SCIENTIFIC ABSTRACT VLADIMIRSKIY, T.A. - VLADIMIRISKY, V.V.

VIADIMIPSKIY, T.A., doktor tekhn.nauk Heat treatment of weldments made bor pressure gas welding. SvaT., proizv. no,ltl2-13 Ja 163. (KMA 16:2) 1. Vaesoyuzny7 nauchno-Issledovatel'3kiy institut zheleznodoro- zhnogo transports. Ministeretva tutey soobahcheniya. (Gas welding and cutting) (Annealing of metals)  ___YjADWMLM,__T..A. doktor tekhn.nauk Testing the susceptibility of welded joints to brittle feilure. Svar.proizv. noi7:39-41 J1 162. (KMA 15:12) 1. Vsesoyuznyy nauchno-isoledovatellakiy institut zhelezno- dorozhnogo transporta Ministerstva putey soobahcheniya. (Steel-Welding) (Welding-Testing)  h i, 6 2 S/135/63/000/001/004/016 A006/A101 AUTHOR: --Vladimirskly, T. A., Doctor of Techn[cal Sciences TITLE: On the heat treatment of weld joints in gas pressure welding PERIODICAL: Svarochnoye proizvodstvo, no. 1, 1963, 12 - 13 TEM The author discusses the results of an experimental investigation carried out by V. D. Taran, N. V. Bobritskiy and A. S. Fallkevich, who consider that brief-lasting heat treatment of pressure-welded low-carbon steel joints has no substantial effect on the mechanical properties of the welds. An analysis of the experiments performed shows that the method of.impact tests was not appro- priate and Insufficiently'sensitive. To Increasq the sensitivity of tests, It is recommended to select conditions where the upper limit of cold brittleness approaches the test temperature, by increasing the depth of notches etc.. This condition has not been fulfilled in the aforementioned impact tests, as narrow specimens (4 mm) with a soft notch have boon used. The selection of such spe- cimens resulted in the reduced sensitivity of the test method and did not reveal the positive Bide of heat treatment after gas-pressure welding. In fact, even Card 1/2  S/135/63/000/001/01/016 On the heat treatment of weld joints in... A006/A101 short-time treatment improves thd structure of welds and has a positive effect upon the ductility of the joints'when steels with diffdrent carbon contents are used. There are I figure and I tabl e. ASSOCIATION: TsNII MPS Card 2/2  TLADIMIRSKIYY T.A., doktor tekhn.nauk Effect of various factors on steel susceptibility toward brittleness. Metal-loved. i term. obr. met. no.5:25-26 Fq ,62. (MIn 15:5) (Steel-Brittleness)  3/1 35/62/GZ/J/0J')7/0 10/0 10 Aoo6/Aioi AUTHOR-, Vladimirskiy, T. A., Doctor of Technical Sciences TITLE-~ On the use of brittle-fallure sensitivity of weld joints PFRIODICAL! Svarochnoye proizvodstvo, no. 7, 1962, 39 - 40 TEXT.' The author discusses some conclusions drawn by M. Kh, Shorshorov and V. D, Kodolov who analyzed the notch-sensitivity of steel with the use of S-21ffiadt specimens having notches of different sharpness and hard inserts. (Ref. I- Shorshorov, M. Kh., Kodolov, V. D.: "Changes in the properties of low- alloy and carbon steels of the perlite class during are welding" - Svarochnoye proizvodstvo, 1957, no. 12. Ref. 2: Sborshorov, M. Kh., Kodolov, V. D.! ffNotch- sensitivity of low-alloy and carbon steels in arc welding" - Svarochnoye proiz- vodstvo, 1961, no. 8). These authors consider that changes in toughness depend- ing on the linear energy of the are, are similar for Menager specimens and for Schnadt specimens with notches of any sharpness. Data are tabulated by the author of the present article, concerning welding conditions and toughness values for specimens with different notches, which show that an estimation of welding condi- Card 1.12  3/135/62/000/007/010/010 On the use of brittle-failure... Aoo6/AIOI tions from impact tests of sharp-notched specimens may differ from results ob- '_.-tinP3 with soft-notched samples. This is In accordance with the theory that. the brittle. senstivtty of steel can not be estimated on the basis of nerlen testa w1th Mpnagki, specimens only; tho low critical brittle temp,~ritLurs In the ease of ~q zoft notch Is a necessary but insufficient condition for the low brittle- _~'~ns!tivlty of sharp-notched specimens. Toughness values of the weld-adjacent zone and critical brittle temperatures are compared. These data show that the -)valua-tinn of the weld-adjacent zone wltb the aid of soft-notched specimens is incompletA_ Due to the labor-consuming manufacture of Schnadt specimens, the alithor recommends for practical use standard specimens such as type I and IV GOST 94.54-60 specimens with round and triangular notches of I and 0.25 mm radius rpspentively. 'There are 2 tables. A3SOCIATION; TSNII MPS Card 2/2  VLADIMI'RW:jY.__T..A.q doktor teklin.nauk; VROBMVSKIY, R.V., inzh.; GLEBOV, L.V., inzh.; GODIN, V.M.p kand.tekhn.nauk; GUZOV, S.G., inzh.; GULYAYKV, A.I., inzh.; YERSHOV, L.K., inzh.; KOCMIOVbICIY, N.Ya., kand.tekhn.nauk; LMAVMUY, X.V., prof., doktor takhn.nauk; PATOIT, B.Ye., skademik, prof., doktor tekh~. nauk; RABINOVICH, I.Ya., kand.teldin.nouk; RADASHKOVICH, I.M., inzh.; RYKALIN, N.N., prof., doktor tokhn.nauk; SPZUOR, O.Sh., inzh.; KHRENOV, K.K., akBdemik, prof., doktor tekhn.nauk; CHRUiYAK, V.S., inzh.; CHULOSOIKOV, P.L., inzh.; SHORSHOROV, K.Kh., kand.tekhn.nauk; BRATKOVA, 0.11., prof., doktor tekhn.naitk, nauclmyy red.; BRIITBERG, I.L., kand.tekhn.nauk, nauchnyy red.; GELIKA11, A.S., prof., doktor tekhn.nauk, nauchnyy red.; KOIMRATOVICH, VJI., inzh.i nauchnyy red.; KRASOVSKIT, A.I., kand.tekhn.nauk, nauchnyy red.; SKAKUN, G.7.,.kand.tekhn.nauki nauchnyy red.; &XCLOV. Ye.V., inzh., red.; IVANOVA, K.N., inzh., red.izd-va; SOKOLOVA. T.F., tekhn.red. [Welding handbook] Spravochnik po avarke. Moskva, Gos.nauchno- tekhn.izd-vo mashinostroit.lit-ry. voi.l. 196o. 556 p. (MIRA 14:1) 1. AN USSR (for Paton, Khrenov). 2. Ohledy-lmllrespondentyAN SSSR (for Rykalin, Khrenov). (Welding--Handbooks, manuals, etc.)  __VL.ADIHMLSUr, TbA'.. doktor tekhn.nauk,- SELIVAROV, K,V., inzh.; kffAixOv --- o .- Ye. . tekhnik; KOLESNIKOV, L.A. , tekhni Gas-pressure welding of railroad train parts with acetylene substitute gases. Svar. proizv. no.12:28-31 D 161. - (MIRA 14:12) 1. Vsesoyuznyy nauchno-issledo.*%te.11okly institut zheleznodorzhnogo transports. Ministerstva putey ecobshcheniya. Gas welding and cutting.-Equipment and supplies) comotives-41aintenance and repair) t  11LADE-MILATY3 TiWion .1oksoyovich Khrupkost' Staley. ~*-.oskva, .':ashgiz, 1959. 232 (1) p. i-Ilus., diagrs graphs, tables. Bibliography: p. 213-(2335  35090 S/697/61/000/000/016/0!8 D D228/D303 AUTHORS: Danilova, G. P., Nalltsev,-M. V., poplavko, M. V. and Vladimirskaya, T. M. TITLE: Addition materials for welding titanium alloys SOURCE: Akademiya nauk SSSR. Institut metallurgii im. A. A. Bay- kova. Institut mineralogii, geokhimii i kristallolchimii redkikh elementov. Mezhduvedomstvennaya komissiya po redkim metallam. Vsesoyuznoye soveshchaniye po problems reniya. Moscow, 1958. Reniy; trudy soveshchaniye. Mos- cow, Izd-vo AN SSSR, 1961, 203-208 TEXT: In this study the aim of the authors was to create a high- grade Ti alloy with a variably modified structure in the cast state. Such material is necessary to eliminate textural defects hindering the full use of certain T! alloys in welded structures. Detail's are first given about the preparation of these addition ingredients -- Ti-base alloys with different contents of Al, Nb, Mo, Re, Ce, Card 1/3  S/697/61/000/000/066/0-a Addition materials for ... D228/D303 and B. Data on the macrosturcture of ca8t alloy specimens are then cited. They suggest that the introduction of small aMOUnts of B and B-Zr (~~ 0.1,,%') decreases the grain size of the alloys. But '.-,hie does not happen on the addition of Re and Ce, which instead causes marked granulation in the 8-phase decay products, A table gives the mechanical properties of annealed alloys; it is noted that the in.- troduction of B and B-Zr greatly strengthens Ti-Al-Nb alloy, as does the addition of Re to Ti-AI-Mo alloy. Turning to the questic-n of the alloys' behavior during welding and plaAic deformation, the authors adduce graphs to illustrate their experimental observa- tions. These indicate that the addition of Re greatly enhancea the plastici-'%-..y of the welded seam in both types of alloy: The seam'-- -hereby increased by approx. threefold. Here Re bending angle is t is believed to stabilize the B-phase. The authors conclude from the results of their research that three kinds of Ti-base alloy -an be employed as addition materials: 1.) with Al 3, Nb 5, and Re 0.1%; 2) with Al 3, Mo 4, and Re 0.05-0.1%; and 3) with Al 5~ Nb 5, and B 0.05%. The application of such materials will raise the qua'14Ty Card 2/3  S/697/61/000/000/016/018 Addition materials for ... D228/D303 of the welded seam and thus expand the employment of Ti alloys in I the production of welded structures. There are 4 figures, I table and 3 Soviet-bloc references. Card 3/3  16(2) AUTHOR: .-Vladimirskiyq V. SOV/2-59-4-7/14 TITLE: The Economy of the Countries of Peopl0s Democracies in 1958. Statistical Materials. PERIODICALt Vestnik statistiki 1959, Nr 4~ PP 50-74 (USSR) ABSTRACT: The author states that industrial production of all coun- tries with a socialist economy has increased 5 times between 1937 and 1958, whilst industrial production of capitalist countries has less than doubled during the same period. The socialist countries now possess about 1/3 of the World's population rendering 1/3 of the total production. They produce 50% of the entire g-rain yields and 43% of the cotton. By 1965 the socialist countries will account for more than 50o of the World's production. The author as- cribes this progress, in part, to the successful economic cooperation between the countries of People's Democracies. After this introduction, the author analyzes economic re- Card 1/2 sults for 1958 for the individual socialist countries,  SOV/2-59-4-7/14 The Economy of the Countries of People's Democracies in 1958. Statistical is Ifluterials. stressing China, where industrial and agricultural produc- tion increased in 1958 by 65% as against 1957, whilst capi- tal production for the same time increased by 103%. There Card 2/2 are 10 tables.  VLADJ1-IIRS~IY,_Y,,I..; K01ULOVA, A.A.; BAROYANTS, S.G.) rec.izd- -W- - va; IVALOVA, A.G., tekhn. red. [Hydrogeological principles for the prevention of the contamination of underground waters on sewage irrigated flelds3 Gidrogeologicheskie osnovy okhrany podzeuarjkh vod na zemledellcheskikh poliakh orosheniia. Moskva, Gosgeol- tekhizdat, 1963. 137 p. (MIRA 17:1) (Sewage irrigation) (Water, Underground)  VLADIHLMIT, , V, I. Problems of bydrogeologists relativo to the use and preservation of undergroand waters. Razved. i okh. nedr 26 no-11:34-36 N 160. (MIRA 13:12) 1. Voesoyazm" r-ilchno-iseledovatellskiy institut gidrogeologii i inzhenernoy geologii,- (Water, UncleriTomA)  .YLADINIRSKIY. V.I. Problem of the use of standard series'of equipment for raising - . water In investigative pumpirg. Razved. I okb.nedr 24 no.11.- 41-48 N '58. (MMA 12ti) /" 1. Veesoyuznyy nauchno-Iseledovatol'skiy institut gidrogeologit I Inshenernoy geologii. (Pumping machinery) (Water, Underground)  71AMMIPOK-TY, V.I.; 1,ill-INUIN, Ye.l. Pr,oblems of t~".q csntrol ;f th;~ depletion ar!l rf groizd waters. NaU!~-h, Ll-ildy AKYF rr,.27: 8G'-0)7 164. (MIN, !8.5),  VLADIMIRSKIY, V.I. 4' -.-- - -- - , Hydrogeological criteria in establishing sanitation districts for the protection of underground vater-supply sources. Razved. i okh. nedr 28 no.8:41-47 Ag 162. (MIRA 15:8) 1. Vaesoy-uznyy nauchno-issledovatel'skiy institut gidrogeologii i inzhenernoy geologii. (Water supply engineering)  11 1 11 1 1 A . U I i. 0,~. ~ Vladimirs SOV/132-58-11-11/17 TITL': To the ','uestion of a .ormal Series of "rater 'Aftine -iui:)=ent for Experimental l'umping (K voprosu o normallnom ryade vodo- pod"Ye"mnogo oborudovaniya dlya op-,rtnykh otkac!iok) F~.'-~ITOI ICAL: Rnzvedka i okhrana nedr, 1958, Nr 11, Lip 41 - 48 (UZ~SR) 4) ABSTRACT: The VSEGINCE01 Institute proposed a "normal series of water- lifting equipment" for the use of field parties in charge of testing the water, the filtration properties of the wells, etc. Tnounands of tests have been made with any available water-lifting equipment; very often inadequate or even de- ficient, The author, in colla'~oration with V.I. Selikhov- kin, elaborated this list (table 5~ according to different ypea of wells and Peolor-ical or other conditions. There are 5 tables. ASSOCIATION: VS2CINCE0 Card 1/1  152-58- -U j 6/15 AUfHOR: Vladimirskiy, V.I. TITLE: Ground Water Levels During Year-Round Irrigation WitIl Waste dater (Rezhim gruntovykh vod pri kruglogcdovom oroshenii stochnymi vodami) At PERIODICAL: Hazvedka i Okhrana Nedr, 19581 Nr 3, PP 37-45 (U6SR) ,, AB-6TRACT: The rise in population in many towns and industrial centers has caused the sharp deterioration of the quality of ground water and even of the underground water. The infiltration of pollu- ted sewage water and an increased use of these waters for the irrigation of the agricultural fields has caused this deterio- ration. Irrigation with sewage water greatly improved the soil and increased the yields, and at the same time, reduced pol- lution of the rivers. However, there can also be many nega- tive results of incorrect or badly conducted irrigation opera- tions, such as a complete pollution of water-bearing layer by excrements, the increased mineralization and deterioration of the quality of the underground water and a rise in the ground water level causing marshes. Lt present,there is in- sufficient control of such fields by the administrative or- Card 1/3 ganizations. The author relates the results of observations  132-58-3-6/15 Ground Nater Levels During Year-Hound Irrigation aith Waste Water conducted during the 1955-57 period on the fields in one of the kolkhozes of the Noginsk Rayon, in the Moscow Oblast'. Three experimental wells were bored, two in the sewage irrigated part and one in the naturally watered part of the kolkhoz. ,2he water level was measured constantly during a period of 3 years in all wells and a graph was prepared (Figure 3). It showed, that any rise or fall in the irrigated part immediately provoked corresponding changes in the third well. At the same time, che- mical observations were conducted in these wells. In the well with normal water the highest degree of mineralization occurred when the water level was at its lowest and receded when the only slightly-mineralized spring-water reached it. In the wells of the irrigated part the mineralization of the water increased with the water level. Slightly mineralized water filters through the soil, dissolves the minerals deposited there during the summer and flushes them into the wells. 71ith this increazed mineralization, the ground water is enriched by compound!i of nitrate, nitrogene and nitrite, and in separate cases, =.monium was also found. The causes of such a large mineralization of Card 2/3 ground water are as follows: an excessive irrigation by the  Ground .iater Levels During Year-Round Irrigation With Waste Water sewage water during a long time; insufficient planning of the irrigated field which allowed the formation of cavities where an accumulation of sewage water was formed; insufficient con- trol of the distributed waters allowing the accumulation of this water. Thus it is obvious, that in the planning of such irrigated fields, the interested organizations must work in close contact with the Ministerstvo geologii i okhrany nedr, SSSR (Ministry of Geology and Conservation of Mineral Aesources). There are 4 figures and 8 Soviet references. ASSOCIATION: VSEGINGEO AVAILABLE: Library of Congress Card 3/3 1. Water-Sources 2. Water-Contamination 3. Hydrology-USSR  AUTHORS: Potanin, D. Vladimir~3kij, V. 11:. 72- 58- 5- 3/16 TITLE: Glana fcr H~,uoin'~ andIrdustrialPurPoseZ v zhilishchnom, i tjLvoitel1jtv0) PERIODICAL: itozio i 1-'.'cc_naika, 19561 lr 5, PI) 7-12 A,WRACT: At pi-ejen I Viet induutry producco unnually 130 million ri 2 of window. s;.1iili ('11 M2 Of L.uirj ul'oeu j., I Lou , 1, 25 I!,ij I ion c1, of o::wita Slas-, and 2,4 Million 1:12 Of polijhed Class. In the current year 2 new large Flass facturies are to be Fut into operiation: the Saratov factory for polished lLs~i, reinforced Class and 077-late glass of' ,.L'e;;t dimulwioris (UP t04.5 x 3.2 m) and a, factory for windfw glass in theFar East . Aftcr the enlar~ gennont Of the Ulan-Udc, - ejkd iinzhero-Sudzhcn3k ~actorie'_' as viell as after the buildiiij,, of a factory ut Kaza'dis-,~Ln, t-he reLions of S-n- erjd~ the Far East aud Kaza,,hstan. -will I)e supp- lied with windovi ~;laauo of their ovin production. 2he 'L().[' glass is, ",owever, still preater than j..s (,utput and w-, 1 1 furthar increase with the buildin,-, of aparti:wnt.,j. Vic inc:~ of, window glawj is partly also caused by wron,,- u:;,-, iii buildif,(-, is described in detail. Besides window tlas3 liu:.ld- Card 1/4 ing materials and products made of elasS "ric-, u~;ed r-t p_-_-_Lu~,Lt-  Glass for Housing and Industrial Purposes 72 - 58- 5- 3/1 C 1. Products of fiber, as heat aLd sound erials in the form of sheets and mats; in the la5t, t,-.e production of blown gla3s fibers started and this --aunr:;d a cori3iuerable drop of price. 2. Glass plast-ics, un the basis of synthetic res-ins a-ad -azs fiber, in form cf yarns, mitts and fabrics. Some of itt; phyaico-mechan;Lcal properties a,-e -tentioned -n Z. tij,ble atj to ntrul,turul steel i-nd a1umi.,.u;,,. Tl-,i~y are light WId '3'21id, they are neithor aubjoct to nor to curz-osion, and they are not hygroscopic. Bxjerjmojit~; of the Otate Scientific Research Institute for Coal as well. as of the Laboratory for Anisotropic Structures of the AS USJR 8kiowed that glass plautics of the 3VAM type can be used for- supportine coal mines wUch could save j,-reat amount wood and metal. These materials can also be used for Lhe production of poles for high-tension transmission lines, building cc;r-- structions and others. 3. Glass pipes which have a great resistivity against the action of many acids, alkalies, organic solvents and other liquids, can successfully replace pipes of nonferrous -metals and alloyed steels. In the last years they were used in the Card 2/4 assembling of hidden electrical lines in apartments and houses  f or liouoing and Industrial Purposes 72-58 5-3/16 which saved many metal pipes . The Inst-itute for Gl-e-s3 'G- gether with the Institute for Sanitary Engineering of the Academy for Building Activity and Architecture are carrying out experiments at present for using glass pipes for glass- -concrete radiators in apartment houses. This would be a sub- stitute for cast iron radiators and would save Liuch metal. 4- Class parcels consisting of two glasi3 plates welded or stucl. to,-,ether, with herme-Lic and dehydrated air-interlayer which make it nossible to save much wood in building windows. 5. Glass blocks produced at the L;kopin Class factory (Ryazan, Council of National EcMOMY) are 194 x 194 mm in size. They are used in house building. U. Reinforced plane glass is produced in the Konstantinovka "Avtosteklo" factory, of the Gusev factory imeni Dzerzhins- kiy. 7- Reinforced corrugated glass for roofs. 8. Patterned glass for doors and windows 9. Colored tiles of elass 10. Heat absorbing glass for window glass in the south of the country. Card 3/4 11 . Building parts of glass in form of beu.,is, gutters, anGles  I Glaso fov Housing and Industrial Pm-poses 72- -5--*)/ lil and other pr9files. 12. Foaia glass for saving bricks. The.;.,o is 1 table. AVAILABLE: Library of Congross 1. Building ind,,istry--USSR 2. Glass--Production Card 4/4  LIKHACHEV, Yu.A.; VLADIMIRSKIY, V.S.; MALOVA, E.V.; SHULITS (mladd4ly), '.R.S.; - MAKAROVA, 'Z.A.; SINGHUGOVA, T.A.; CHUYENKO, P.P., reed.; FEWTOVA, M.I., vedushchiy red-.; DEMIYANEMKO, V.I., tekhn.red. (Paleozoic tectonics of the Kyzyl Kum basement] Tektonika paleozoiskogo fundamenta Kyzylkumov. Leningrad, Gostoptekhizdat, 1963. 117 p. (Leningrad, Vsesoiuznyi geologicheskii institut. Trudy, vol. 105. Problema neftegazonosnosti Srednei Azii no.15). (AIRA 17:3)  LIKHACHEV, Yu.A.; VLADIMIRSKIY, V.S.; MAIOVA, E.V.; SHUPTS, S.S. Basic characteristics of the stratigraphy of the Paleozoic in the central Kyzyl Kum. Trudy VSEGEI 46:22-35, '61. (YJRA 14:11) (Kyzyl Kum--Geology, Stratigraphic)  LIXHACHEV, Yu.A.; VLADIMIRSHY, V.S. Characteristics of the development of the f3lded structure in the Paleozoic basement of the Kyzyl Kum. Trudy VSEGEI 46:36-45 '61. (MIRJI 14-11) (Kyzyl Kum--Folds (Geology))  Ymdimirskiy, V. '. ",predleniye Razm,~rov ShakhtrVkh Foley I Standartnoy Dobychi Shakhty Kashpirskogo Mestorozhdeniya Goryuchikh Slantsev, Goryuchiye Slantsy, 1932, No. 7, 21 SO: Goryuchiye 61antay No. 1934-35 TN .871 .G74  SOV/120-59-2-12/50 AUTHORS: and Kalebin, S.M. TITLE: On the Stability of Rotating Ferromagnetic Bodies Suspended in a Magnetic Field (0b ustoychivosti vrashchayushchikhsya ferromagrLitnykh tel, podveshennykh v magnitnom pole) PERIODICAL: Pribory i tekhniVa 3ksperimenta, 1959, Nr 2, pp 1+1-45 (USSR) ABSTRACT: The forces acting on a rotating sphere suspended in a magnetic field are calculated and their dependence on the angular velocity of the sphere is discussed. These forces are then used to compute the trajectory of the centre of gravity of the sphere. It is shown that the position of the centre of gravity is unstable and additional damping forces must be introduced in the magnetic suspension if stability is to be achieved. Conditions which these forces should satisfy are given. Results of the calculations will also apply in a qualitative manner to magnetically suspended bodies of arbitrary form. These results are useful in the design of magnetic suspensions and explain the properties of such suspensions as Card 1/2 reported in the literature. The theory has been verified using an installation including a heavy rotor 25 kg in  SOV/120-59-2-12/50 On the Stability of Rotating Ferromagnetic Bodies Suspended in a Magnetic Field weight. It was found that the position of the body did in fact become unstable as soon as it was set in rotation. Beginning with a certain angular velocity the axis of rotation of the body becomes displaced parallel to itself (so that it keeps its direction in space) and its end describes a spiral on a horizontal plane. The rotation along the spiral is always in the same sense as the rotation of the body itself. To exclude aerodynamic effects the experiments were carried out in a vacuum. Card 2/2 The phenOMena Gbserved are well represented by the theory now advanced. There are 1 figure and 5 references, of which 2 are English and 3 Soviet. SUBMITTED: April 21 1 1958  V '. '. "ladluil K , Oborudovaniye Dlya Prokhodki Shakht, GoryuchiYe glantsY, 1932, No. 8-c) 21, No. 10, 32. SO: Goryuchiye ftantsy No. 1934-35 TN .871 .G74  VLLDD(IRSKIY V. V. NO doatavke slants& is saboya n& vyyev=hrWy shtrek*., P. 35 Goryuchiye Slantsy, No. 11-12,, 1932  I T - - Vl&-Jitrif-Sird~4 , V, I Sistemy Razrabotok Dlya Gdovskogo Mestorozhdeniya Garyuchikh Slantsev, Goryuchiye Slantsy, 1933, No. 1, 20 SO: Goryuchiye Slantsy No. 1934-35 TN .871 -G74  Vladl-pir--kiy,.11 .T!, 0 Sisteme Razrabotok Savellyevskogo Mestorozhdenlya Goryuchikh Slantsev, Goryuchiye Slantsy, 1933, No. 2, 6. SO: Goryuchiye glantsy No. 1934-35 TN .871 .G74  Vladim-irzidy, . i . Kapitallnyye Raboty Na 6dovskikh Olantsevykh "uinikakh V Plervom Polugodii, Uor-fuchiye Ilantsy, 1933 G., 1933, No. 41 34. SIJ: Goryuchiye Slantsy Ilo.1 1934-35 TN .871 .G74  , za-ii-J, rslciy, V .TT T v . Perspektivy Kapitallnogo Stroitel's gzlla Predpri.-vatiyakh Soyuzslantsa V Iv Kvartale, 'oryuchiye Ilantsy, 1933, G., 1-433p NQA' 5, 5. -- SO: Goryuchiye 6lantsy No. 1934-35 Tn .871 .G74  VLADI14IRSKIY, V. V.- TransLator, "Ispytaniye krepezhnol~o les ill by Irizh. M. De-Rokur, Goryuchiyc slantsy., 1935, no 51 20. SO: Gory-achiye Slantsy No. 1934-1.5 TN? .871 .G74  Via-dimirskiy, V. V. Rudnik-i. No. 3 1 4 ha Gdovskom Mestorozhdenij Goryuchik-h Qlantsev, Goryuchiye ~ldntsy, 1933, No. 6, 16. 60: Goryuchiye glantsy No. 1934-25 TN .171 .G74  Tekhnicheskiy Froyekt Pervyl-ji bol V,5ki~kh Gdovskikh 'Jlantsevykh Rudnikov, Goryuchiye Slantsy, 1934, 1 - 1, 18. SO: Goryuchiye lantsy No. 1934-35 TN .871 G74  Vladimirski-Y, V. V. it. P. Lal-oza Wlech&nical 1,1inning of Rook Coal" 1r,34, ro. ;,, 61. SO: Goryucbtye Slantsy Ho. 1934-35 TN .13?1 . G74.  Vladimirskiy, V. V. and Allamovich, li. A. Kashpirskiy Slantseperegonnyy Kombinat K XVII Oktyabryu, Gcryucl-,--'y--- Liantsy, 19314, No. 5, 5. SO: Goryuchiye SlontBy #1934-35 T11 .371 . G74  Vladiudr-Aly, V.11. Capital Construction In the Kashpir Shale Oil Combine 1934, tio. 61 4. SO: Goryuchiye "lantsy No. 1934-35 TN .871 .G74  --Vladimirsk 'L.-;-, - -I.t.v. Cost of cememting mine,-~.in the USA. 1934, No. 6, 12. SO: Goryuchiye Slantsy No. 1934-35 TN .871 .G74  Vladimirskly, V. V. Conclusion re comineut on the Review of A. P. Lakozis Book "Recl7rrdeal Minning of Coal" 1934 No. 6, 52. SO: Goryuchiye Slantsy No. 1934-35 T11 .871 .G74  '.'IAD174r RS)KTY,--V. V. Kapital Inoye Strcite2 I -- tvc "a 7,P--(- privatr.- 1--h 7. -1 ~--, ;, . . a . - - J, G, ~-~cryuchiye S2antsy, 10-15, Vo 2,6 SO: .,oryuchiye Slant.Ey, 1914-35, Tr' -~,71 '~ .74  VLADINIRSKIYj V. V. Transloatr, "Ispytaniye Kre-oezhnogo Lesall by Inzh. M. De-Rolcur, Goryuchiye Slant.-:~r, 1935, No 5, 20 SO; Gor7uchiye Slantsy #1934-35, TN .871 G .74  If 'I it 11 W 1% 14 If 4 W a ..1 Of aJ4 A A n' U W r'. A, _.L'_; 'A A-& _L_ .4 1 .- Sir I". 00 A 00 Is 00 00 .00 62. GAS &HISSION AND WHOD OF ROOF CONTROL. Vladialrokyj, V. 1. sof -C ~:~ . ~ -- . jugol (Coal)o July 1949s 6-8). _40: Vo Uport opinion in often divergentj some consider that caving is the 00 a best method for providing agninst outburst* of firedamp; while othersp VID 0 0 r Influenced by experience oblained In the "uhr, favour solid packing. At .00 res up to 150 kg/c.m.4 the greatest paA of the gas contained in Joe prosou )j: the coal in hold in an absorbed state. With decreasing pressure this 00 " ::f '3 gas is relenoed and my appear at the free outface of the coal. If an Ago 0 0 Increase of rock pressure brings about aschaniaRl disintegration of the coo og W caol, but not of the ancloolng rock walls, then conditions are faviourablo ass, &0 to the liberation of gas by sudden outbursts. Gas emission depends saL goo li-S the speed of advance of the face v0 on the gas pressure. Since the permeability of the coal near to the face dopedAetboaa large degree on Ce 0 f do* the pressure of the roof, the level of gas emission also in dependent a 1 300 A on this pressure. When stowage Is practised, the roof pressure in I hIgber than It to with caving especially immediately after the breaking 0 0 I to* t down of' the Immediate rcof. When there In a succiossion of seems being :M - "_ - '_ - - _' - - ' - - _'__ -_ -_ - -_ - .001 **At& 49TALLUNCKAL too IdA0413.d -T $if Iasi -11 owl -008 goo U 0 f0 is 000000000000000000 460690909009600000 0 0 0 0 0 0 fe IS Is 0 0 0 0 0 0 * 0 0 0 0 0 0 0 0 0 e 0 0 0 0 0 * 0 a 0 ki 0  U~Mlly 30_4% of the gas in the return air Is derived from MOMMIS workedo 00 other than that being Vork6d) go~,qtjjess the bmter part comes from 00 neighbouring 80=8. The extraction of coal lowers the preseure on 00 underlying strata, which provokes a release of adsorbed gas from *ease 00 so contained therein. The pressure of *free* gas then increases me that Is 0 go It may renetmte through the interjacent beds to the overlying strata. 00 0 Stokv4re, of course, u1nimises this d*oroaas of rook pressure to a :Z *0 certain extent, so that it abould be beneficial in the working of several 4 0 seams lying mar to one another* The most effective way of reducing gas 00 emission and securins! its uniftruity is to s#ract, the same simultan,. 00 sously or in close succession. The method of roof control does not offset 00 00 the eMesion of gas from an isolated seam. 00 go 410, so 00 0 0 00 00 00 00 00 00 00 of 0,0 00 *0 o ooe*ooooeooeo.*Oooo*o00000*00*ooooeo**oooooo 0 0 1 o 0 0 0 0 a 0 *:9 0 0 0 0 0 * 0 0 0 0 0 * 0 0 0 0 0 0 0 0 0 o 0 0 o a 0  21737 V V Ctv!A na rosl~~dnyuyu rej,~Iiku -,rnf. .4,a ("Po Povoclu zaT:ec"-,&-rjy V.V. Vladimirsicogon. Zhurn. nl,, No. 12) ~Taoj t 1949, No. 7, S. 35. 00: 1--t-o!.is'Zhirnal Inyld Etatey, !'0. 2Q, ""Oskve, 1-:)49  VLADIVIFSF'-rYJ* V. V. Mineral ItVaters - Zhelemovodsk Therapeutic -,,alue of the Zhelezrovodsk" ml.neral springs. Trudy Lab. gidrove probl. no. 8, 1950. - Monthly List Of Russian Accessions, Librai7T of Congess, Leceriber 1952. Unclassified.  "A BABOKIN, I.A., rodaktor; BALBACIIAN, Ta.I, redaktor; BARABANOV. F.A., redaktor; BUCHNEV, Y.K., rodaktor-, VLADI14IRSKIT, Y.Y., redaktor; GRIGORITICV, S. Te., radal-tor; DDXUk ZHABO, T.7. redaktor; ZAD)DIIDKO, A.N., redaktor; ZAITSZV, A.P., redaktor; IL'ICHEV, A.S.. redaktor; KAGAN, V.Ta., redaktor; KRASHIKOTSKIT, G.V., redaktor; KRASOZOV, I.P., radaktor; KRIVONOrtOT, K.K., redaktor; LALATANTS, A.M., redaktor; MOGILEVSKIT, N.H., redaktor; ONIKA, D.G., redaktor; OSTROVSKIT, S.B., redaktor, OSTROVSKIT, S.H., redaktor; PETSAKHOVICH, G.I., radaktor; POCIINNKOV, K.I., redaktor; SIRTACM 0, P.N.;redaktor. SKOCHINSKIY,A.A., redaktor; STUGARET, A.S., redaktor; SORKIN, K.I.; SURAT, V.K., redaktor; SOBOLN, G.G., redaktor ;TERPITOREV. A.M., radaktor; KHUDOCOVTS3ff, N.M.; radaktor; TSTPKIN, V.S., redaktor; SE3WAIMV, L.D.. redaktor; SHNSOV, A.A., rogdaktor;ANDREM, G.G., tekhnichaskiy redaktor. (Safety rules in coal and shale mines] Pravila bezopasnosti v ugollnykh i slantsevykh shakhtakh. Moskva, Uglatekhizdat, 1951. 207 P. (MLRA 9:1) 1. Russia (1923- U.S.S.R) Ministerstva ugollnoy promyshlonnosti. (Coal mines and mining-Safety measures)  the - g"'Ma 16, Ugo' fined . the distribution of gas In a mine arcwtjing fees, A opwth.1 hor -leg ttk- viol 4 K.t, from VARtic .11.1fts, sk4orl' JfiIl4' iddit~' '-tc. I i, M. Ilawil  III,, V.V. I'ane Gases Reversal of air current in Eas-filled mines. Ugoll O'~7 No. 70101 195-~ 9. Monthly List of Russian Accessions, Library of Congress, Cictober 1952 . Unclassified. Aw  1. VLADII.'IRSI(IY, V. V. 2. USSR (600) 4. Mine Ventilation 7. Ventilation during the reverse method of mining coal fields and sectiins* Ugoll 27 no. 10$ 1952. 9. Mo thly List of Russian Accessionso Library of Congress, January, -1953. Unclassified.  KUZIMICH, A.B., redaktor; BARABANOVA, F.A., rodaktor; BCMOV, I.Y., redaktor; VT.J'nTUTR-QrTY 7 1, redaktor; GRAFOV, L.Te., redaktor; DOMMIN, A.Y., redaktor; TIRASH110,-I.S., redaktor; Z&BIMSKIT, G.P., redaktor; ZAIZ- MIDKO. A.N., redaktor; ZAYTSEV, A.P., redaktoi~; ZASADTCH, B.I., redak- tor; KAGAN, F.Ta., redaktor; KRLSNIKOVSKIY, G.T., redaktor; KRIVONOGOV, K.K., redaktor; LALAYANTS, A.M., redaktor; HEIAMM, Z.H., redaktor; MIMLI$ E.O.. rodaktor; MOGILUSKIT, N.H., redahorl OSTROVSKIT, S.B.. redaktor; POPOV, T.T., redaktor; SKOCHINSKIT. A.A., redaktor; SKURAT, V.K., redaktor; SCBOIZV, G.G., redaktor; STUGARXV, A.S., redaktor; SUMCHE 0, V.A., redaktor; TIRPIGOREV, A.M., redaktor; SHEVYAKOV, L.D., redaktor; SHELKOV, A.A., redaktor; AIWEYEV, G.G.,tekhnicheakiy redaktor [Safety regulations in coal and shale mines] Pravila bezopasnosti v ugollrqkh i slantsevvkh shakhtakh. Moskva, Ugletekhlzdat, 1953. 226 p. (MIRA 8t4) 1. Russia (1923- U.S.S.R.) Ministeretvo ugollnoy promyshlonnosti. (Coal mines and mining-Safety measures)  1. VLAOIT111=113*11,111-1, 7, 11, 2. USSA (00C) 4. TSollveg, N. K. 7. On N. K. TSolIvr!gIr, article "Choosinr the length of stoixi in accorlance with ventilation require-ments for deen minest? (Ilugoll 1" 1952, No. 9). Ugoll, 28, No. 2, 1953. 9. Monthly List of Russian Accessions, Library of Congress, May -1953. Unclassified.  VILADINIHSKIY, V. V. Gerdov, M. A. Remarks to 1.4. A. Ger-dov's article -ri.e phy3ical nature Of 3Ud('en coal and ga5 ejection." Ugoll 28, No. 3, 1953. 9. Monthly List of Russian Accessions, Library of Congress, May 1953. Unclassified.  KSIN(FONTOVA, A.I., dotsent; VLAI)IHTRSKTY. V.V. otvetstvannyy redaktor; GRISHIYENKO, M. I., redV~or ~-KO~ROVE ~, 'Z.A., tak-hnicheskiy redaktor [Collection of problems on mine ventilation; reference data for calculations, examples with solutions and problems with answers. Manual for mining institutes of higher learning] Sbornik zadach po rudnichnoi ventiliataii; spravochnys dannye dlia raschatov, primery a reshaniiami i zadachi a otvatami. Uchebnoe posobie dlia gornykh ruzov. Izd. 2-e, perer. i dop. Moskva, Ugletakhizdat, 1954. 347 P. (Mine ventilation) (MLRA 8:3)  YLADIMIRMY, Y.Y. Characteristic of gas separation In a mine layer. Ugoll 29 no.5:11-13 Ky 054. (KLRA 7:6) 1. Gmi. (Mine gases)  21(9),24(0) PHASE I BOOK EXPLOITATIO, SOV,'-3:' Akadeadya nauic SSSR. FixicheaKly 1--t3titut Isaledovanlya po eksperimentallnoy I teortticneakoy fIZIkQ.' fsborni.~ (Studios on Experimental and Theoretical Ph7311CS; COII*CtiOn Or Articles) Moscow, Tzd-vo AN 333R, 19%. 304 P. Errata &Up Insertod. 2o3OO cOPI*jk printed. Zd.t 1 L. Fab lin3kiyI Doc or of rhyalcal and Mathematical 3,-1- t H use: A. L. Chernyak and V. a. Berk.Aaat, Rd&. :f Publishing ;; Tech. Zd.% YU. V. Rylina; Co~amlszlon for Publishing In* Co'.I"tl= In X"wory of Grigortya Samullovich Land3berg: 1. Ye. Tama (Chairman)a Academician, M. A. 1,0~Zovtch. Ac&do:31CI&n; r. A. Bazhulin, Doctor or Physical and Itathemactcal Scienc03; Mandel-ahtam, Doctor of Physical and Mathematical 3clem::s- ' L: Fabollnekly, Doctor OC Physical and Mattematical Scclen~a 1: P. S. LaAdsb*r&-BArY3h&nsLaya, Candidate or Physical and Math- amatical Sciences; and 0. P. Notulevich (Socret&ry). C^ndiosto or ~J ) Physical and Mathematical Sciences. PURPOSE: This book Is Intended for ph"IcIsts and researchers engaged In the study of electroampetic radix-Ions and tAoIr m~l* _11~_I,pvecttgating the structure and cozzpceitlon of mAterials. COVERAGE- This collection containa 30 sartfcies which r*yiew' invtatlgatlons In spectroscopy, aonlcs, moLecular optics, goal- conductor physics, nuclear physics, and other branches or physics. The introductory chapter glT*s a biographIcal prcrile or 0. 3. Landsborg, FMC03sor and Head of the rmp&rtm*nt or Optica 0fthe Division of Physical Teclmalo~y at 9~3-ow Unt. varsity. and reviews his w.;-: in Rayleigh acattering, co.bat gazes. spectral analysis or metals. etc. No personAlittos are mentioned. Rororenc*s accompany each Article. sn" BLhlin. P. A., shav, and Th. Work or 0. S. A Investigation or Trans. - a -70 rmation ;Ac*a#os n n ActIvatod DIsch3rEe Z:tn*rator Opera- ting Under Conditions of- I*. Arc Cur-rents leksan Y* A. P Alq~~ - - Kh Y Fl M. K"-nat- ! V I 1. Tyun-Wina a= A J Icazanskly. Re Pi'sallf"ItT- vi ~ ~nri E b of h* a zat-F-012=4ric 07CIOh6XAn4 an the Basis of a Combined Scatterlrg Spect, 43 Andreyev, x... Standing Sound Wavest of Large AcpIltuds 53 Boxhulln, P, A. and A- I- Investigation of the RoUilTo- i r th W z o e idth or Combirkod Scattering Lines to Tem. perature 56 ButAP-10, v~ -.and V-A FabrivInt. A Medium With NagatIve Abso ti C ffi on oe rp cient 62 _ TUAIRLUIclY V. V. Nuclear Tt;nvltlons In Nonspl--*rIcal Nutlet TI ' Optical Proportion of Substances in the Y~ = it" S.. so Vul, B M- V. S. Vavllov and A. P. Shotov. The q%m,tjon of Vullft*n, K. 3. New Methods or IncrossLn, the Effectiveness _ _ _ ' Of R a MTrd n Thermocouples I W p OLraburg. V. L. and A. 1AY%n=1k_ S.:atterln4S of Light Near '_ - 7P01ntz 0r 7t;8R Trans itlon of tho Second Type and t1jo Critical Curie Point 104 I" k:Vleh , M~ A. Irradiation of 4.1 Ziegtic Wall Vjbr*tjn4 U t der he A7CHon of 3t&ttstlc&llY Distributed P.,,.. rAvIn, L. M. The DInaing or Light by a Cloud M.. A_S. L. yAndalL&=AM, and V K0102hn"Ov - _G. The . r 8 B oadening atij hirting or tho spoctrsi-LTn-es-6f-j--G.s Discharge In Plasma IP8 _!!"I thev, V. I, and V. M. Mur"p. Invostigation of the jjy4ro. _ __ - T,OnW e06 1n SUbatimcma Whoso jaQloculqS Contain Two Ilydrwxyl Groups  "L 2W3_66 ENT(m)A. ACC NR, A%Ql88$4 SOURCE CCVE: UR753'6?7657oo2W.1ff7T1O94 ..AUTHOHt Vladisdrakly, V, V. ORG: Institute of 'Theoretical and EMrimantal Plysion aXW (Institut teoretichas i eksp~riwntsllwr fiziki GKIM) 1IM: Degenerate SU(4)-symmetry of atrong interactXffhis paper wa:p_ given the 14th Annual Conference on Nuclear Spectros wpyp Tbillsit Februr 27 196kj SOURCEs YadetnVa fitikaf v. 2, no. 6. 1965, 1087-1094 -TOPIC TAGSs quantum number, particle interaction, baryon, radioactive decay ABsTRACT: ' The assumption that strong interactiondWid dognerate with respe4 to one of the quantuil numbers of the SUM group leads to a significant re- duction of the number of states vith different ma3ecs, The degenerate SU(4) -super-multiplete.are similar to the SUM super-multiplets. There is only one superfluous mass in the regular 15-dimensional ropresentation:in comparison! to the octetp tw in the M-dimcnaional representationp alra" to th* baryon octot (01395#-1115 , and no superfluous mascies in the 20-dimensional repre-1-i sentation torrespon&! to the docouplet. Doubling the number of K-meson jOto obtain a phenomenological descrJption of the v ,states makes it possible L io- lation of OP-parity in X2 --v 2.77- decays aresting discussions an the given L.- .;The author thanks Ie Yhe Kobzarev for int modelc: 230~ ~~''o---Eks'ed-on-autho'r-lognga'abst.-7 fj_MJ7 1. SUB C ., 20, SUEH DATEt O4Jw'65 / ORM REF1 002 OTH-9EFt 03.8 109M Card I  L 38265-66 E-~iT(m) ACC NRs AP6028-0555 SOURCE CODE: AUTHOR.- Vladimirakiyp V. Ve s- ORG: In t t;..0 eoretical and Experimental Physics GKIAE (Institut teoreticheakoy i eksperimentallnoy fiziki GKIAE I TITIE: Free neutrinoftn space and the problem of CP-parity in the decay of K sup 0 sub 2 - mesons SOURCE: Yadernaya fizika, v- 3, no. 4, 1966, 781-783 TOPIC TAGS: neutrino,, K meson,, radioactive decay, parity principle, meson beam, particle interaction, space radiation ABSTRACT: When weak ko-mesons and neutrinos interact, k10 can regenerate in a beam of 1q-mesons. Such regeneration can lead to KJ-42 decay,, which would violate CP- parity; but it is shown that with the expected neutrino flux densities the effect is too small and cannot explain the observed intensity of the forbidden decay. Although coherent regeneration of KO masons on a neutrino backgrowid should produce an apparent violation of CP parity, it appears to have no relation to the observed XLO-9 2 decay. The author thanks L. B. Okunt. 1. Ya. Pbmeranchuk, M. V. TerenVev anoy for interest in the work.- Oag. art. hass 3 fomulas. [JPRS1 SUB 00DEs 20 / SUBM DATEt 20Dec65 / ORIG REF: 001 / OrH W: 006 CaNd  6960000 004 0 00"MIS Also racreat'll, .b.% 00 OOA Va. Terirtzkiy (1-. N. Lch"Ify Myc-IMIC-Aftill &I tr SS It . M,.mw r4st. Alftiv.). iiis--.Sci is UM-M o , IM)(In R ).-TIseWrt". M" the hinstein. 'kn(AuClOwAl to"011111 for the ff"a 4qwe dispitwement f o a particle is vww Gay for sufficiecitly kag inwvv& of ime 1 a new ibewy 12 develo ed k din t , a o a mon eomplex p g 00 Imuk" vslid for Ami dwe intes-vWs, In the devvisop. , 8 00 111"11, tokrs twinuln fur The ?Env asetillif laft th. pairlit'le In On duid medium is replaiewd by The nwr t"llpicte 4 0 0 1-uk of Bossed" (19L13). The Oanstein-lAncrvin formulas f- tb4 ustan nutift dimplacangist Is sbwn to be As 00 Speew caft of the waict expraggim gad to only to Than so n, 91OW 11"ART 'sa- $.logo on, Q.t ttsisal OK GOT Aft , -L-,-Z- I - ; ; ; rw a a 0 1 w IN 9 a 4 3 t U Is hip -0 As;; a & 11 ; 01 IN 4t 't tg " it a *oo:::i***Ooo:QQ*oqooooo* 0 000000*00000000000 'a-'6 a 0 a 0 1 0 0 0 a 0 4 0 0 0 0 * 00 00000000000-9-&&1006A0 00 "00 *00 :2o0 -00 0 0 too "0o 2 go 9 1:00 goo goo -jo 0 woo to o  ot Vi 10 0s A OOA 0,0 A O*A 00 00 00 Ogg 60- 0 Chain of Cylln- V. V, Vladup!f- skii. Zhur*41- rekhmiekeinli"i FWW- (Journal 'of Technical Physics). v 17, Nov. 11147. 1). 1209 1274. Phase and irroup YtIocities of electromagnetic wave propagation along a chain of cylindrical endovibrattirs interconnected by small openings calculated. 00 are 8 Litt 00USS. CCAUNIKATIGN 1 114143414,- , , . I.. 11.1 . 1, - - -~ . z-M-F I ?1 Wo- 1.1, .-Y., , . I (S-1 =00 r-00 roo 00 0 WOO goo goo XOO too No's 33 i-00 00 -00 U 9 Al~ 10 ISIj 4 - j ~ j j a An A 1 9 500 0 91W410.643,ev, 40000 Oolooooosoooooeogoovo00100000*00*0000*0000 OFT .116*:*0000000009.906,000 00000900000,0*000eo.ooo  -,if i I 1011tillu"Jollif fob a "r 6 A I 'v ~ I 7Y'-" ZA a C a _4 - i ~ I - L- to0 A r, - - , ~ , I ..' - ~ _ .. -!-too 11,11 P#1~0041111% 'W'F$ lee oo: lercowwdim tj 1116HOW Elecirm" L531810 V~ V. loss Ream of Sma (In R, (Jour. 171adim ~jj. zhur-ptal Tekhnkkexkoi Fil-ii-i *9 0 nal of 0 nical Physics), v. 17, Nov. 1947, p, 1277- 00's 12?1111 abovc are derivall. coo Formulas for the CoSo go st i see K 'A!s'%LA 411W.URCK&A, LOURATIFIC C1.41SWICAYMN vie* gii4 of 40"Any lie IVAG6,; wit o"I4at spoilt *a aw. jT, U Is AT* No i is a fw *0 01 1 v 3 a IF 00 ""0 to &lot?** oil its Kin HZIAR I YA : 0*00** 0 0000 -4-0#_010-0-0 ve-9 e0 0_0 ***:::*so  -W-W W W-1 41-9-9-9-9- -W-W I f-11-26-1.6 I - f v a 0 a 1560. The, Iffoat of the larth's Xseutle FI*M of Largo Auger Obovorep V. Vladialraki. Zhwnml 01MINWaial 'Doi I 11exaUghw Finiki l#-j'j-.JOj4Ol1 1940, (In Ruselan) The spectrm of a decelerating radiation of fast electrons In the magnetic field of the earth Is examined. The Influendo of the multIplisation of the oodoltratinS quanta In the atmoopbe" ;ji on the total number of particles in an Auger 0ower, induced IV ooj !, electrons, Is datemined. If the eviergy of the primary electron In greater than 2 x 1018 *vp the 4*oeleratlng qwmta give more the particles at sea level than a primary bleetron retarded by earth's field. 61111ALLOPOKAL L1114AIUAR CLAISOK AIMIN Itoo" 11911164." it im, 4.4 COM.1 is, 7_r--r-111- -V-"- r.W K 19 K 6 it 60 :10 0 0 00 00 0 0 0 0 0 0 a 0 a 0 0 0 al 0 0 0 6 0 41 0 0 0.0 a* 200 rv to see  its bt-I 4'If It 00 -00 0 Nyl =ZPA"YWRIUM~8 L a.) 0. 6wsl(lvm).- 710 - = oot - " H low, NY . Ir of 7 00 00 .00 '6*11 zoo 000 .00 ~ 00 43 ' 00 00 As so see "Oo J A. S L A INTALUMC&L Lffg*&TM CL4UWICATM Iw SIVIN Iva $Pont SOMARV 0 -h Illuma w GKV dot 01111ful Mill OK GMT 111 0 U U A* 10 AS 1 ; ;.ITO.610*44 myll IVA x9allin ml; IN' T 0400041 00000000*00006 0 0 40000000000000000  006 '.? I tools r0 $of-utim" a it v ja a a 11 a 0 eve V a - _J__ A A a r. a _L_j A.. A_L_ I A L. a- r it 't I AM 81 JI J-1-At M, CC, JP A ___& 1, A -"go **A (ftf#. - - -1 -00 004' 019 ir oes :_:O6 37J4- Ab"rPdm Of 8 WOM In m Aquestm Hjg 4 -00 0 38"MM00- V-_VJMdhft1nOW Sod M. GOMMM. J. of Emp, *Aod Tkmr.. .00 PhYst". U.S.S.R. 0. 1. 03-SK IM. ill Rwsisp, go* -The *pow "Wtbw Of mmmftg bftmww CA "Pormsic w4vft - applied to deter- .09 Mine the absorption Of WaVeS of frequemies (mm 1190 to lilla jAC.jW. in a** An aqueous emulsion of H9 (unitom pankle miss of 0. 11114, volume concen. a** tration 4 X Uri). The mults wt4 In good agreement with theofy. D. S. 2see of coo ~- .0"I 00 Ott. C _41110 ad out 411 ;o 0 it 1 11 Is 0 6 1 ~SA I v tw 0 a U a Av no IS a w n to U, OP it K 19 19 9 n I n I i K4 MOW OP 4 0 a 0 0 0 0 0 9 0 0 9 0 * 0 0 0 4 0 *1* 9 0 0 0 0 0 0 4 0 0 0 * 0 6 0 :i T4 0 0 0000 0 0 41 * & 0 a a & 0 0 a 0 0 01* 0 0 e 0, 00 0 0 0 so 0 0 00 00  & t F a I **A 000 V~O'Cffl%ll Ak* P10019flIS IkOf. OOA oodj 004. 11 off MA*CW- 'at,-Cd- wwastwb- 41 ""d lis Uluku. hwetphys. (U.S.S.R.) 004 cf. C A &I 4&47'--Thmtt--MAtk- goo A thennodynamle fmncl6;*Is lntrodwvd by M&M of 000 hkb njol. IGj~jw at larp distarom and Its Influnce 1-00 .400 004 md provisigatiom and other DOMQuil. PrOm"" No 00w be drid. Further, the total int of wattered 118ht coo and be rclative tutetWtkv of thrilillvidual Once of the go 0 004 fine structure are c*nA*ftd. llxPts. to test the theory 04 it art In progre". If. Rathmang 600 goo Coo goo "Oo goo woo moo iL~-sa I are woo 40, $aided "it dkv M --- vb" 10 a a,, 16 VIT 0 o 0  :MICOMIllt, VVI Aced. Sts. 841*"k V, vladinij II.R.S.S., 1941, U. t 5 shown that tile Rayleigh line of an optically aelotropk crysW consists of 24 satetlites with changed frequeacks. and ow with the primary fratimacy. Under certain conditions oome of the tines cohicWe. *.C..if an incident or scattered fight wave is propagated along the optical Axis. the zw. of satellites A roda"d. so that the Rayleigh line then has 13 components. Where thC Optical MC10trUpy is small. ilia satellites will group in fours, A. J, M  00 A 00 00 09 00 ee go me 00 00 W 00 0 0 a 0 0 0 0 0 0 0 41 0 0 0 a 0 41 0 0 0 0 0 0 0 0 0 0 0 0 0 0,41 0 0 0 0 0 0 0 0 goo 010 1111te.1ti! .. . ..... P401MIS AND PROPINT111 ..oft -a 0 UTUSI77 OF SCATTNM UCWT 12 OLMS AS anunow BY TWORATURN. V. V. Vladimir #W. r&VA. t&a. AW. ad. U.R.&J., 36l 235-36 (14W (in SWIM)) 9M. AMUAOA, j-7-9-- j649-- (194,3). - The abwr&aU7 high intensity of 'ight scattered In glass may be accounted for by (a) the t.ct that the relaxation time of fluctuations In the orientation of an1potrople molecules Is steadily 1weasing and (b) the fact that a glees with "froses-10 fluctuations, being nonhoso- geneous, sea give rise to an anlootroff of thermal eqwn- sion randoaly distributed. ThAS asuaise inner strains in the glass on cooling, and If the Period Is comwit:10 to those strains contribute to the scattering of light. 00 '00 '00 -go -so roe o we 0 ~b 0 'Wo WO 0 goo vo roe go. A n 7 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 40 0 0 * 0 0 40 0 0 0 a 0 0 0 0 0  0 0 00 0 U 11 14 '1 1. 11 It 11 A, 11 JJ to 14 A 1* 0 is r. k. 1; v 11 4, w v 41 Ile A,_j I L I A T A ~A Of CC W if 00 40 e: -60 IP 0 dmft dow@ - a K - -00 r d Mgm V. V. Vkxj N 6M j w *W -00 . p ("j M U . 'S.. I so mPI89 m be fm d m structu I a DM.U h b eate od F. R. G. 40 ;30 po a --4P 0 .00 - - - - - u it AV W3 V*ILAA1 slow o .1* 1 14 S * 0 40 0 0 0 0 0 0 0 0 00 *  PROPAGOITION n, TRr1Afqr,N;;r-,- IV-,," -Krw(7.- -71M.F. ift".F.-V. --A UWI"V-UF PAYS. Lot UnSit], I 4N. -1 10! vo 1. 8, 82. in English. Sum- 1%14. P-d miry vnly;* III .0" All III oq. 1-4, Ifull. do )'At. drs .lid, dr I rURS9. sirie 1'hrJiqJ1v, 1944) 'The excitation Of e eCtrnInMgnrtfr %Vaws in a I t!:i to infinitely long wite by crmcentratmt elCLtfD- r4jive torces Is exandnett. fhe soluliun Is reduced to i forin wItich permits one to carry out radio hPlamunication calculations for a num1wr of ,*'Practical cams. Afurrnulai.4givciiff)rtherfficivncy tmillclent when communication I,; carried out. ovcr r* Is single "lie."  !o. the registratlan ci.' coirieldences I-Cf hiqmlses. V. v un "kit and N'ti. V. Tr6qcj,-9 . Vill 'Chein. 'h"'r. i *i~. . . :1,rran;!.(:rmi~nt is dc~xril-ed wlik-li ulalccs it pc,s- or idlnt:fy ;odividually the 1.1"oultatic'Jusly -'r-If,illif i iti Li jArckL,f 11 unuterj. I lie ti-dinique iiisckl for tlio5e arringennunts ill which the c~ji;aj~~z Nr rcinuv(d ftwit the mst of the app.  V . 'i . , " 'J.'r"l 1., ~ ~!' , .". Y . , ~ ".,4 *, I!, 1l. .". , ,.. . - - ; ~ , .,. I , i U!, " 60, 11 1 ; . A. , and J". LL i-. - !i. A. j . 11 A 'eavy-i;a-,.cr i(esearch-teactor," a -,aper presente-i at tune Ato;%:~ for Peace ~ori-f'erence, -jerieva, Switzerland, 1,6~  VLADIVURSKIY, V. V., RADKEVICII, I. A. and Su~,~-LOVSKIY, V. V. "A Neutron Selector with the Mechanical Inteminter, 11 a paper presented at the Atom s for Peace Conference., Geneva, Switzerland., 1955  TWE w . 'o Ac i-T  VLADDMSKU, V.V.; RADKMCH, I.A-,', SOKOIDVSKIYP V-V- [Neutron spectrometer with a mechanical beam chopper] laitronnyl apektrometr a mekhanichaskim prery-vatelem. M*akva,, 1955.' 32 p. (MIRA 34:7) (Spectrometer) (Neutrons)  ALIKWOV, A.I.; VLA.DIMIRSM, V.V.; NI1dTIN, S.Ya. [Measuring the effective m=ber of seconda*y neutrons in U233, U235 and pu2-39 in the thermal energy region of neutrons) Izmerenie offektiv- nogo chisla vtorichrqkh neitronov urana-233t urana-235 i plutoniia-239 v oblasti teplovykh energii neitronov. Moskva, 1955. 2-1 p. (Doklady predstavlenmye SSSR na Mezhdunarodnuiu konferentsiiu mirnomu. ispoll- zovaniiu atomnoi energii) rMIRA 14t?) (Neutxons-Capture) (Uranium-Isotopes) (Plutonium-Isotopes)  ALIEMOV9 A.I.;,VIADRMSK37p__T,&j I ''' I " Io SYa,; GAIANINq A.D,; '- -- illkdd~q N.A. GAVRILOV, S.A.; B [HeavY water experimental reactor for pbYsical research] Opytmyi fizichask:U reaktor e tiazbeloi vodoi. Moskvaq 1955. 15 P (Deuterium oxide) (Nuclear reactons) (MIRA 14;7)  grms 53..534 ST!Pt;'z,AT-..C BEAMS OF is  V)-fkDlMRSK,Y, Correlation of polarization In JLUU-PA~-~ 104,  Basic considprat.JcmG oil the 7 GeV wid r,0-60 GeV A.G. orotnn s~-nchrotrons. C'SI',':-Sympc,jiv,m cn Hir-h Accoleratom! and Pic,rl phys i c r, Gerieva 11-2.' J=.e 56 In 131-a--ich 1111,5  VIADDURSKlY., V. V., SOKOLOVOKIY, V. V. aiid MMZEVICH~ Y. A. "Measurement of Total Cross Sections of Pd, Os, Ir, Vjo, In, Ta, Th, U-238 for Resonance Neutrons" a paper presented at the International Conference on Nuclear Reactions, Amsterdam, 2-7 July 1956. D551274  . - 1: , , ~ . ; : ~ 1 7 Il. . . !It- , - i, i I I 1 1 1 ~ I", i' : I I ' L' ; : , ' ') 7. 'If , ~ - 1, ) I.;:. ), 1. 1. ~ Ejection scl,eme for an A. C. 7 GeV riaclilne C on Hi-li EnerGy Accelerators and Pion Physics Gelleva 1-1-23 June 5.6, Ln Bra.,-.c?; i-5  Category : USSRINuclear Fhysics Nuclear Engineering and Fewer C--8 Abs Jour ; Rof Zhur - Fizika, No 3, 1957, tio 61o6 Author : Alikhanov, A.1.,.V1adi:-1irskiy, V.V., Petrov, P.A., Khristenko, P.I. Title Heavy ',~atcr Power Reactor with Grs Cooling.. Orig Pub Aton. onorgiya, 1956, No 1, 5--9 Abstract Discussion of the advantages of heavy wetor nuclear recctors, which mry turn out to be sufficiently oconouic for use in rtonic electric stntioriE. A reactor design is described, in whJI.ch heavy wrter Is used both r-s moderator end coolant. The factors affectinF the thernal power of the reactor end the efficiency of the power portion, i.e., effecting in the final analysis the clectric.power of the stovic electric station, are considered. ThG ruthors mtch the conclusion that the rtonic oloctric strtion can bo profitable if neturel urnnitL- is used, vccoi-ponied with doop burnup cnd nnxinw3 possible electric powor, with c. cartain reduction in efficiency. A noevy water power mactor with gas cooling is described. The use of gas in combination with heavy water noderator Card 112  1P I Category : USSR/Nuclor-r Fhysics - Nuclear Engineering and Fewer C-P Abs Jour : Ref Zhur - Fizikn, No 3, 1957, TNo 616 makes it possible to increase the stow.. prraretor in the secondary loop. The fuel eler-ents ere thin long wires of nrtural urcniur., covered with a cladding of light r-etals, ce.- peblo of withstanding a temperature of 5500. The coolent is carbon dioxide at a pressure of 40 -- 50 atmospheres; the coolant ter.porature.at the input is 900, end the output ter-- perature is 4200. The steam pressure Pt the turbines is 29 atmos, end the temperature is 4000. With the aid of auch a reactor one cen obtain in genorel steer with pressures of 90 atmorphoros and P tomporature of 4700. It Is plvnned in the Soviet Union to construct nn. atoric electric station of thic type having nn electric power rntinr of 100 -- 200 mw. Card t 2/2  VLADIMIRSKIY, V.V.; TARASOV, Ye.K.; TREBUKHDVSKIY. Yu.V. Double-focusing beta-spectrometer with high illu=inating power. Prib. i tekb. eksp. no.1:13-15 Jl-A9 156. (MISA 10:2) (Spectrometer) (Beta rays--Spectra)  SUBJECT USSR PHYSICS CARD 1 / 2 PA -- 1509 AUTHOR VLPI=RSKIJ,V.V., KOHAR,E.G., X11TC,A.L., GOLFDIN,L.L., KO WEV,D.G., MOIIOSZON,11.A., 11IKITI11,S.JA.' RUB611fSraJ"_:.m- SKACKOV,S.I., STRELICOV,N.S., TA:RASOV,E.K. TITLE The Main Characteristics of the Projected Proton Accelorator for ao-60 BeV with Strong Focusaing,~ PERIODICAL AtomnaJa Energija, .1, faso- 4, 31-33 (1956) Issued: 19-10-1956 The maximum energy selected is certainly sufficient for the multiple production of mesons and for the production of the antiparticles of all known types of elementary particles. With a particle energy of from 50 to 60 BeV the kinetic energy An the center of mass system attains 9 nucleon manses on the occasion of the collision of a proton with a single nucleon. The peak power used for feeding the magnet is about 100 megawatts. The weight of the magnet system is less than 22.000 t. For the stabilization of the phase near transition energy a system for the compensation of the oscillations of the length of the particle orbit is used in this project by means of which the critical energy is shifted to in- finity. With this compensation process the enforced oscillations of particles, the energy of which is distinguished from the equilibrium momentum, are used. E.-,very eigth magnet has an inversely directed magnetic field, and the order of this magnet is periodically changed. This compensation system makes it possible to attain rather high frequencies of the transversal oscillations of the par- ticles, viz- 13,75 and 12,75 per revolution in the case of radial and vertical  A"Vomnaja Energija, 1, fasc-4, 31-33 (1956) CARD 2 / 2 PA - 1509 .oscillations respectively. The maximuir, field strength in the orbit in from 10.000 to 12.000 gratedt and the length of the orbit in 1483 m. The main parameters of the orbit, the tolerances for the accuracy of the magnetic field, the data concerning the feeding of the magnetic system, and the moat important data concerning the high frequenry system are shown in tables. Among others the followine values are given: Total number of magnets: 120, radius of the curvature of the principal magnet: 166,1 mi permitted deviation of momentum: 0,5~61 permitted deviation of field strongtht 0;25A; duration of the increase of the magnetic field; 3,8 sec, 6 cycles per minutel maximum strength of excitation current: 12 000 a; maximum voltage: 8 COD V; peak power: 96 000 kVA; frequency of the accelerating field at the beginning and at the end of the cycle of acceleration: 2,624 and 6,068 megacycle respective- ly. The magnets must consist of 5 parts weighing 36 t each, but they have one ccmmon winding. The total weight of the magnets together with constructional elements amounts to 22 000 tons. The peak power of 100 megawatts is generated by means of generators with flywheels. A linear accelerator for 100 MeV serves as injector. The proton absorbs - 100 keV per revolution. INSTITUTION:  A D 1- All K -S K I V. .SUBJECT USSR / PHYSICS CARD 1 2 PA - 1802 AUTHOR RADKEVI6,I.A., VLADIMIRSKIJ,V.V., SOKOLOVSKIJ,V.V. TITLE The Measuring of the Total Cross Sections of Pd,0s,Ir,Mo,1n,J,Ta, Th, U 238 for Resonance Neutrons. PERIODICAL Atomnaja Energija,.I, fase-5, 55-70 (1956) Issued: 1 / 1957 Working out of results: The energies of the neutrons were measured by the method of flying-through time. The parameters of the levels were determined from the measured penetrability curves of samples of different thickness according to the ftrea" method. From the course of the experimental curve it is possible to determine the neutron width r by making use of the Inter- ference effect. n Results: Palladium: The levels at 13,25 and 32 9V were treated according to ihe method of the "surface of two samples". The resonance width determined from and averaged over the resonances 13 and 32 eV amounted to (220 + 63) mV and was then used for the computation of the other levels. As palladium is an element with several isotopes, the unknown relative -weights of the isotopes go into the re- sults. Osmium: The radiation width for the levels at 10,3; 18,8 and 22 e7 was determined. The average width of these levels is 67 mV and this value was used for the computation of the other levels. The data for all investigated reaonances are shown in a table. The authors, moreover, observed levels at 1091 125P 144~ 166 (weak), 208 and 333 OV. Indium: The authors were able to  Atomnaja Energija, .1, fasc.5, 55-70 (1956) CARD 2 / 2 PA - 1802 dissolve some levels that had hitherto been looked upon as units, into several levels. Also the results obtained in the case of the other elements mentioned are discussed in detail. Conclusions: From the experimental material (concerning 100 resonances) which was gathered here there follows, among other things: 1.) Radiation widtha do not change much from level to level and from isotope to isotope (palladium, iri- dium, osmium). Only in the case of uranium and tantalum is this change beyond the limits of experimental errors. The modification of radiation width ill the case of uranium cannot be due to dependence on spin because the original nucleus is even-even. Also in the case of tantalum a noticeable change of radiation width (from level to level by about 1,5 times the amount) was noticed. This small difference in widths can be fully explained by the spin dependence of radiation width. The average values of the radiation widths of the elements investigated here are in agreement with theory. The neutron width , even in the case of even-even nuclei change from level to level by the 101-fold. The distribution of neutron idths cannot be described by means of an exponential curve. The values Of P/5 change noticeably from element to element. Here 5 denotes the n average distance between levels. INSTITUTION:  VII  RADOVICE, I.A.; VLLDIMIRSKIT, V.V.; SOKOLOVSKIT, V.V. Neutron "ctrometer. Part 2. Transit time analyzer. Prib.i tekh. skep.no.2:9-18 3-0 156. (XLU 10:2) (Spectrometer) (Neutrons) (Blectronic instruments)  PARTICLE ACCELERATOR: STROVG-FOCUST1TG ACCELERATORS "Removal of the Beam from a Proton Accelerator with Strong Focusing at Energy of 7 Bev", by V.V. Vladimirfikiy, L.L. Gol'din, Ye.N. Danil'tsev, D.G. Koshkarev, and i".-N.-ge-yman, Pribo-ry i Tekhnika Eksperimenta, No 3, November-December 1956, PP 31-35- Examination of two methods of pulsed removal and one rethod of gra- dual removal of particles from the accelerator chamber. In the pulsed method of removal, the acquired additional impact is produced by the magnetic field of the current-carrying conductors. The removal is fa- cilitated by the introduction of a separator, which is a magnetic chan- nel with a large pulsed field. In the gradual removal of particles from the chamber, the natural oscillations of the particle are induc6d by means of parametric resonance. Card 1/1  TIADIMIRSKIT, Y.Y. ~, A variant of alternating-gradient focusing in linear accelerators. PiMl tok-h.skep.no.3:35-36 N-D '56. (Aft 10:2) (Particle accolerstore)