. 5. Production Capacity. Czechoslovakia has a capacity for the production of some 18,000 freight cars per year. 216 Production estimates from 19+6 through 1950 indicate that production has not been at capacity. One Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 explanation for this situation is that, although the various plants have machine tools and capital equipment of other types, raw materials and labor may not be available to bring production up to capacity. Another explanation is that, since Czechoslovakia is a large producer of armaments which would have top priority in Soviet planning, it is possible that the production of freight cars has had to take second place and that capacity production will not take place until raw materials and~or labor are available over and above what is required by the armaments industry. The Russians have been and are obtaining from the European Satellites so much of their freight car production that.the European Satellites are hard-pressed to meet their own needs. It is interesting to note that this situation apparently does not apply to Czechoslovakia. 1. Administrative Organization. Since the end of World War II, Rumania has been re- organizing its economic administration along Soviet lines, resulting in a constantly increasing government domination of industry. Rumania had 1-year plans iri 19+9 and 1950 and is presently in its First Five Year Plan (1951-55)? The industrial establishments engaged in pro- ducing locomotives and rolling stock are all nationalized and operate under the directives of the present Plan. Two apparently independent estimates of yearly production however are available. 1 The are close to one another y have been ac- ? cepted as the best estimates available and are given in Table 30. 50X1 50X1 ~ux~i 50X1 50X1 ~ Table 30 follows on p. 1~+2. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Table 30 Estimated Production of Locomotives and Rolling Stock in Rumania 1948-52, 1955 Plan Units 1955 1948 1949 1950 1951 1852 Plan Steam Locomotives 110 117 122 124 130 N.A. Freight Cars N.A. N.A. 3,000 3,600 N.A. 5,200 Diesel Cars 4 N.A. 12 24 N.A. N.A. Passenger cars are produced at the Flamura Rosie Rail- road Car Plant in Arad, but no estimates of total production are possible. It is believed, however, that passenger car production in Rumania is small. 3. Inventory Estimates. The best possible estimate of the Rumanian inventory of locomotives and rollin stock coverin the years 1938 and 1946 through 1952, 218/ is given in Table 31.* There are, however, several gaps and inconsistencies in the informa- tion as presented here. 4. Plant Information. there are four main producers of locomotives and or rolling stock in Rumania plus several smaller installations which may produce some iteihs of rolling stock. The available informa- tion is summarized below. 219/ ~ Table 31 follows on p. 143. - 142 - 50X1 50X1 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Estimated Inventory of Locomotives and Rolling'Stock in Rumania 1938, 1946-52, 1955~P1an 1955 1938 1946 1847 1948 1949 1950 1951 1952 Plan Steam Locomotives Serviceable 1,986 .1,947 2,047 1,987 N.A. - 2,465 N.A. N.A. N.A. Unserviceable 1,434 1,048 940 1,086 N.A. 435 N.A. N.A. N.A. Total 3,420 2,995 2,987 3,073 N.A. 2,900 N.A. N.A. N.A. Freight Cars Serviceable 55,595 59,924 31,651 35,235 36,125 41,400 N.A. N.A. N.A. Unserviceable 7,492 16,901 10,214 8,265 6,375 4,600 N.A. N.A. N.A. Total 63,087 76,825 J 41,865 43,500 42,500 46,000 47,000 ~ 48,000 51,000 Passenger Cars Serviceable 2,997 N.A. 2,187 N.A. N.A. N.A. N.A. N.A. Unserviceable, 478 N.A. 746 N.A. N.A. N.A. N.A, N.A. Total 3,475 3,071 2,933 3,652 N.A. 3,500 N.A. N.A. N.A. a. Includes foreign-owned freight cars. b. 10,000 freight cars to be added by 1955, pf which 50 percent are assumed to be for retirement replacements and the remainder at a rate of 1,000 cars per year. 220 - 143 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Proper Name: Sovrommetal Steel Plant. Former Names: UDR Steel Plant. Metaltras Metallurgical Plant. Production: 1948: 76 steam locomotives, 56'of which went to the USSR. 1948: 98 steam locomotives, 79 of which went to the USSR. 1950-52: Production has probably increased during these years to approximately 125 locomotives in 1952. Prob- ably 80 percent or more went to the USSR. b. Bucharest. Proper Name: 23d August Steel Plant. Former Names: Malaxa Steel Plant. Republica Steel Plant. Production: 1948: 10 steam locomotives, type 150.000 (see Fig. 32~), for the Rumanian State Railways. 24 steam locomotives for the USSR. 559 50-ton 4-axle boxcars for the USSR. 4 diesel motor rail cars for the Rumanian State Railways. 1949: 10 locomotives, type 150.000, for the Rumanian State Rail- ways. 9 locomotives for the USSR. 48 narrow-gage steam loco- motives, destination unknown. 300 2-axle freight cars for the Rumanian State Railways. * Following p. 144. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 b. Bucharest (Continued). Production: 19+9: 100 ~+-axle freight cars for the USSR. Unl~.own number of diesel motor rail cars. 1950: 12 steam locomotives, type 150.000, for the Rumanian State Railways. 12 steam locomotives for the USSR. 800 5o-ton 4-axle freight cars for the USSR. 12 diesel motor rail cars for the Rumanian State Railways. 1951: 3 steam locomotives, type 150.000, for the Rumanian State Railways. 1 locomotive for the USSR. 1,200 4-axle freight cars for the USSR.. This is a Plan figure. The actual production was probably about 720 cars. 24 diesel motor rail cars for the Rumanian. State Railways. 1952: Continued production of freight cars for the USSR. Planned production was 100 per month, but actual production was probably nearer 60 per month, as in 1951. This 1951-52 production is part of a Soviet order for 2,000 such cars. When this order is complete (about 195+), production is to. convert to 2-axle units for the Rumanian State Railways. There is no information available on the production of diesel motor rail cars in 1952. -~ Steam locomotive production ceased at this plant in early 1951. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 and freight cars for the USSR. Production was pre- dominantly tank cars. In February 1951 an order for 2,000 additional tank cars was reportedly received from the Russians. 1952: Tank cars at the rate of 3 per day for the USSR plus some 50-ton boxcars for the USSR. Proper Name: Flamura Rosie Railroad Car Plant. Former Name: Astra Vagone Railroad Car Plant. Production: 1945-49: 2,500 ~+-.axle boxcars for the USSR. 1950: Capacity stated to be 70 freight cars or 26 passenger cars per month. Actual 1950 production rate estimated at 45 to'S0 freight cars or 16 to 18 passenger cars per month (see Figs. 33 .and 34~). 1952: Reported as producing tank cars for the USSR. ~ Following p. 146. - 146 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 FIGURE $$. POSTWAR FIRST-CLASS PASSENGER CAR, PROBABLY PRODUCED BY THE FLAMURA ROSIE RAILROAD CAR PLANT AT ARAD. Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 FIGURE 34. POSTWAR TIiIRD-CLASS PASSENGER CAR, PROBABLY PRODUCED BY THE FLAMIIRA ROSIE RAILROAD CAR PLANT AT ARAD. Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 e. Craiova. Descriptive Name: Railroad-Car Plant. Production: There is -no evidence of railroad car production at this plant. This plant may have been confused,. however, with the Electroputere Electrical Equipment Plant located in -the same city, which conceivably could f. Constanta. Proper .Name: Pallas Railroad Car Plant. Former Name: Astra Railroad Car Plant. g. Braila. Proper Name: Progressul Railroad Equipment Corporation. Former Names; Regia Metallurgical Plant. Franco Romana Railroad Equipment Plant. 50X1 50X1 tinx~ 50X1 5? Additional Information of Intelligence Value. Although a large percentage of the production of steam locomotives and rolling stock in Rumania is~destined for the USSR, ~ Rumania seems to be allowed by the Russians to retain enough to keep its operating inventory at a level commensurate with the demands Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 50X1-HUM of industry as a whole. The only indication of the importation of foreign equipment is the fact that several 1949-model Swiss diesel locomotives have been observed in operation in Rumania. 221/ The number of such units~is.not known, but it is probably small. No indications of any present or future plans for the importation of foreign equipment have been found. F. Bulgaria. 1. Administrative Organization. The economic policy of Bulgaria, like that of the USSR and the other European Satellites, receives its formal expression in periodic economic plans. The current Plan covers the years 1949-53. 222/ 2. Production estimates. The production of locomotives and rolling stock in Bulgaria~is negligible. The first. locomotive (steam) ever pro- duced in Bulgaria was completed about September 1948, the second was completed in September 1949, and the third was reportedly to be completed almost 2 years later, in August 195.1. ~No evidence of locomotive production after that date is available. The Plan calls for the production of 1,300 freight cars in 1953, but since production is limited by the capacity of 2 small shops and, more important, by the importation of com- ponent parts, it is not believed that actual production will even approach the Plan figure. The first sleeping car to be produced in Bulgaria was completed in May 1951. The level of passenger car production, however, is probably even lower than that of freight cars. 3. .Inventory Estimates. In 1948 the Bulgarian inventory consisted of 568 steam locomotives, 11,000 freight cars, and 475 passenger cars. By the end of 1953 the Plan calls for increases in the inventory to 655 steam locomotives, 14,250 freight cars, and 595 passenger cars. 223/ - 148 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 4. Plant Information. only two plants in Bulgaria engaged in the production of locomotives and rolling stock. 224 Information on these plarits'is summarized below. there are 50X1 Proper Name: Georgi Dimitrov Locomotive and Railroad Car Plant. Production: 1948: First steam locomotive in September. 1949: Second steam locomotive in September. 1951: Third steam locomotive was to have been completed in August. Freight car production at this plant has been reported to be at the rate of about one car per year. b. Dryanovo. Proper Name: Andrei Zhdanov Railroad Car Plant. Production: the first sleeping car produced in Bulgaria was manufactured at this plant and was finished in May 1951. There is probably some produc- tion of freight, cars at this plant, largely from imported components, but no estimate can be made of the rate of production. -, 14g - 50X1 50X1 I I~ Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 5. Imports. As can be noted from the information presented above, Bulgaria is almost wholly dependent on imports for additions to its inventory of locomotives and rolling stock. These are procured almost entirely from the European Satellites. 225 Total imports during the present Plan are planned to amount to about 87 loco- motives, 3,250 freight cars, and 120 passenger cars. 226 the receipt of six locomotives from Austria in May 1952 227 and a trade agreement calling for imports of loco- motives and rolling stock from Poland?in 1952 and 1953 228 and Ganz diesel train sets from Hungary in 1952 and later. 229 Albania produces no locomotives or rolling stock and is entirely dependent on imports from either the European Satellites or other countries for its railroad equipment. The Albanian rail- road equipment inventory in 1950 consisted of 65 freight cars, 63 passenger cars, and 7 locomotives. Only four of the locomotives were in serviceable condition, and none of the equipment was in good condition. 230 50X1 50X1 In 19~-1~9 and 1950,1 Poland exported 50X1 to Albania 3 locomotives, 10 passenger cars, and 3 freight cars (of which 11 were tank cars). 231 III. Capabilities, Vulnerabilities, and Intentions. A. Capabilities. The capabilities of the European Satellites are to a large extent determined by the direction of the USSR. Since the Communist political organization is such that Moscow directs the activities of all of its Satellites, it is the desire of the Russians which ulti- mately affects the production of the Satellites. The European Satellites are capable of producing almost any type of railroad equipment desired by either the Russians or them- selves for internal use or for export to Western countries. Hospital cars, heavy-duty flatcars, refrigerator cars, and electric locomotives as produced by East Germany; diesel train sets as produced by Hungary; and the generally high quality of all of the equipment produced by the Satellites attest to this fact. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 A summation of the production capacities of: each .of the European Satellites shows that 1952 planned production was in the neighborhood of 1,200 locomotives (including some 65 electric units), some 53,000 freight cars, and about 2,000 passenger cars.' Shortages of materials and Soviet demands for some specialized units may well reduce. this total. Provided with suf- ficient raw material, either by the Russians or through trade with the West, the present production capacity of the European Satel- lites is probably close to the aforementioned totals. A large part of the production capacity of these countries is devoted to the manufacture of units for export to the USSR. Until more specific information on each plant can be obtained and analyzed, the best estimate of the percentage of production which goes directly to the USSR either as reparations or as conmiercial ex- ports is something over 50 percent. In addition, a small per- centage of Satellite production is exported from the Soviet Bloc to such countries as Egypt, Argentina, and Turkey. This is probably done not because the Bloc can particularly afford such exports but because it needs hard currency for purchases from the West. The USSR appears to be allowing. the European Satellites. to retain only enough of their production to maintain their operating inventories at bare minimum levels. Thus the present status of.the Satellite production capabilities in the field-of locomotives and rolling stock is one of supplying the USSR with its demands, exporting a few pieces for hard currency, and main- taining internal inventories at the lowest possible level of adequacy. The total inventory of the European Satellites at the end of 1952 is estimated at some 20,000 locomotives, 475,000 freight cars, and 33,000 passenger cars, including unserviceable -~ This total is a combination of. 4-axle and 2-axle units. It is not yet possible to break down the product mix into specific items of production, so that the figure of 53,000 must be taken with the reservation that it may vary considerably when sufficient information becomes available to allow a detailed breakdown of types. ~ Separate figures on passenger car production are not available for Czechoslovakia and Rumania. It is probable that the freight car production figures include some passenger car production, since freight car estimates as stated above include passenger car produc- tion in these two countries. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 units. In the absence of reliable information it is assumed that about 20 percent of the total inventory is unfit for service at any given time. Should the Russians so direct, conversion of arty or all of the locomotive and rolling stock plants of the European Satellites to the production of armaments is entirely feasible, and such con- version would of course directly affect the capabilities of these countries to produce railroad equipment.* The discussion of Soviet vulnerabilities found in Part I, X, 2, above, applies also to the European Satellites with the following supplemental, definitive additions and differences. Since the inventories of the European Satellites are in generally poorer shape than the inventory of the USSR, they are consequently more vulnerable to any form of attack. By the same token, such attack would reduce the economic and military poten- tial of the European Satellites by disrupting their transporta- tion services. Should a general war develop in which the Russians were depending on significant contributions from the European Satellites, then a general attack on the Satellite operating in- ventories of locomotives and rolling stock would have a direct effect in reducing their contributions to the Soviet military efforts. In addition, there appears to be a rather general shortage of steel and other raw materials in the European Satellites. Should this shortage be intensif ied by any means, production of railroad equipment would suffer. Some attempts to procure steel from the West have been noted, and the refusal of steel and similar materials to the Satellites would make them more vulnerable to at least a reduction in production capacity. The primary determinant of the intentions of the European Satellites is the desire of the USSR. The production of hospital . cars and special heavy-duty flatcars by East Germany is an example. ~ For further reference to such conversion, see C, below. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 , I  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Such production was not designed to carry out the autonomous policies of the East German authorities but was made necessary by the demands of the USSR. Should the USSR so desire, the production capacity of the European Satellites could be altered in either of two ways. First, production of military end items could be under- taken at converted Satellite plants to increase the military potential of either the USSR or the Soviet Bloc as a whole. Such conversion would lower the capacity of these countries for the production. of railroad equipment in proportion to the degree of conversion. More likely is the intensification of production through increased production of locomotives and rolling stock for the USSR, thus releasing .production facilities in the USSR for con- version to production of military end items. It is believed that such action as this is more probable; since, with the more stringent security in the USSR, such conversion would be less readily observed in the USSR than in the Satellites. Thus it is possible that the intentions and actions of the European Satellites with regard to the production of loco- motives and rolling stock may well be a barometer of Soviet military intentions. At the present time the Satellite program seems to be one of assisting, by Soviet request, in building up the Soviet rail transportation ser5rice and in maintaining their own inventories at the best level permitted under Soviet control. There are no present indications of an intent to change this .program. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 APPENDIX A TECHNOLOGICAL SPECIFICATIONS OF SOVIET LOCOMOTIVES AND ROLLING STOCK 1. Soviet Locomotives and Rolling Stock. OX1-HUM 50X1 50X1 tinx~ 50X1_ 5UX1 The following details of the so-called steam-diesel locomotive, known as the "Teploparavos," are included here as evidence that the Russians are capable of original design and construction in the field of locomotive technology. The practicality of the unit as designed and built by the Voroshilovgrad Locomotive Works is subject to question, particularly since no evidence of mass production of this type of unit has been found, but the fact that it was actuary constructed and tested shows no little skill on the part of the USSR. The following description of the design and operation of the unit "One of the advantages of the piston steam-engine is its ability to develop a high torque, starting from zero velocity -- that is, when the locomotive commences to~get under way and accelerate. On the other hand, this engine also possesses a serious fault, its low thermal efficiency, which amounts to about 13 to l~+ percent. For its part, the internal-combustion engine has a substantial advantage in economy of operation, but because of the specific features of its' construction, it cannot take on a load before reaching a certain number ~ Table 32 follows on p. 159; Table 35, on p. 195; Table 36, on p. 197; Table 37, on p. 199? ~ Table 33 follows on p. 173; Table 34, on p. 191. -155- Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 of revolutions. In other words, it is unable by itself to start from rest and accelerate. Thence the logical conclusion is to unite or combine in a single engine the valuable properties of both, so that the locomotive can start from rest at any moment and develop the speed of an ordinary locomotive while operating like a Diesel-loco- motive at medium and high speeds. Such a locomotive is the steam- diesel locomotive. "The motor-steam engine of the locomotive consists of 2 cylinders, 1 on each side, located~in the center of the frame. The cylinders are designed in the form of a separate block straddling the frame. The cylinder diameter is 430 millimeters, and the piston stroke 770 millimeters. TWO opposing pistons operate in each cylinder, thus forming three spaces: the middle one, between the pistons, which is termed the Diesel part, and two outer spaces, between the pistons and the front and back covers, respectively, which are termed the steam part. "When the locomotive starts to move, steam appears.in all three spaces of each cylinder. When a speed of 12 to 15 kilometers per hour has been reached, the admission of steam into the diesel spaces is cut off, and liquid fuel is infected into them by a pump with an Arshaulov gas-plunger. The middle spaces then operate as a two-cycle internal- combustion engine as blast-air commences to be delivered to them by a special turbine air-blower. "The piston bosses of the diesel portion of the cylinders are cooled by water circulating around the walls in a closed cycle, and the heat of this water is used on the tender to heat the boiler feedwater. "The boiler is analogous to that in the Su locomotive and differs from the latter only in its higher pressure (20 atmospheres) and use of a radial firebox instead of one with a flat crown. "The torque is transmitted to the wheel pairs by two gearshafts located respectively in front of the pairs and behind them. The existence of opposing pistons made it necessary to place the pins of the connecting rod and the coupling rod on the front gear shaft at an angle of-180 degrees, thereby assuring the proper connection between the front and back gear shafts. The right and left cranks on each gear shaft are mutually displaced by 90 degrees. The heads of the coupling and piston connecting rods on the back gear shaft are placed on the same axis and are therefore counterbalanced. - 156 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 "The wheel-pairs, coupling rods, and frame assembly are the same as those on the JS-class locomotives. "All of this taken as a whole made it possible to bring the rated power of the locomotive, with a wheel formula of 1-4-1, up to 3,000 horsepower, and its speed up to 130 kilometers per hour. "The motor-steam locomotive received its preliminary tests in 140 on the test track of the All-Union Rail Transport Research Institute and then had its operating tests in 19+1-?+2 on various lines and main routes of the Soviet railways. zt was subsequently put into trial operation. "According to the data of the operating tests, its eff iciency was 11.x+ percent, and the length of a run without taking on water was 350 kilometers. It was also established that with a wheel diameter of 1,850 millimeters the internal-combustion engine picked up the load at a speed as low as 12 kilometers per hour, while acceleration to a speed at which that engine could be placed in service took place in only 100 to 250 meters of travel. "Iri 1g~+3, substantial improvements were made in the design of the motor-steam locomotive, allowing operation on a so-called mixed cycle. This consists essentially in the introduction of a predetermined amount of steam, by means of special equipment, into the middle space of the cylinder while it is running on the diesel cycle. In this way the mean indicated pressure could be raised to g.3 kilograms per square centimeter, or, in other words, the power of the locomotive was con- siderably increased. "The consumption of fuel per unit (10,000.ton-kilometers), accord- ing to the average monthly data, is 50 to 60 percent of that consumed by a JS-class locomotive of equivalent power. The locomotive's train speed reached 130 kilometers per hour. Working the diesel cycle', the locomotive developed its peak power of 3,000 horsepower at 78 to 80 kilometers per hour. "But the Mayzel steam-diesel locomotive, like any other new machine, is not free of certain more or less substantial faults of design, which do not permit putting it into regular service. Our best designers are energetically working with the designer of the locomotive to eliminate these defects. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 "At the present time (19+9) the Voroshilovgrad plant is completing the construction of an analogous locomotive of type 1-5-1 of 3,200 horsepower intended for freight train service. All the faults of design revealed by the trial operation of the passenger motor-steam locomotive have been taken into account. "This motor-steam locomotive was designed to work on a mixed steam-gas cycle, which afforded still more opportunity for simplifying the engine and improving its tractive-thermal characteristics. In contrast to the passenger locomotive, the freight steam-diesel loco- motive has a ~+-cylinder engine with two opposing pistons in each cylinder. The pistons are connected to the gear shaft and drivers by means of connecting rods and driving connecting rods. The cou- pling rods that join the wheels and the gear shaft act at the same time as,piston-synchronizers.. "The engine operates as follows. As the pistons separate, the space between them is filled by blast air, which is compressed as the pistons again approach each other. As the pistons arrive at dead center, fuel is injected into the chamber by the fuel pump. This fuel ignites, producing pressure in the cylinder, and the pistons again begin to separate. At the moment when the pressure in the cylinder becomes equal to that in the boiler, steam is automatically admitted into the chamber by a valve gear, following the line of gas expansion, with the cut-off, set by the reverse, regulating the amount of such steam. The steam mixes with the gases, is superheated to 600 to 700 degrees centigrade and by acting on the pistons jointly with the gases brings them to the extreme dead centers, after which the exhaust occurs. "With these peculiarities of design a motor-steam locomotive is able to develop more power than a steam locomotive with equivalent boiler, since the work of the steam is supplemented by that of the gas, while the reduction in the dimensions of the boiler, in turn, makes it possible to do without a mechanical stoker and extended combustion chamber, thus reducing the amount of metal that must be used in the locomotive per unit of power, etc. All these factors, taken as a whole, should reduce the operating costs of maintenance and care for the locomotive, This locomotive wil]_ shortly leave the plant for its trial operation." - 158 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 -159- 47.0 50.2 77.6 80.3 44.8 55.6 82.0 45.4 48.0 51.9 69.5 45.0 45.5 47.9 45.0 44.0 50.0 52.5 52.5 52.4 52.5 47.2 53.9 87.0 94.0 87.6 103.0 50.0 62.3 64.2 64.3 64.7 59.5 60.9 80.5 81.2 83.0 82.0 83.0 64.2 88.7 64.0? 91.0 74.4 75.0 68.0 71.5 57.3 85.0 73.0 51.0 4~ chi N H ~N ~y.J ~j ~~,~ \ M fi N ~?~ \ r? @ ~ N E H PN" M m 2.80 2 p Sup 1,830 2.80 2 p Sup 1,750 6.00 2 p Sup 1,320 6.00 2 p Sup 1,320 2.34 2 p Sup 1,700 3.03 2 p Sup ,1,500 7.04 2 p Sup 1,850 2.76 2 p sup 1,700 3.14 2 p. Sup 1,900 4.65 4 p Sup 1,840 6.00 2 p sup 1,720 2.22 2 k Sat 1,900 2.22 2 k Sat 1,700 2.60 2 k Sat 1,900 2.60 2 k Sat 1,700 2.22 2 p Sup 1,700 1.85 2 p sat 1,150 1.85 2 k Sat 1,200 1.85 2 k Sat 1,200 1.85 2 p Sup 1,200 1.85 2 k Sup 1,200 3.80 2 p Sup 1,830 4.73 2 p sup 1,850 6.00 2 p sup 1,320 6.00 2 p sup 1,320 5.10 4 k Sup 1,450 7.04 2 p Sup 1,500 1.91 2 k Sat 1,220 2.80 2 k Sat 1,300 2.80 2 k Sat 1,300 2.80 2 p Sup 1,300 2.80 2 k Sup 1,300 2.55 2 k Sat 1,200 2.55 2 k Sup 1,200 4.46 2 p Sup 1,320 4.46 2 p Sup 1,320 4.46 2 p Sup 1,320 4.46 2 p sup 1,320 5.09 2 P Sup 1,320 3.32 2 P Sup 1,300 6.00 2 p Sup 1,320 3.80 2 p Sup 1,448 6.00 2 p Sup 1,500 2.63 2 p Sup 1,400 3.90 2 p Sup 1,400 3.40 2 F Sup 1,400 2.62 2 p sup 1,400 3.87 2 p Sup 1,309 4.50 2 p Sup 1,450 4.50 2 p Sup 1,850 4.00 2 p Sup 1,750 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Technological Specifications of Soviet Steam Locomotives (Continued) F"' !' G h ~ ~ 7 N < H ~ F fD a y K N O F~`~'i' ~^ `V ? H O p ~ W pt~ v 6 fD V, p' .T fD O f ~+ !Y N Cr f ~ W{b p N ~~ X t~ K ~ ~ ~ H N K s S 13.0 15.2 ' 164 41.0 2,744 1,016 1,543 4,420 cp Pn 12.0 15.6 169 47.5 2,714 1,020 1,600 4,375 Yef, Yek, Yes E~,Ex,EC 12.7 . 18.0 240 61.3 2,750 2,180 1,769 5,143 Yet EA 12.7 21.1 242 66.9 2,750 2,180 1,769 5,132 2 3 12.0 12.6 147 31.0 2,284 1,030 1,470 4,550 I (or S) N 12.0 12.8 163 40.4 2,196 1,444 1,588 4,660 IS (or ,75) YIC 15.0 31.2 295 148.4 3,200 2,200 1,960 5,970 x H 12.0 13.6 164 40.0 2,400 1,152 1,572 4,660 xu H Y 13.0 15.4 181 47.4 2,689 1,184 1,588 4,660 Lp ~ , J1II 12.0 17.6 270 85.5 '2,500 1,860 1,816 5,350 Mr Mp 14.5 18.5 260 87.7 2,994 1,9~ 1,833 5,150 Nv HB 12.0 12.6 152 2,240 990 1,425 4,200 Nv HB 12,0 12.6 152 2,240 990 1,425 4,200 Nu Hy 13.0 14.2 157 2,616 968 1,425 4,500 Nu Irv 13.0 14.2 157 2,616 968, 1,425 4,500 Np Hn 12.0 13.9 ~ 127 38.9 2,514 1,024 -1,430 4,500 0o Oo 12.0 10.7 153 1,790 1,026 1,455 4,660 oa OA 11.5 10.7 153 1,790 1,026 1,455 4,660 w OB 12.0 10.7 153 1,790 1,026 1,455 4,660 op On 14.0 10.7 127 41.1 1,790 1,026 1,455 !+,660 Och OII 12.0 10.7 132 29.2 1,790 1,026 1,455 4,660 S C 13.0 i5.4 207 51.5 2,362 1,602 1,584 5,150 Su Cy 13.0 18.5 197 72.0 3,038 1,558 1,584 5,150 So CO 14.0 24.6 230 93.6 3,050 1,960 1,970 4,660 Sox COx 14.0 24.6 230 93.6 3,050 1,960 1,970 4,660 F ~ 14.0 19.9 262 60.8 2,900 1,760 1,837 S,ooo FD ~A 15.0 31.2 295 148.4 3,2ao 2,200 1,960 5,970 chn Lili 11.0 10.7 166 1,826 1,024 1,470 4,965 Sh III 14.0 15:6 206 2,714 1,020 1,600 4,375 Stich Iq 14.0 15.2 206 2,750 1,016 1,617 4,375 Shchp Ilan 12.0 15.2 169 40.8 2,744 1,016 1,602, 4,373 Shchch ~I 14.0 15.2 177 59.0 2,750 1,016 1,617 4,375 Y ~ 12.0 u.8 i85 1,850 1,438 1,572 4,200 Ych H~ 12.0 11.7 147 43.0 1,850 1,438 1,572 4,200 E 3 12.0 18.1 207 49.7 2,748 1,627 1,703 4,660 E, ~, Esh 3,3r,3m 12.0 18.1 207 49.7 2,748 1,627 1,703 4,660 Eu 3y 12.0 18.1 198 64.6 2,748 1,627 1,703 4,660 gn ~ 14.0 18.1 198 64.6 2,748 1,627 1,703 4,660 Er 3p 14.0 22.8 203 66.4 2,748 1,605 1,703 4,660 Vs J vc 12.5 13.2 179 43.1 3,171 1.,602 1,594 4,450 Ea, FSn Ea,Enc 12.7 18.5 229 75.0 2,077 2,191 1,753 5,105 sha IDa. 15.8 12.6 165 44.6 2,748 1,784 1,746 4,088 L 1I 14.0 22.5 222 ~ 113.5 2,137 1,830 1,906 5,150 50 50 12.0 144 50.2 52 52 16.0 177 63.6 56 56 14.0 167 53.1 57 57 12.0 146 53.0 140 140 13.0 138 45.0 Tu-23 Ty-23 14.0 224 73.5 Pt HT 12.0 '237 ~ 90.2 0x_22 OH-22 12.0 ~82 61.6. - 16~ - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Class Technological Specifications of Soviet Steam Locomotives (Continued) Valve C,Ylinder Diameter z z ~, n ~ ~ m m~h"~ ~~~ onro w ~ K 6 ~ o E o w q pm a" ~w~ ~a'a ~ ~' ~ ~ p C mm ?G? bi y G? [~[WpJ+~] Ou m m y `.5 ~ ~ N ~ ~ N ~ ~ O ~(~uy ~~~~~qq ~I~WHj O~ M K H N "!\ \ \ B Ei 2 x 550 700 B 250 2,275 0 Gp I51 2 x 560 700 B 250 2,275 1/30: Yef, Yek, Yes EQ,Ex,r.c 2 x 635 711 B 305 2,794 0 Yel - E]i 2 x 635 711 B 305 2,794 0 z 3 2 x 575 600 ?B 160 3,300 0 I (or J) K 2 x 575 650 B 250 3,280 0 IS (or JS) LIC 2 x 670 770 B 330 3,850 0 K H 2 x 575 650 B 250 3,2~ o xu Hy 2 x 575 650 B 250 3,280 0 Lp IIn 4 x 460 650 B~ 250 3,050/1,800 0 Mr Mp 2 x 54G 700 B 250 3,450/2,100 0.1/10 Nv HB 1 x 500 1 x 730 650 B 240 Flat 2,210 0 Nv HB 1 x 500 1 x 730 650 B 240 Flat 2,210 0 Nu Hy 1 x 500 1 x 750 650 B 240 Flat 2,210 ~ o Nu Hy 1 x 500 1 x 750 650 B 240 Flat 2,uo 0 Np Hn 2 x 540 650 B 250 2,210 0 Oo 00 2 x 500 ~ 650 B Flat Flat 2,520 1/25 Od OA 1 x SGO 1 x 730 650 J Flat Flat 2,520 1/25 Ov OH 1 x 500 1 x 730 650 B Flat Flat 2,520 1/25 op On ? x 500 650 B 250 2,520 1/25 Och OY 1 x 500 1 x 730 '650 B 250 Flat 2,520 1/25 s C 2 x 550 700 .B 250 2,240 30 Su ~ Cy 2 x 575 700 B 250 2,350 0 So CC 2 x 650 700 B 250 2,730 1/30 sok COx 2 x 650 700 B 250 2,730 1/30 F ~ 4 x 500 660 B 260 2,850/2,150 FD ~A 2 x 670 770 B 330 3,025 0 Chn ~ 1 x 500 1 x 730 650 C Flat Flat 2,500 1/33.8 Sh ID 1 x 510 1 x 765 700 s 340 425 2,430 1/30 Shch ~ 1 x 510 1 x 765 700 B Flat Flat 2,715 1/30 Shchp ~ 2 x 580 700 B 250 2,715 1/79 Shchch ~tI 1 x 540 1 x 765 700 B 300 Flat 2,715 1/30 Y H l x 520 l x 770 650 B 240 2,540 1/30 Ych by 1 x 520 1 x 790 650 B 250? 340 2,540 1/30 E 3 2 x 630 700 B 250 2,730 1/30 E, Eg, Eah 3,3r,3m 2 x 650 700 B 250 2,730 1/30 Eu 3y 2 x 650 700 B 25G ~ 2,730 1/30 ffi 3M 2 x 650 700 B 250 2,730 1/30 Er 3p 2 x 650 700 B 250 2,730 1/30 va , vc 2 x 575 650 B 250 2,735 0 Ea, Em Ea,En~ 2 x 635 711 B 304 2,794 0 sha ]~, 2 x 483 660 B 254 2,936 0 L R 2 x 650 800 B 300 3,100 0 50 50 2 x 630 600 B 52 52 2 x 600 660 B 300 56 56 2 x 620 660 B 57 57 2 x 63e 660 B 140 140 2 x 57C 630 B Tu-23 'i~-23 2 x 650 720 B Ft IIT 2 x 630 700 B ox-22 OH-22 2 x 575 630 B - 163 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Technological Specifications of 6oviet Steam Locomotives (Continued) B Gp Yef, Yek, Yes Yel Z I (or J) IS (or JS) Ku Lp Mr Nv Nv Nu Nu Np Oo Od Ov Op Och S Su SO SOk F FD Chn Sh Shch Shchp Shchch Y Ych E E, Eg, Esh Eu Em Er vsJ Ea, Em Sha L 50 52 56 57 140 'Tu-23 Pt OK-22 - 165 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 (Continued) Class Weight Dia gram P roport ions ? ~ w ~ l?~~ ~ o m a C m w K ;y ? '1 ~M [ ] O ' ~ N ? c ~1 F'~ W yb ~ W i ~ y p ~ j P D h < f N ~'1 W 00 B B 15.7 68.0 ~ 74.5 59 0.25 OP ~ 17.0 67.3 75.2 60 0.28 Yef, Yek, Yes E~,EH,iC 15 ~5 79.8 $7.0 40 0.26 Yel EP 16.0 81.0 88.0. 40 0.27 z 3 15.0 59.8 65.3 63 0.21 I (or J) YI 14.0 62.2 69.0 64 0.29 IS (or JS) LIO 20.2 120.6 135.0 42 0.50 x H 15.1 66.6 74.0 60 0.24 xu Hy 16.0 67.3 74.3 60 0.26 Lp IIn 17.3 85.6 96.7 58 0.32 Mr Mp 18.1 88.3 99.5 44 0.32 Nv HB 15.0 54.5 59.0 2.13 73 Nv HB 14.5 51.8 57.8 2.13 73 xu Hy 16.0 55.9 61.7 2.25 60~ Nu Hy 15.0 52.5 59.0 2.25 60 NP Hn 13.8 50.7 57.3 52 0.31 0o Oo 13.1 46.0 52.5 2.13 82 oa OA 13.1 46.4 52.5 2.13 82 ov Os 13.1 46.0 52.5 2.13 82 op On 13.1 47.5 52.4 69 0.32 och Oa 13.8 48.0 55.0 2.13 72 0.22 s C 15.7 67.5 76.8 50 0.25 Su - Cy 18.3 77.9 86.0 42 0.34 so Op 17.4 87.0 96.6 38 0.41 sox COx 20.4 94.4 104.0 38 0.41 F ~ 17.5 89.8 104.7 51 0.23 FD $,~ 20.1 120.6 135.0 42 0.50 chn ~ 12.5 45.4 50.0 2.13 90 Sh ~ 15.6 66.1 75.3 2.25 74 Shch Iq 16.0 69.0 77.2 2.25 78 Shchp ~ 16.0 69.2 77.3 60 0.25 Shchch W~ 16.2 71.2 78.2 2.00 63 0.33 Y H 14.9 .53.3 59.5 2.19 72 Ych 6Ig 15.2 54.8 60.9 2.06 58 0.29 E 2 16.2 72.7 81.2 46 0.24 E, Eg, Esh 3,3r,3m 16.2 72.7 81.2 46 0.24 Eu ay. 16.2 72.7 81.2 4k 0.33 Em 3~e 16.2 72.7 81.2 44 0.33 Er 3p 16.7 74.7 83.3 39 0.34 vs , Vc 16.0 57.6 64.2 54 0.24 Ea, Em Ea,Eert 18.3- 90.7- 99.6- 32.2 0.33 17.7 92.5 103.0 sha Qfa 16.0 66.7 73.8 43.3 0.27 z II 18.8 94.0 105.3 37 0.51 So 50 ~ 14.8 67.8 74.4 55 0.35 52 52 15.0 81.0 85.6 45.5 0.36 56 56 16.0 74.8 82.1 49 0.32 57 57 17.0 65.3 71.5 56 0.36 140 140 14.4 61.2 68.3 36 0.32 Tu-23 Ty-23 17.0 95.0 50 0.33 ~ IIm 18.2 95.0 105.0 52.5 0.39 ox-22 OH-22 17.0 79.0 45.5 0.34 - X67 ~ . m ~+ m _ 0.63 14,600 0.67 14,800 0.89 26,770 0.88 26,770 0.69 13,600 0.80 16,700 0.60 27,100 0.61 14,700 0.65 14,300 0.54 17,400 0.73 22,500 0.76 10,600 0.75 11,900 0.78 .12,100 0.76 13,600 0.77 12,500 1.00 16,800 1.00 16,100 1.00 16,800 1.00 18,740 1.00 16,SOo 0.61 14,600 0.63 15,800 0.90 30,900 0.90 30,900 0.84 30,900 0.79 33,450 1.00 15,200 0.83 19,900 0.83 21,.400 0.83 22,300 0.83 21,400 l.o0 18,700 1.00 1y,7oo 1.00 24,500 1.00 26,100 1.00 26,100 l.o0 30,000 1.00 30,100 1.00 20,000 0.89- 27,150 0.86 0.86 16,500 0.89 31,100 l.o0 22,100 0.87 26,650 0.82 25,300 1.00 22,458 0.84 24,000 0.89 28,400 0.68 17,400 0.64 13,000 N A h OG cw+ ~ O m M ~ m ~ ~ ~ ~ c F ~ ~ ~~ow ~ h ~ wx m 29.0 0.68 30.6 0.71 40.1 0.95 40.1 0.95 31.2 0.62 35.4 0.76 28.7 0.74 31.2 0.68 27.9 0.61 28.8 0.62 30.8 0.72 27.9 0.61 31.2 0.68 27.9 0.61 31.2 0.68 31.2 0.68 44.2 0.96 44.2 0.96 44.2 0.96 44.2 0.96 44.2 0.96 29.0 0.68 28.6 0.67 40.1 0.94 40.1 0.94 36.6 0.80 35.4 0.91 43.5 0.94 40.8 0.95 40.8 0.95 43.1 1.01 40.8 0.95 44.2 0.96 44.2 0.96 40.1 0.94 40.1 0.94 40.1 0.94 40.1 0.94 40.1 0.94 40.8 0.84 40.2 0.96 36.6 0.81 35.4 0.94 38.0 0.84 38.0 0.84 38.0 0.84 38.0 0.84 40.5 0.85 37.0 0.$7 29.0 0.89 30.5 0.64 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 i 50X1-HUM Technological Specifications of Soviet Steam Locomotives (Continued 169 H y '~ E ~+ O N ya wm Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  i Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Technological Specifications of Soviet Steam Locomotives (Continued 'a. Linear dimensions are in millimeters; area is in square meters; axle load and weight are in metric tons; speed is in kilometers per hour; pressure is in atmospheres. b. The axle arrangement of a locomotive is another way of expressing wheel arrangement. It differs from wheel arrangement in that the number of axles instead of the number of wheels is specified. Since there are 2 wheels per axle, to convert, axle arrangement to wheel ar- rangement, multiply each figure by 2. Thus a 2-3-0 axle arrangement is the same as a 4-6-0 wheel arrangement. c. 2 k = 2-cylinder compound; 2 p = 2-cylinder simple; 4 k = 4-cylinder compound. d. Sup = superheated; Sat = saturated. ' e. V (v~ ("izhitsa," with a phonetic value of "i"~ has been supplanted in the Russian alpha- bet by w (N ~, transliterated "i ." f. B = Walshaert; J = Joy; C = Stephenson. g. Flat =flat surface value. h. BO = Borris; B = Bissel; K = Krauss; TS = Tsara; F =Flamm. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Table 33 Technological Specifications of Soviet Main-Line Diesel Locomotives (1) (2) {3) (4) E-EL-2 Item Shch-EL-1 (Redesigned) (5) (6) (7) {8) {9) (lo) E-EL-S O-EL-6 O-EL-7 E-EL-B E-EL Serial ~ (u) (12) (13) Axle Arrangement 1-3-0+ 0-4-0+ 1-5-1 2-5-1 1-4-1 1- 4-0 2-5-1 2 -5-1 F-4-1+ 3+3 2(2+2) 3+3 3+3 0-3-0 1-4 2 3+3 Distance between Front and Rear Couplings C(mlete Frame (~) 22,760 19,360 14,221 10,400 15,820 ll 820 13,770 12 9 920 ,465 17,850 15 ,710 27,202 16,892 23,895 16,892 16,852 17,68 (23,140) ~+~ , , 7, 950 13,850 11 ,820 23,100 11,890 19,826 11,890 11.88v ih_n~ Qver-All. Operating Weight (mt) with Full Load of Water, Fuel, Lubricant, and Sand Operating Weight on Drivers with Full Equipment (mt) Rail Load (mt) {19,450) s~ 180.0 124.8 133.7 1 00.7 98.7 149.0 138.0 245.58 123.9 166.0 160.0 91.9 96.5 73.2 84.4 106.5 98.0 157.8 123.9 166.0 to .o 16.3 11.7 to 11.9 13.6 14.3 14..25 12.5 14.78+ " 15.83 173 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Table 33 Technological Specifications of Soviet Main-Line Diesel Locomotives (Continued) (1) (2) (3) (~+) (5) (6) (7) (8) (9) (10) (u ) (12) (13) Item Shch-EL-1 (Redesigned) E-EL-S O-EL-6 O-EL-7 E-EL-B Serial VM TE-1 TE-2 TE-5 DA DB Rail Load (mt) (Continued) Driving Axle 16.0 17.5 to 19.25 19.3? 18.3 21.1 21.3 19.6 19.725 20.65 20.75 Supporting Axle 10.0 16.6 13.6' 13.9 14.0 15.0 13.280 Ftiel Consumption (mt) 8.0 4.0 3.9 2.5 2.4 6.0 3.95 7.8 5.15 7.0 = 2x3.5 Diameter (~) Driving Wheels 1,050 1,220 1,220 1,320 1,220 1,320 1,220 .1,220 1,014, 1,050 Carriage Wheels Supporting Axle Nos. 1 to 121, inclu- sive, 1,050 950 950? 1,050 950 950 1;050 1,050 900 20.2 20.43 5.15 5.15 2.57 1,014 1,016 1,067 Wheels 950 950 1,050 950 1,050 1,050 900 Running Speed (lan/hr) With Engine Dis- engaged (Construc- tive Speed) With Engine Engaged (under Current) 75 50 55 55 55 65 55 72 90 loo 90 96 96 175 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Technological Specifications of Soviet Main-Line Diesel Locomotives (Continued) 1'7'l Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Technological Specifications of Soviet Main-Line Diesel Locomotives (Continued) E-EL-2 Item Shch-EL-1 (Redesigned) E-EL-S O-EL-6 O-EL-7 E-EL-B (1) (2) (3) (4) (5) (6) (7) (8) Output, cu m/hr Pressure, kg/sq em Operating rpm Maximum rpm Main Generator Nominal Power (kw) Maximum Volts Amperage, Average 2 x 400 800 360 to 720 1,100 1,500 800 at 1,000 v & 800 xw E-EL Serial VM 752 378 378 2 x 510 796 796 700 at 630 at 750 rpm 800 750 750 k50 rpm 1,450 at 1,160 at 335 v 975 845 at 750 v & 21oC 450 rpm 3,~ 1,330 at 1,750 at 1,400 at 270 v 600 v & 21oC 800 kw Rotor Coupling rigid rigid flexible flexible flexible to Engine Shaft Excitement inde- inde- inde- independent & pendent pendent pendent counter compound 2 step 1 step armature 1,750 at 450 v & 450 rpm rigid flexible converted to rigid inde-. inde- inde- pendent pendent pendent cascade 5,100 5,100 0.22 to 0.22 to 0.34 0.34 1,600 to 1;600 to 10,300 10,300 13,000 13,000 700 700 900 900 5,100 5,800 0.22 to 0.35 to 0.34 0.36 1,600 to 2,200 to 10,300 10,500 13,000 13,000 700 700 900 900 736 1,050 1,150 at 40oC T,200 at 1,060 1,350 under 35?C 40oC 1,500 at 40?C 1,550 at 1,200 J 1,800, short-term 40oC rigid rigid rigid rigid rigid inde- inde- inde- inde- inde- pendent pendent pendent pendent pendent Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Technological Specifications of Soviet Main-Line Diesel Locomotives (Continued) (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (u) (12) (13) Item Shch-EL-1 E-EL-2 (Redesigned) E-EL-S O-EL-6 O-EL-7 E-EL-8 E-EL Serial VM TE-1 TE-2 TE-5 DA DB Exciter Nominal Power (kw) 2 x 10.5 = 12.5/1 J 61 at 250 to 40 at 40 at 2 x 100 61 160 3.6 3.6 3.6 5 21 450 rga 750 rI~ 750 rpm Operating Voltage 50/110 to 135 135 to 140 140 140 150 135 160 at 55 55 55 55 at 21oC 1,360 rpm Operating Amperage 250 250/9 550 at 125 v, 285, 285, 667 452 65 65 65 65 110 20 min average; average; maximum 350, for 350, for Excitement independent 20 min 20 min shunt storage compound auxiliary combing- combing- combing- combing- combing- Maximum rpm 400 . ' 55O 750 750 battery 650 & shunt armature 450 generator tion 1y776 tion' 1,776 tion 1,776- tion 1,776 tion 2,500 Auxiliary Generator (Auxiliary Exciter) Nominal Power (kw) 12.5 5 5 5 5 Maximum rpm 1,776 1,776 1,776 1,776 2,500 Excitement self-excitement shunt Voltage 1 0 a 1,320 rpm 76 76 76 75 130 1.81. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Technological Specifications of Soviet Main-Line Diesel Locomotives (Continued) E-EL-2 E-EL Item Shch-EL-1 (Redesigned) E-EL-S O-EL-6 O-EL-7 E-EL-8 Serial VM TE-1 TE-2 TE-5 DA DB Nominal Power (kw) 100 142 140 350 140 230 140 140 98 98 9g 99 Amperage, Average 160 at 835 rpm 2 x 195 169 at 680 at 725 680 at 700 at 1,000 & 1,000 v 750 v 4o?c 4o?c 4o?c & 1,000 725 at 740 at rpm ~ ~5oC 30?(' Amperage, Short-Term 235 at 440 v 2 x 242 350 at 375 at 770 at 770 at Igo at & 600 rpm 440 v 440 v 40?C 40?C 40?C for 100 min & 410 840 at 850'-at rpm ~ 2 0 ?0 Field Shunting 35 50 35 55 38/33 (percent) Transmission Ratio 4.625 6.14 5.73 = 86/15 4.75 5.73 6.8 5.73 = 4.316 4.6875 = 4.6875 = ~ 4.6875 = 4.6875 = 2 25 4.857 = Number of Drive 86/15 82/19 75/16 75/16 75/16 75/16 68/14 Motors 10 5 5 1 group 4 5 double 5 2 x 4 6 2 x 4 6 6 6 Transmission two-sided two-sided two- onb-sided two-sided with one-sided one-sided one-sided one-sided one-sided TYPe sided to shaft; conical teeth torsion Maximum rpm 1,750 1,400 at 1,030 1,400 to sale 1,770 1,400 1,350 at 2,200 2,200 2,200 2,200 2,300 of Rotor 55 ~/hr 72 1~/hr - 1.83 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Technological Specifications of Soviet Main-Line Diesel Locomotives (Continued) (1) (2) (3) (4) ~ (5) (6) (7) (8) (9) (~o) (u ) (12) (13) E-EL-2 E-EL Item Shch-EL-1 (Redesigned) E-E~.-S O-EL-6 O-EL-7 E-EL-B Serial VM TE-1 TE-2 TE-5 DA DB Electric Drive tMtors (Continued) Scheme of Inclusion parallel parallel parallel of Drive Motors at Start-Up and at Cruising Speed of Locomotive Basic Scheme of In- parallel parallel parallel elusion of Drive Motors Voltage 1.,000 parallel parallel parallel aeries aeries aeries series 2 paral- lel groups with 2- step shunting parallel parallel parallel series series series series parallel parallel parallel parallel 800 750 157 235 157 130 to 268 360 maximum Characteristics acid acid base. base base base acid acid acid acid acid acid acid Number of Elements 92 52 2 x 52 32 2 x 32 32 32 56 Ampere Hours/Dis- 600/1 60/3 160/3 5~/3 5 0/3 400/3 81/3 2 x 81/3 550/10 2 x 550/10 ' 550/10 360/6 260-type 1 charge Time 280-type 2 6-hr dis- charge Voltage 135 120 to 140 140 140 104 135 64 64 64 64 130 Maximtimt Amperage . Discharge 55 1,700 1,700 1,700 - 185 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Table 33 Technological Specifications of Soviet Main-Line Diesel Locomotives (Continued) E-EL-2 E-EL Item Shch-EL-1 (Redesigned) E-EL-S O-EL-6 O-EL-7 E-EL-B Serial VM TE-1 TE-2 TE-5 DA DB Number of Steps Number of Cylinders Capacity Numerator (cu m/min) Denominator (rpm) 1.08/315 .1.0/450 1.0/450 1.08/315 1.08/315 2.2/250 2.2/250 2.2/250 2.2/250 or or or or or or 1.3/385 1.3/385 5.5/740 5.51740 5.5/740 5.5/740 Air Pressure (kg/sq cm) Condenser 60 8 8 60 60 . 9.8 9.8 9.8 9.8 9.8 Flow from Water Pump (cu m/hr) 20 49 95 60 60 130 45 38.6 80 2 x 80 80 78 104 Flow from Lubrica- tion Pump (cu m/hr) 5 12/36 = 48 ~ 9 9 35 13 22 16 2 x 16 16 18 11 ?Maximum rpm of Blower 1,200 1,290 1,230 1,300 1,200 1,000 1,200 1,120 1,240 970 1,240 1,240 1,600 Maximum Air Supply (cu m/hr) 100,000 138,000 144,000 126,000 u5,ooo 162,000 150,000 2 x 126,000 66,000 66,000 97,000 -187- Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 z Technological Specifications of Soviet Main-Line Diesel Locomotives (Continued) E-EL-2 ~ E-EL Item Shch-EL-1 (Redesigned) E-EL-S O-EL-6 O-EL-7 E-EL-B Serial VM TE-1 TE-2 TE-5 DA DB Condenser (Continued) Number of Water Coils 4 9 9 6 5 2 x 4 21 2 x 20 21 21 10 Number of Lubricant Coils 2+5=7~ 3 3 2 6 2x4 5 2x6 5 5 2 Water Coil Surface (sq m) Tao 672.5 320 405 4 05 480 410 2 x 450 429 2 x 409 429 429.5 336.8 Lubricant Coil 32 134.5 160+400 = 135 1 35 160 205 2 x 450 95 2 x 114 95 102 69.5 Surface (sq m) 560 Number of Speeds of Blower 1 2 2 1 1 1 1 1 1 1 a. Figures in parentheses refer to locomotive TE-2 of Piret production. b. Current shown for time of 100 minutes. c. Current shown for time of 40 minutes. d. Figures in the denominator refer to the small exciter which is driven by belt transmission from shaft of the main exciter. e. Correspond to a flow of 45 cubic meters per minute of air blown through the motor. f. First figure refers to cooling of engine lubricant; second, to cooling of pistons. i89 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Table 34 Technological Specifications of Soviet Diesel Locomotives with Mechanical Transmission Type Length over Buffers (mm1 Length of Basic Frame (mm) Drawbar Pu11 (mt) Over-All Trailing Front Carriage Axle Front Carriage Wheels Supporting Axle Fuel Consumption (mt) Diameter (mm) Driving Wheels Carriage Wheels Supporting Axle Wheels Running Speed (km~hr) With Engine Disengaged With Engine Engaged Year Built (1) (2). (3) (4) (5) (6) EMH-3 MK-1 & MH-2 AA-1 M D~2 Projects of.Kolomen Works 2-5-1 0-2-0 0-3-0 0-2-0 2-5-1 2-5-2 16,696 8,640 9,200 7,764 19,100 19,200 11,935 3,200 4,400 2,150 14,300 15,650 i31 38 54 26 165 170 88 38 54 26 llo loo ?3 & 14 17.5 & 18.5 17.5 17.6 19 18 13 22 20 16 19 17.5 3.5 ~-85 0.93 5.2 1,320 1,220 1,220 . 1,200 1,520 1,500 1,030 ~ 1,050 900 950 900 900 55 45 65 48 36 50 39 61 1927 1931 1933 1936 projected in projected in 1934 1934 (incomplete) - ~9~ Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Technological Specifications of Soviet Diesel Locomotives with Mechanical Transmission (Continued) (1) (2) (3) (4) (5) (6) , EMH-3 MH-1 & MH-2 AA-1 M D/2 Projects of Kolomen Works Engine Designation MAN MAN 6D 22/28 SD 19/32 (Kaluga Works) 53 N 8 45 NK-8 Cylinder Diameter (mm) 450 220 220 190 410 410 Length of Piston Stroke (mm) 420 320 280 320 530 450 Number of Cylinders 6 6 6 4 8_ 8 Maximum rpm 450 850 460 450 500 Top Operating rpm 400 700 650 430 450 5~ Effective hp at Top Operating rpm 1,050 300 300 140 2,500 2,300 Fuel Atomization air jet antechamber mechanical air Strokes per Cycle Condenser Maximum Supply of Water Pump 4 4 2 2 2 2 (cu m/hr) Maximum Lubrication Suppl}r 48 12 10 (cu m/hr) 20 3.5 2 x 1.3 Number of Water Condenser Coils Surface of Water Condenser 6 3 grading front 11; rear, Coils (sq m) 530 82 Number of Lubrication Condenser front,ll; Coils 6 3 rearr3 - 192 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Technological Specifications of Soviet Diesel Locomotives with Mechanical Transmission (Continued) (1) (2) (3) (~) (5) (6) Item EMEI-3 MA-1 & MA-2 AA-1 _ M D~2 Projects of Kolomen Works Condenser (Continued) Surface of Lubrication Condenser Coils (sq m) Number of Gears of Blower Reducer Maximum Number of rpm of Fan .Maximum Su pply of Air (cu m~hr) Maximum hp Required by Fan 200 2 1,200 110,000 68 1,2 55 2 00 7.4 driven by exhaust gases, 1,600 1 front, 1 200; rear, 1,x+00 front, 190,000; rear, 50,000 Gear Box Number of Cross Shafts 3 5 ~+ 5 5 Number of Speeds 3 ~+ ~+ ~+ 4 4 Transmission Figures Speed I 6.923 23. 17.8 11.14 Speed II 3.966 13.35 9.544 5.72 Speed III '2.05 7.60 4.9 3.40 . Speed IV 4,43 2,63 2.27 - 193 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Technological Specifications of Soviet Diesel Locomotives with Mechanical Transmission (Continued) (1) (2) (3) (4) (5) (6) Item EMfi-3 MA-1 & MH-2 AA-1 M D/2 Projects of Kolomen Works Locomotive Speed in km/hr at Maximum rpm Speed I 14.4 3.5 to 8.5 10.5 5.46 12.3 Speed II 25 6 to 14.6 10.2. 23.95 Speed III 48 10.6 to 25.9 19.8 40.2 Speed N 18.2 to 45 50 37 60.4 Maximum rpm Voltage Kilowatts Traction Motor Function Voltage feeding of coup- battery charging, lings, light- lighting ing, battery charging 2,500 110/135 6 for lubrication engine starting pump at tender ll0 _ ~9~ _ feeding of. couplings, battery charging for lubrica- tion pump Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Service freight-passenger freight, mountain service freight-passenger freight-passenger Wheel Arrangement 0-3-0+0-3-0 0-3-0+0-3-0 0-3-0+0-3-0 0-3-0+0-3-0 Plant Dynamo Works imeni Kirov ~ Dynamo Works imeni Kirov ~ Dynamo Works imeni Kirov ~ Novocherkassk Year in Service 1932 1932 1947 Current DC DC DC DC Voltage on Pantograph 3,000 3,000 3,000 3,000 I~p, Hourly Rate 2,770 2,770 2,770 3,260 Designed Speed (km~hr) Total Weight (mt) 83 70 With Stabilizer 126 132 132 132 Without Stabilizer W i ht i D i A l ( t) 120 126 e g on r v ng x e m With Stabilizer 21 22 22 22 Without Stabilizer 20 21 Diameter of Drivers (mm)' Diameter of Auxiliary Wheels (mm) 1,220 1,220 1,220 1,220 a. Moscow Order of Lenin and Order of Labor Red Banner Dynamo Works imeni Kirov. b. Novocherkassk Electric Locomotive Plant imeni Budennyy. - 195 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Technological Specifications of Soviet Electric Locomotives (Continued Driving Gears System resilient duplex gears resilient duplex gears duplex gears duplex gears Gear Ratio 3.74 4.45 x+?45 x+?45 Piston Gear, Number of Teeth 23 20 Spur Gear, Number of Teeth 86 89 Number of Motors Suspension 6 6 6 tramway tramway tramway 6 tramway Over-All F.,ength between Buffers 16,220 16,4 80 16,390 16,390 Body Length 13,500 13,5 00 Wheel Base 11,800 12,2 00 14,200 14,200 Wheel Rigid Base 4,000 4,2 00 4,200 4,200 Height, Locked-Down Position of Pantographs to Top of Rail 4,990 4,8 25 rheostat regenerating regenerating regenerating - 196 - ~ r ~ ~ ~ s Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Table 36 Technological Specifications of Soviet Freight Cars Light Weight Length over Buffers (mt) (mm) Distance Distance between "~ Length :J Width With Without With Without between Truck Floor e ~ Year Built Hand Brakes Hand Brakes Capacity ~ (mt) Axle Load ~ (mt) Hand Brakes Hand Brakes End Axles (mm) Centers (mm) Inside (mm) Space a s m 2-Axle Boxcar, Russian Type 1887 8.6 ~ X3.1 8,286 7,634 3,810 6,400 2,743 17.56 2-Axle Flatcar, Russian Type 1900 7.8 7.3 ~ 12.9 10 394 10 394 5 5~ 8612 4 23.6 12.b5 , , , ., 9,1 4 2 7 0 2Tr 2-Axle Refrigerator Car, Built 1932 18.4 18.0 19.0 18.7 10 394 10 394 500 5 8,410 2 700 22 7 by the Tambov Freight Car Repair 18.5 , , , 9,010 , 2T Plant 2-Axle Boxcar, Built by Soviet Car 1927 10.5 9.9 20.0 16.435 8 540 850 7 3 9~ 6 600 8 Plants 2-Axle Hi h Sid Fl t 15T5 14'95 , , , , 8 64 2,750 1 .15 g - e a car of Welded 1928 9.9 9.2 20.0 10,424 ~ 10,424 5 500 3 2 750 23.0 - and Riveted Construction 1~ , 9~ , rj7 2 2-Axle 25-cu-m Tank Car for Reuling Ammonium 13.5 25.0 19.25 8,980 3,900 6,740 2,200 2-Axle Self-Unloading Hopper Car 1931 12.2 25.0 18.6 7,140 3,900 5,912 2,916 2-Axle 25-cu-m Tank Car Built 1931-37 11.7 11.0 25.0 i~ 5 8,960 8,780 3,9~ 6 740 2 200 by Soviet Car Plants 4-Axle Boxcar of Riveted Construction, 1928-36 24.2 23.4 50.0 18'55 15,058 14,.308 9,272 , 13,0 , 2,750 35.75 Built by Soviet Car Plants 18.35 4-Axle Boxcax of Welded Construction, 1936-41 22.79 21.9 50.0 1 $?08 15,350 14,730 9,830 13,430 2,750 36.9 Built by Soviet Car Plants 1 a. Numerator refers to cars having hand rakes; denominator, to cars without hand brakes. b. With automatic couplers. -197- Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Type Year Built 4-Axle All-Welded Flatcar 1932 4-Axle Flatcar, DIo Sides 1935 4-Axle Flatcar, Welded from Rolled 1936 Steel Technological Specifications of Soviet Freight Cars (Continued) 50X1-HUM i Length over Light Weight Buffers (mt) (mm) Distance ?~ Distance between Length _l Width With Without With Without between Truck Floor Hand Hand Capacity ~ Axle Load ~ Hand Hand End Axles Centers Inside Space a Brakes Brakea mt (mt) Brakes Brakes (mm) (mm) (umi) s m 18.4 18.4 50.0 17.1 14,224 14,224 9,300 12,914 2,780 35.9 24.0 60.0 21.0 14,220 9,300 13,000 3,100 40.3 22.2 22.0 60.0 .22x?55 14,194 14,194 9,294 12,874 2,770 3335~?5-2~ 4-Axle Depressed Center Car 44.4 38.0 20.5 16,490 11,450 6,740 2,060 12.0 4-Axle 50-cu-m Tank Car of Welded 1937-41 22.5 21.8 50.0 18.65 12,220 12,030 7,120 9,600 2,600 and Riveted Construction, Built to to i~.5 by Soviet Car 'Plants 24.7 24.0 4-Axle Welded Gondola Car, Built by Soviet Plants 1933 22.7 22.7 60.0 20.67 13,920 13,920 8,650 12,004 2,960 35.53 4-Axle Low-Side Coal Hopper Car 1932-33 21.0 21.0 50.0 17.75 10,030 10,.030 5,810 8,740 3,080 4-Axle Industrial Low-Side Ore Hopper 4-Axle Dump Car 1931 24.0 40.0 16.0 10,210 6-Axle Depressed Center Car 34.3 50.0 14.05 17,690 1934 43.5 80 15.45 22,652 - 198 - 4,350 5,900 3,u4 5,170 7,910 2,700 27..36 13,050 6,500 2,900 18.85 14,300 7,000 3,000 21.0 20,270 9,156 2,440 22.3 Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Light Weight Length over Buffers (mt) (~) Distance Distance between Length Width With Without With Without between Truck Type Year Built Hand Hand Brakes Brakes Capacity mt Axle Load mt Hand Hand Brakes Brakes End Axles (~) Centers (mm) Inside (mm) 2-Axle 14-m Suburban Traffic Passenger 1925 21.5 to 9.0 15.25 to 15,160 8,200 14,000 ~ 3,040 Car, with Hard Seats 24.0 16.5 4-Axle 20.2-m Suburban Traffic Pas- 1928 45 to 12.24 14.31 to 21,390 13,970 20,200 2,880 senger Car, with Hard Seats 48.5 15.19 4-Axle 20.2-m Long-Distance Passenger 1931 42 to 10.76 13.19 to 21,360 13,970 20,200 2,980 Car, with Hard Seats and Noncompart- 45.5 13.81 mented 4-Axle 20.2-m Passenger Car, with Hard 1928 43.5 to 4.0 11.88 to 21,360 13,970 20,200 2,930 Seats and Compartments 47 12.75 4-Ax1e.20-m First-Class Through- Traffic Coach 1928 53.5 2.02 13.88 21,190 ' 14,000 20,030 2,950 4-Axle 20.2-m Through-Traffic Sleeping Car, First or Second Class 1928 54.64 2.24 14.22 21,360 13,970 20,200 2,900 4-Axle- 20.2-m Baggage Car 1g28 32.0 20.0 13.0 21,360 13,970 20,200 2,910 4-Axle 20-m Mail Car 1828 42.0 16.0 14.5 21,160 14,500 20,200 2,930 - 199 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 50X1-HUM Length over Light Weight Buffers (mt) (mm) Distance Distance between Length Width With Without With Without between Truck YPax Hand Hand Capacity Axle Load Hand Hand End Axles Centers Inside Type Built Brakes Brakes (mt) mt Brakes Brakes (mm) (mm) (mm) Technological Specifications of Soviet Passenger Cars (Continued) 4-Axle Trailer Car for Electric Motor Car Trains 19,130 3,304 19,130 3,304 ~ f r s ~ Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 50X1-HUM LIST OF PLANTS REPORTED AS PRODUCING LOC~lO'I'IVES AND~OR ROLLING STOCK IN THE USSR 235 plants, (3) plants definitely identified as either overhaul 'or 50X1 50X1 (2) plants reported but not def finitely identified as producing . As explained in the text,- about 120 plants which have been re- ported as producing locomotives and~or rolling stock in-the USSR have been studied, with a view to determining whether they were in fact producing plants during the period 19+5-52. As a result, these plants have been broken down into four main categories .as follows: (1) plants def finitely identif ied as producing plants; repair shops which do not produce new units; and (4) other plants identified as producing parts fox locomotives and~or rolling stock, maintenance units for the railroad system, 'or narrow-gage equipment for mining or other similar operations. It is felt that categories 1 and 2, below (as mentioned above), include all plants in the USSR engaged in production of new units, as well as a number of plants (in 2, below) which are mere ly_engaged in overhaul or repair. Since the plants listed under categories 3 and t+, below (as mentioned above), do not fall within the scope of this report, no attempt has been made to make these particular lists complete, but they are presented here as a guide in evaluating other reports of production and as a guide for other studies pertaining to repair and parts plants. The following is a list of plants located alphabetically by the name of the city. The list is divided into four parts as mentioned above. In addition, the plants listed in 1 and 2, below, are groupeu according to type of units produced. bee art I, Section IV`y above. ~' For maps showing the locations of locomotive and rolling stock plants in the USSR, see Figures 1 and 2, following p. 3~+, above. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 1. Plants Definitely Identified as Producing Plants. a. Steam Locomotive. (1) Bezhitsa (VII). Proper Name:' Krasr~yy Prof intern Railroad Locomotive Building Plant. (2) Gor'kiy (VII). Proper Name: Krasnoye Sormovo Plant imeni Zhdanov. (3) Kolomna (VII). Proper Name: Kuybyshev Railroad Locomotive Plant. (ZI-) Krasnoyarsk (XI) . Proper Name: Sibirskiy Heavy Machine Plant (also known as the Stalin Loco- motive and Crane Plant). Former Names: Krasmashstroy Railroad Equipment Plant . Krasnyy Prof intern Railroad Equip- ment Plant. Onega Metallurgical Engineering Plant. Krasr~yy Prof intern Machine Building Plant. (5) Ulan-Ude (%I). Descriptive Name: Railroad Locomotive Plant. (6) Voroshilovgrad (III). Proper Name: Voroshilovgrad Steam Locomotive Plant imeni October Revolution. * Numbers in roman numerals following the names of cities refer to the economic regions defined and numbered .5X1-Hlll~ USSR: Economic Regions. 50X1-H U M S-E -C -R-E -T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 b. Electric Locomotive. (7) Novocherkassk (IV). Proper Name: Novocherkassk Electric Locomotive Plant imeni Budenr~yy. Former Name: Kuchimovskiy Electric Locomotive Plant. c. Diesel Locomotive. (8) Kharkov (III). Proper Name:, Kharkov Transportation Machine Building Plant (KhZTM). Former Names: Komintern~Railr.oad Locomotive Plant. Tank Plant No. 75. Tank Plant No. 183. ~d. Freight Car. (9) Altayskoye (IX). Proper Name: Pravda Railroad Car Plant. (10).Bezhitsa (VII). Same as (1). (11) Dneprodzerzhinsk (III). Proper Name: Railroad Car Construction Plant imeni Gazety Pravda. (12) Engel's (also known as Saratov Engels) (VI). Proper Name: Railroad Car Building Plant imeni Uritskiy. (13) Kalinin (VII). Proper Name: Railroad Car Building Plant imeni Kalinin. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 (14) Kaliningrad (II). (15) (16) Proper Name: Kaliningrad Railroad Car Plant. Former Name: Ludwig Steinfurth Railroad Car Plant. Kiev-Darnitsa (YII). Descriptive Name: Railroad Car Plant. Nizhniy Tagil (VIII). Proper Name: Former Names; (17) Zhdanov (III). Proper Name: Former Name: e. Passenger gar. (18) Leningrad (I). Proper Name: Ural Railroad Car Plant imeni L.M. Kaganovich. Dzerzhinskiy Railroad Car Plant. Stalin Railroad Car Plant. International Railroad Car Plant. Komintern Railroad Car Plant. Mariupol' Steel Plant imeni Il'ich. Ku,Ybyshev Pipe Plant. Railroad Car Building Plant ' imeni Yegorov. (19) I~ytishchi (VII). Proper Name: N~ytishchi Railroad Car Building Plant. (20) Riga (II). Proper~Name: Riga Railroad Car Building Plant "Vayrogs." f. Locomotive Tender. (21) Saratov (VI). Proper Name: Konus Railroad Equipment -204- I Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 ~~  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 2. Plants Reported but Not Definitely Identified as Producing Plants. a. Steam Locomotive. (22) Apsheronsk (IV). Descriptive Name: Railroad Locomotive Plant. (23) Asbest (VIII). Proper Name: Novo-Stroika Railroad Locomotive Plant . (2~+) Berezovka (xI) . Descriptive 'Name: Railroad Locomotive Plant. Repair shop (same as Stalin Locomotive and Crane Plant, Krasnoyarsk). (25) Cherkassy (III). Descriptive Name: Railroad Locomotive Plant, Electric. (26) Chita (xI). Proper Name: Voroshilov Railroad Equipment Repair Shop imeni Voroshilov. (27) Golumet` (xI). Descriptive Name: Railroad Locomotive Plant. (28).Kemerovo (Ix). Descriptive- Name: Railroad Locomotive Repair Shop. (29) Michurinsk (VII). Descriptive Name: Michurinsk Locomotive Repair Plan. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 (30) Murom (VII). Proper Name: Plant imeni Communist Party of France. Former Name: French Communist Party Steel Plant. (31) Nakhodka (XII). Descriptive Name: Railroad Locomotive Repair Shop. (32) Nizhniye Sergi (VIII). Descriptive Name: Railroad Locomotive Plant. (33) Novosibirsk (IX). Descriptive Name: Railroad Locomotive Plant. (3~+) Poltava ( III) Proper Name: Poltava Locomotive Repair Plant imeni Zhdanov. (35) Rechitsa (II). Descriptive Name: Railroad Locomotive Plant. (36) Sukhaya Rechka (XII). Descriptive Name: Railroad Locomotive,Plant. (37) Tuapse (IV). Descriptive Name: Railroad Locomotive Plant. (38) Zaporozh'ye (III). Descriptive Name: Railroad Equipment Repair Shop. - 206 - S-E-C-R-E-T Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 (41) Troitsk (VIII). b. Electric Locomotive. (39) Kashira (VII). Descriptive Name: Electric Locomotive Plant. (~+0) Rostov (IV). ' Descriptive Name: Railroad Electric Locomotive Plant. Descriptive Name: Railroad Electric Locomotive Plant. c. Freight Car. (~+2 ) Gomel' ( II) . Proper Name: Former Name: Gomel' Railroad Car Repair Plant. Tormoznaya Masterskaya Railroad' Car Repair Plant. (43) Kramatorsk (III). Proper Name: Lenin Tank Car Plant. (~+~+) Kremenchug ( III) . Descriptive Name: Railroad Car Plant. (~+5) Kryukkov ( III) . Proper Name: Kryukov Railroad Car Plant. (~+6) L'vov ( III) . Descriptive Name: Railroad Equipment Repair Shop. (47) Michurinsk (VII). I Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 (~+8) Murom (VII) . Same as (30). (49) Rostov (IV), Same as (~+0) . (50) Serov (VIII). Descriptive Name: Railroad Car Plant. (51) Tallin (II). Proper Name: Dvigatel' Railroad Car Plant. (52) Tambov (VII). Proper Name: Tambov Railroad Locomotive and Car Repair? Plant . (53) Vil'nyus (II). Proper Name: Vil'nyus Locomotive Repair Plant. (5~+) Volkovysk (II). Descriptive Name: Railroad Freight Car Plant. (55) Voronezh (VII), Proper Name: Otrozhka Railroad Car Repair Plant imeni Thaehlmann. (56) Zhdanov (IYI). Proper Name: Tank Plant imeni Lenin. d. Passenger Car. (57) Balashov (VI). Proper Name: Oboz Transportation Equipment Plant. 50X1-HUM Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 (58) Kalinin (VII). Same as (13). (59) Kiev (III). Descriptive Name: Railroad Car Plant. Possibly the same as (15). (60) Lianozovo (VII). Proper Name:.. Lianozovo Railroad Car Building Plant. (61) Sverdlovsk (VIII). Proper Name: Voyevodin Railroad Car Plant. (62) Voronezh (VII). Same as (55)? 3. Plants Definitely Identified as either Overhaul or Repair Shops. (63) Alapayevsk (VIII). Descriptive Name: Railroad Locomotive Repair Shop. (6~+) Anzhero-Sudzhensk (IX). Descriptive Name: Railroad Car Repair Shop. (65) Baku (V)? Proper Name: Baku Railroad Car Repair Plant imeni October Revolution. (66) Barnaul (IX). ' Proper Name: BVRZ Railroad Car Repair Plant. - 209 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 i i 50X1-HUM (67) Bologoye (VII). Descriptive Name: Railroad Equipment Repair. Shop. (68) Borisoglebsk (VII). Proper Name: Borisoglebsk Railroad Car Repair Plant. (69) Chkalov (VIII). Descriptive Name: Railroad Equipment Repair Shop. (70) chkalov (vIII). Descriptive Name: Railroad Locomotive Repair .Shop. (71) Dnepropetrovsk (III). Proper Name: Dnepropetrovsk Locomotive Repair Shop. Former Name: Promparavoz Railroad Locomotive Plant. (72) Dnepropetrovsk (III). Proper Name: N~ytishchensk Railroad Car Plant (Nizhnednepro'vskiy imeni Kirov). (73) Gryazi (VII). Proper Name: Gryazi Railroad Car Repair Shop. (7~+) Kagan (X) . Descriptive Name: Railroad Locomotive Repair Shop. (75) Kaliningrad (II). Descriptive Name: Railroad Car and Locomotive Repair Shops. (76) Kirov (VII). Descriptive Name: Railroad Equipment Repair Shop. '~ Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 (77) Konotop (III). Proper Name: Konotop Railroad Steam Locomotive and Car Repair Plant. (78) Krivoy Rog (III). Descriptive Name: Railroad Car Plant. (79) Leningrad (I). Proper Name: October Revolution Railroad Car-Repair Plant imeni L.M. Kaganovich. (80) Lisichansk (III). Proper Name: Lisichansk Railroad Car Repair Plant imeni L.M.. Kaganovich. (81) Maksatikha (VII). Proper Name; Krasr~yy Kustar' Railroad Car Plant. (82) Minsk (II). Proper Name: Minsk Railroad Car Repair Plant imeni Myasnikov. Former Name: "Plamya Revolyutsii" Railroad Car Plant. (83) Moisakula (II). Descriptive Name: Railroad Car Plant. (8~+) Mogilev ( II) . Descriptive Name: Railroad Equipment and Car Repair Shop. (85) Nikolayev (III). Descriptive Name: Railroad Equipment Repair Shop. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 (86) Novorossiysk (IV). Proper Name: VRZ (Railroad Car Repair Plant) ~imeni L.M, Kaganovich: (87) Orsk (VIII). Descriptive Name: Railroad Locomotive Plant. (88) Popasnaya (III). Proper Name: Popasnaya Railroad Car Repair Plant. (8g) Poti (V). Proper Name: Locomotive and Railroad Car Repair Shops imeni Ordzhonikidze. (90) Stalinsk (IX). Descriptive Name: Railroad Locomotive and Car Plant. (91) (92) (93) Descriptive Name: Stryy (.III) . Descriptive Name: Railroad Car Repair Plant. Svir'stroy (I). Syzran' (VI). Descriptive (9~+) Tallin ( II) . Railroad Car Plant. Name: Railroad Locomotive Repair Shop. Tallin Plant No. 9. "Kroll" Machine Building Plant. Glavgaztopprom Machine Building Plant. Punane Kroll Machine Building Plant. Thevis Machine Building Plant. Veduriremontitehas Railroad Plant- Proper Name: Former Names: Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 (95) Tapa (II). Descriptive Name: Railroad Freight Car Plant. (96) Tashkent (X). Proper Name: Krasnyy Vostochnyy Railroad Equipment Repair Shop imeni L.M. Kaganovich. Former Name: 1 May Railroad Equipment Repair Shop. (97) Tayshet (XI). Descriptive 1Vame: Railroad Equipment Repair Shop. (g8) Tula (VII). Descriptive Name: Railroad Locomotive Parts and .Repair Plant. (9g) Ufa (VIII). Proper Name: Kuybyshev Railroad Locomotive Plant. (100) Valga (II). Descriptive Name: Railroad Car Plant. (101) Voroshilov (XII). Proper Name: 25 October Railroad Locomotive Plant. Former Name: Voroshilov Ussuriyskiy Railroad Loco- motive Plant. (102) Yaroslavl' (VII). Proper Name: Yaroslavl' Locomotive Repair Plant. (103) Zaporozh'ye (III). Descriptive Name: Railroad Equipment Repair Shop. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 ~+. Other Plants . (10~+) Alma-Ata (X) . Descriptive Name: Railroad Equipment Repair Plant. (10;) Kaluga (VII). Proper Name: Kaluga Machine Building Plant. Descriptive Name: Railroad Shunt and Mining Locomotive Plant. (106) Kambarka (VIII). Descriptive Name: Railroad Car Plant. (107) Kolpino (I). Proper Name: Izhorsk Works imeni Gor'kiy. Former Names: Kuybyshev Steel Plant. Zhdanov Steel Plant. (108) Kulebaki (VII). Proper Name: Kulebaki Metallurgical Plant imeni Kirov . Descriptive Name: Railroad Wheel and Tire Plant. (109) Kutaisi (V). Proper Name: Gornyak Mining Equipment Plant. (110) Leningrad (I). Descriptive Name: Trolley Car Plant. (111) Makkaveyevo (XI). Descriptive Name: Railroad Locomotive Plant. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 (112) Mamadysh (VII). Descriptive Name: Railroad Shunt Locomotive Plant. (113) Moscow (VII). Proper Name: Moscow Order of Lenin and Order of Labor Red Banner Dynamo Works imeni Kirov. (11~+) Novocherkassk (IV). Proper Name: Osna Electric Locomotive Plant. Descriptive Name: Railroad Mining Locomotive Plant. (115) Odessa (III). Proper Name: Odessa Plant imeni Yanvarskogo Vosstaniya (January Uprising). (116) Podol'sk (VII). Proper Name: Podol'sk Machine Building Plant imeni Ordzhonikidze. Descriptive Name: Railroad Mining Locomotive Plant . (117) Prokop'yevsk (IX). Proper Name: Prokop'yevsk Mining Machinery Plant. Former Name: Rudo Remont. (118) Troitsk (VIII). Descriptive Name: Railroad Electric Locomotive Plant. (119) Ust'-Katav (VIII). Proper Name: Railroad Car Plant imeni Kirov. Descriptive Name: Trolley Car Plant. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 STATISTICAL COMPARISONS OF THE LOCOMOTIVE AND ROLLING STOCK INDUSTRIES IN THE US AND THE USSR Some statistical comparisons of the locomotive and rolling stock industries in the US and the USSR are given in Table 38.x- The sta- tistics shown for the US are all from open sources and are unclassified. Those shown for the USSR are taken either directly from the text of this report or from statistics available in previously published intelligence summaries dealing with the Soviet railroads. It will be noted from Table 38 that the Soviet locomotive inven- tory at the end of 1951 is nearly equal to that of the US at the same time. Examination of the table shows further, however, that if this inventory figure is multiplied by the average tractive effort per locomotive, then the US inventory becomes almost two times greater than the Soviet inventory in terms of total power available. It should also be noted that, in terms of ~+-axle units, the USSR is somewhat more efficient than the US in making use of available loading capacity in its freight cars. It is this fact plus a higher utilization rate that enables the USSR to move approximately one-half the total volume of freight that is moved annually in the US with only about one-fourth to one-third the freight car inventory of the US. ~- Table 38 follows on p: `218. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Statistical Comparisons of the Locomotive and Rolling Stock Industries in the US and the USSR Locomotive Ihventory (Units) Locomotive Production (Units) Average Locomotive Tractive Effort (Lbs) Freight Car Imrentory (Thousand Units) Freight Car Production (Thousand Units) Average Load per Freight Car s ) (Metric To Freight Traffic (Billion Ton- Kilometers) US USSR US USSR J US USSR US USSR n , US USSR ,~ US USSR Year US USSR 28 1 311 63 16 500 A N 540 43,838 26,000 2,347 238 N.A. 5.3 24.3 N.A. 638 93 9 1930 , 189 60 , 17 750 . . 023 1 660 45,225 26,500 2,322 254 N.A. 9.7 24.3 N.A. 565 N.A. 1935 , 514 49 , 22 293 , 201 1;556 48,367 28,000 1,867 328 N.A. 42.8 23.7 N.A. 416 258 4 40 1 , 44 333 , 954 25 501 937 50,905 29,600 1,684 419 62.3 25.0 25.1 33.2 550 15 9 1941 , 44 375 , 464 26 1 104 749 51,217 30,000 1,733 ~ 80.6 27.8 26.0 34.0 700 460 1945 , 46 253 , 741 25 , 2,845 12 53,217 31,000 1,787 398 43.9 0.9 29.3 33.0 1,000 314 46 1 , 500 45 , 334 26 1 677 333 53,800 31,400 1,768 405 42.0 14.0 28.5 35.9 872 338 9 1947 , 44 344 , 26 999 , 884 2 965 54,507 31,700 1,739 ?+25 68.5 27.1 N.A. 35.9 960 354 4 48 1 , 764 39 , 28 134 , 152 3 1 495 189 55 32,000 1,731 455 112..8 39.0 30.0 36.50 938 50 9 4 1 , 38 981 , 684 29 , 1 920 , 950 1 , 56,333 32,300 1,755 498 92.6 51.5 N.A. 37.0 760 525 9 9 1950 , 40 494 , 32 036 ,. 4 669 , 2,395 57,075 32,700 1,721 548 44.0 60.5 N.A. 36.7 850 53? 1951 , 34,217 , 33,959 , 4,477 2,600 N.A. 33,000 1,751 595 96.0 65.5 N.A. N.A. 935 N.A. a. This figure is based on an assumption of a ratio of freight locomotives to 1 passenger locomotive in the inventory and a, straight-line extrapolation of estimates for 1910 and 1940. b. Two 2-axle units are counted as one 4-axle unit. - `~$ Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 i METHODOLOGY inventory, requirements, imports and exports, and current design 50X1 50X1 In general, the method has been strictly empirical. The primary purpose of this report has been to examine and to make estimates of the production of locomotives and rolling stock in the Soviet Bloc. Included as what might be termed necessary by-products of such a study are such items as organization, inputs, and technology. compared and integrated with all the other sections to eliminate arty incompatibility between the various sections of the report. In the case of production and inventory estimates, details of the methodology used for the USSR are presented in the text as an integral and essential part of the estimates, since only by reference to these methods can the graphic presentation of production and in- ventory estimates, shown in Part I, Section V, above, be understood fully (see Figs. 15, 16, and 17~- and 23,E 24,~--~ and 25-~~-x-). 50X1 50X1 Thus a production estimate issued by the Soviet ~ Following pp. 5~+, 56, and 58, respectively, above. ~~ Following p. 78, above. ~'~ Follo~ring p . 8~+, above . - 219 - Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 By further deference to the 1947 Census, it was possible to determine prices per unit of weight or amount of the various items of input. Then, finally, by applying the indexes obtained above against the price per unit of weight or amount, a resulting index of amount of input required per unit of production of locomotive and rolling stock was obtained. These results are shown in Tables 39 and 1+Q.* Table 39 follows on p. 223; Table 40, on p. 227. X1-HUM r 50X1-HUM Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 For purposes of estimating, the Soviet units of steam, diesel, and electric locomotives current]~y produced have been considered as being comparable, for input purposes, to units of these types pro- duced in the US in 1947. A comparison of the gross weight of in- dividual units of locomotives currently produced in tYie USSR and the average gross weight of units produced in the US in 1947 sub- stantiates this assumption. In the case of freight cars, the average US freight car is a 4- axle unit, and the inputs derived for these 4-axle units have been halved and listed as inputs per equivalent 2-axle unit. In the case of passenger cars, lack of time in which to make a similar estimate by reference to the 1947 Census has resulted in making necessary the estimate of inputs to passenger cars on the basis of freight car inputs, using a suitable correction factor. The tare weights of passenger and 4-axle freight cars are in the. ratio of approximately 2.5 to 1. Since the largest part of such cars is iron and steel in various forms, this ratio has been applied to a].l input items for freight cars to derive inputs to passenger car units. It is realized that this is not an accurate approxima- tion, but since the number of passenger cars involved as compared with the number of freight cars is small, it is believed that the error introduced by using this approximation will not materially alter the inherent error involved in making input estimates by the method of analogy. It should be noted that this so-called analogous method of making input estimates is subject to many sources of error and requires the estimator to make man assumptions. It is merely a first approxima- tion of input estimates, which must be followed by estimates which have been made by other methods and combinations of methods. It is, .however, a start toward the solution of input estimation problems. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Soviet Items of Input per Unit of Production of Locomotives as Calculated from the US Census of Manufactures, 1947 Item Units US Input Factors from 1947 "Census" Correction Factor Soviet Input per Unit of Production Steam Electric Diesel Stems Electric Diesel Agriculture m2 0.00164 0.00243 0.00174 none 0.00164 0.00243 0.00174 Labor man-Years 9.1 13.5 9.65 1.5x J* 13.65 19.50 14.50 Steel (Raw) ~ mt 164.39 218.10 192.51 none 164.39 218.10 192.51 Aluminum mt 0.59 0.87 0.62 none 0.59 0.87 0.62 Copper tTC 2.12 3.19 2.27 none 2.12 3.19 2.27 Coal ~ (Bituminous) ott 48.23 71.36 50.94 none 48.23 71.36 50.94 Electric Power kwh 51,300 76,000 54,400 none 51,300 76,000 54 400 POL (Fuel 011) J ' mt 7.63 10.9 8'.07 none 7.63 10.9 , 8.07 Rubber mt 0.21 0.315 0.225 none 0.21 0.315 0.225 Paper and Paperboard mt 0.0214 0.0314 0.0227 none 0.0214 0.0314 0.0227 Plastics Compressed and mt thousand 0.0334 0.0495 0.0353 none 0.0334 0.0495 0.0353 Liquified Gases l cu ft 4.28 6.3 4:53 none 4.28 6.3 4.53 F at Olass sq ft 738 1,100 780 none 738 1,100 780 Mineral Wool mt 1.82 2.73 2.06 none 1.82 2.73 2.06 - 223 - Includes raw steel equivalents of the following items:. rolled at eel, cast iron, cast steel, boiler shop products, sheet metal, lighting fix- tures, steel springs, bolts and the like, fabricated metal, pumps and compressors, blowers and fans, valves and fittings, wiring devices, mechanical measuring instruments, power tran?ission equipment, me- chanical stokers, measuring and dispensing pumps, machine shops, hardware, and internal combustion engines. Includes rolled and drawn copper and. alloy castings. . Includes anthracite and bituminous coal, natural and manufactured gases, and coke. All have been converted to equivalent tons of bituminous coal. Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 (Continued) Item Units US Input Factors from 1947 "Census" Correction Factor Soviet Input per Unit of Production Steam Electric Diesel Steam Electric Diesel Asbestos mt 0.30 0.44 0.32 none 0.30 0.44 0.32 Lumber thousand bd ft 4.17 6.17 4.42 none 4.17 6.17 4.42 Unallocated percent 14.65 14.65 14.65 none 14.65 14.65 14.65 Trucks 2-ton 0.0246 0.0365 0.0261 none 0.0246 0.0365 0.0261 Railroad Locomotives number 0.024 0.036 0.026 none 0.024 0.036 0.026 Rolling Stock 2-axle units 0.057 0.085 0.061 none 0.057 0.085 0.061 Motors and (}eaerators kw 110 1,800 1,410 none 110 1,800 1,410 Antifriction Bearings m_mmber 537 793 565 none 537 793 565 Capital Equipment (Not Elsewhere Counted) mt raw steel 4.02 5.03 4.26 none 4.02 5.03 4.26 Includes asbestos paper and asbestos gaskets. Includes products from sawmills and planing mills. Represents percentage of total in- vestment of industry which cannot be allocated to particular indus- tries. Represents yard-type switch loco- motives. Represents equivalent bearings of standard unit size.. Represents raw steel input contafrned in the following items: cutting tools, hand tools, hand saws and blades, abrasive products, indus- trial furnaces and ovens, and gen- eral industrial machinery. a. For the purpose of this estimate, it has been assumed that the USSR uses 1-1 2 times as much labor per unit of pro uction as does the US. This assumption is based on the fact that reports indicate that the labor force in the USSR is less skilled and generally less efficient in its work organization. b. The various items in this list have been converted to raw steel. This conversion is based on a factor of 1.39: that is, 1 ton of rolled steel equals 1.39 tons of raw steel. c. All items in this table have been converted to equivalent tons oP bituminous coal. Btu values of the items were taken as follows: anthracite coal, 15,100 btu per lb; bituminous coal, 14,400 btu per lb; coke, x.1,800 btu per lb; natural gas, 1,150 btu per cu ft; manufactured gas, 600 btu per cu ft. d. A conversion factor of 336 lb s""per barrel was used to obtain the result in mt. e. The number of antifriction bearings indicated here is the number of equivalent bearings of a standard size of 1 lb and a standard value of $1:50. The number of bearings used per unit is much fewer (on the order of 50 to 70 antifriction bearings per unit). -~5- Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Soviet Items of Tnput per Unit of Production of Rolling Stock as Calculated Prom the US Census of Manufactures, 1947 Item Units US Input Factor from 1947 "Census" for 4-Axle Freight Cars Soviet Input per Unit of Production Correction Factor ~ of 2-Axle Rolling 6tock Units Labor man-years 0.339 0.75 ~ 0.2543 Steel (Raw) ~ mt 19.154 0.5 9.527 Aluminum mt 0.018 0.5 0.009 Copper mt 0.018 0.5 0.009 Zinc mt 0.024 ~ 0.5 0.012 Coal J mt 2.544 0.5 1.272 (Bituminous) Electric Power. kwh 1,720.0 0.5 860 POL (Fuel 011) ~ mt 0.410 0.5 0.205 Rubber mt 0.0036 0.5 0.0018 Mineral Wool mt 0.062 0.5 0.031 Asbestos mt 0.002 0.5 0.001 Lumber bd ft 880 0.5 440 Plywood sq Yt 3,060 0.5 1,530 Unallocated percentage 16.1 .none 16.1 Antifriction of value number 12.6 0.5 6.3 Bearings Capital Equipment mt 0.098 0.5 0.049 Includes raw steel equivalents of the following items: rolled steel, cast steel, forginga, hardware, heating and cooling apparatus, boiler shop products, metal stamp- ings, lighting fixtures, steel springs, bolts, nuts, pumps and compressors, blowers and fans, power transmission equipment, re- frigeration machinery, machine shop products, and rai]road car parts. Includes rolled and drawn copper and alloy castings. Includes anthracite and bituminous coal, natural and manufactured gases, and coke. A]1 have been con- verted to equivalent mt of bitumi- n3us coal. Includes products from sawmills and planing mills. 3/8-inch-thick sheets. Represents percentage of total imiest- ment of industry which cannot be allocated to particular. industries. Represents equivalent bearings of standard unit size. Represents raw steel input contained in the following items: cutting tools, hand tools, and hand saws and blades . a.. A constant correction factor of 0.5 has been used to comrert from a -axle freight car to a 2-axle rolling stock unit. b. For the purposes of this estimate, it has been assumed that the USSR uses 1-1~2 times as much labor per unit of production as does the US. This assumption is based on the fact that reports indicate that the labor force in the USSR is less skilled and generally leas efficient in its work organization. c. The various items in this list have been converted to raw steel. The factors used were: rolled. steel, 1.39; forged .steel, 1.76; and castings, 1.08. d. All items in this table have been converted to equivalent tons of bituminous coal. Btu values of the items were taken as follows: anthracite coal, 15,100 btu per lb;' bituminous coal, 14,400 btu per lb; coke, 11,800 btu per.lb; natural gas, 1,150 btu per cu'Pt; manufactured gas, 600 btu per cu ft. e. A conversion factor of 336 lbs per barrel was used to obtain the result in mt. f. The number of antifriction bearings indicated here is the number of equivalent bearinke of a standard size of 1 lb and a standard value of $1.50. - 227 - 50X1-HUM Declassified in Part - Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  50X1 Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 Next 14 Page(s) In Document Denied Q Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3  Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3 SECRET Declassified in Part -Sanitized Copy Approved for Release 2013/04/24 :CIA-RDP79R01141A000200100004-3