SCIENTIFIC ABSTRACT KOZLOV, G. I. - KOZLOV, I. G.

5/020/63/148/003/035/037, B117/Bla6 AUTHORS: Gulyayev, G. ~I., Polak, L. S. Khitrin, L. N., Corresponding Member AS USSR, Khudyakov, G. N. TITLE: Transformation of methano into ikcetylene in the argon plasma beam PERIODICAL: Akademiya nauk S33R. Doklady, v, 148, no. 3, 1963t 641-643 T E(T .In order to reduce the specific energy consumption during production of acetylene and to achieve a hit;h deL;ree of transformation of methane into acetylene, experiments were made with argon plasma beam. The latter was produced in a 15 kw plasmotron by a stabilized argon discharge ignited between a tungsten cathode and a water-cooled copper anode - Plasipa was discharged throu,-h a 3 mm jet into the anode. Methane was introduced into~ the plasma beam through special openings in the jet wall at an angle of` 900 to the direction of plasma discharge. Reaction 'products were tested chromatographically for content of If 21 CH4' C2 H6' C2H4 -and CA . The dependence of the degree of cracking of methane on its consumption was investigated at 280 a, a power of 9.5 kw and an argon consumption of Card 1/3  S/O"0/63/148/003/035/037 Trazinforination of methane into ... B117/B186 6C, l/min. The aiialy:,is of 6as specimens silo' d that the specific energy we consumptioa is lower in the center (along the axis) of the plasma beam than in the croca section of the total b.eam. A sufficiently high degree of cracking could be obtained at the equivalent of 5000 0C along the beam axis and a methane consumption of 30 1/min. In this case the specific * energy conautaption was 15 kwh/m3 C 2112per I Nd of the acetylene produced. 8 0,'Ik~? cracking in the complete plasma beam could be achie-ved only at a high specific consumption (- 40 kwh/m3 c 2H2) - This may be traced back to relatively high energy 10SBeS in the jet walls. Though the specific energy consumption could not be reduced by increasing the amperage (up to 435 a) a certain reduction of the same (down to 24,-kwh/m3 C H ould be 2 2) c achieved by using jets of larger diametera (4-5, 7 mm) and simultaneously increasing the plasmotron power (to -,,12-5 kw), as well as by shortening the electrode dista.nce. Experiments with 4.5 and 7 mmAets showed that the specific energy consumption would be about 13 kwh/m C 2H21 in a standard plaamotron of - 70~ efficiencY and an argon plasma beam* Further, possibilities of using plasma beams for endothermal chemical reactions are Card 2/3  S/020/63/148/003/035/037 Transformation of methane into ... B117/Bla6 here investigated: transformation of methane into acetylene in a 200-kw plasmotron with ar6on, hydrogen and other carrier gases; transformation t~k of propane, butane and the propane-butana fraction in the plasma beam; production of bound nitrogen in the pla3ma beam. There are 1 figure and, 2 tables, ASSOCIATION: Inatitut neftekhimiche3kogo ainteza Akademii nauk-SSSR (Institute of Petrochemical Synthesis of the Academy of Sciences USSR); Energeticheskiy institut im. G. M. Krzhizhanovskogo (Power -snaineering Institute imeni G. M. Yrzhizhanovskiy) SUBMITTED: October 13, 1962 Card 3/3  G"J." 11:f RR"", :"-I ,I g, ! ~'i; t h ~?. f" , !r,, f - . I . I ~.- . .1 . I . ... , -:~ " I I ~ )II I'd- I r- . . 11 f I : .. ? , :; . :1. " , 'i , 1 . . . . 1 1, .. . I . . I I I .  I 07;YF, M)ZLOV, C-T-; ot"I(Il ~tlsd Oc :31'ac", T- 1 ve rd - arL101.0- je, decoMPOSI '- 5--15'1-1: I, Illaz. i Gaza ser.  ALADIYEV, I.T.; ALEKSANDROV, B.K.; BAUM, V.A.; GOLOVINA, Ye.S.; GOLIDENBERG, S.A.; ZRIPERIN, D.C.; ZAMIARIII, A.G.; 17YEVIEV, V.N.; 0ORRE, V.G.; KOZLOY, 9,.1.; IEOIITIR-VA, 7-1.; LWtRKO!'fICH, !.M.; IYLRoVIGF$ .-K-.,f4ffflNEVICH, G.V.; POIIKOV, ~_J. OPOV, V.A.; M E E ; P PREDVODITELEV, A.S.; PYATNITSKIY, L.N.; STYRIFOVICH, %!.A.; TOLSTOV, Yu.G.; TSUKHANOVA, O.A.; CfRJKIIAIIOV, Z.F.; SHEYEDLIN, A.Ye. Lev Nikolaevich Khitrin, 1907-1965; obituary. Izv. All SSSR. Energ. i transp. no.2:159-160 Mr-Ap 165. (MIRA 18:6)  L 2!Lh201Z:~~ WZ-- AM NX, AloOM966 SOLK-101 CODE: Mt ~ 1L IM/000 ON Po2817, 02/0158/0159 AINMA: Alad'yov. 1. T Aleksandrov. B. K.; flar. V. At. G010 5-1 G011 an arc. A.- Zhimrin,, D. G.; Zakharin, A. 0 ; lyovlo;~, V. N.; Knorro, Ve Go; -a on yova, Markovich, 1. it.; Iloyorovich, E. AS; I opk:ov, Pyatnitskiy. L, N.; StZEIkovich, if. A Tolstoy, Yu. G.; Taukhanova, 0".1 Chukhanov, Z. F!j Sheyrdlin, At lee ORG: none TITIO.- Lev ?Wkolayevich Kbitrin Enorgetika i transport, no. 2. 1965, 1, -1 59 TOPIC TACS: academic personnel, physics personnel, combustion, carbon, high temperature research, plasma beam, fuel AMT,WT. PrOfOssorlL. N; hitrin Corraspondin-'Member, Acadany of Sclon~os USSj3, Stato Price La roa . an ctor of Engincerine Sciences, died after a short but severe illness at the age of 58. He was well known here and abroad as an outstanding sciontiot and 3peciali3t in'tho field of combustion theorY and flio development of mothod3 for GpoadinZ vp burning of fuel- He bocan his scientific woric at the All- Union Ileat Engineering InAltute after Craduating fron Ujo pIjyz;jc3 dopartnont of Moscow University in 1930. Ilia early worlk was on t1to preparation of flames in gases, and on hatororonous combustion. In ~1944 he defended his Doctor's Dissertation on the theory of combustion.of. car- Card 1/2 IM, 621.0,v4'o2  L 24077-66 AP6014966 bon. His monograph mCombustion of Carbon" was awarded the State Prita in 19~O., in lqjII ho be me the permanent director of the laboratorf for the intensvica., tion of combustion processes of the 0. H. Xr7.hizhanovskiy Power, Institute./ He was elected a corrospondinr, member or tho ACadW of scionroa U R in 195). He 'headed tho All Union Advisory Board on combustion, reprononted Soviet scionco 'at International Symposia, and was a manbor of' the Xntornational Institute of conbustion. For a number of year3, he directed the Hoscost geiieral semi-nar on ca,ibustion, and took an active part in the work of tho Scientific Council of 'the Acadcr;y of solence3 USSR, on high taiparaturo heat physics, and of the scientific council on the comprohonAvo utilization of fuel. He devoted a largo amount of attention to teaching work. He directed tho Conbuz;tion Divi- Gion of the Physics. Popartmont-pf I=cow S'Lite Univorsit~y~/ iFis monograph 0?hysic~o of Combustion and Ezioslonl;~1957) ia a basic text for students in this field. Three Doctorls Dissortationa and fifteen Candidate Dissertations wore defended under his direction. In the last years of his life ho directed work on mothods for comprehensive utilization of fuel at power stations so as to obtain valuable products from the mineral part of the fuel, as well as work on the physical chanical processes in a plasma stream, and thd tnociml&n of 'gasei* He was the author of more than 60 interaction between carbon end ,scientific works, for Aich he wav awarded the Order of the Red Banner of-.--.' Labor and modals. Orig. art. has: I figure. _rjPR_s7 SUB com 21, 20 1 SUBM DAM none  KOROSTELEV, V.M., inzh.,- CHALEMD, I.D., inzh.; KOZ1,OV, G.M., inzh. Micalla preconcentrator at the Georgiyovsk Oil E~xtraction Plant. Maol.-zhirqrom. 25 no.12:38-39 '59. (MIU. 13:4) 1. Georgi7ovskiy maslozavod. (Georglyovsk--Oil Industries--Equipment and supplies)  M531 S/032/60/026/011/021/035 B004/BO67 AUTHOR: 10zlov, G. M, TITLE: `~'S"=udy o~fStr`enggtR ~ad Plastic Properties of Metals by the Impact Test -V. PERIODICAL: Zavodskaya laboratoriya, 1960, Vol, 26, No, 11, pp. 1284--1266 TEXT: The author describes a series of devices for testing the properties of metals at a 4 to 800 m/sec impact velocity, 1) A pendulum machine for velocities of 4 - 6 m/sec. 2) A pneumatic device for velocities of 15 - 50 m/sec which is schematically shown in Fig. 2. 1: frame, 2: cylin- der with piston 3 and piston rod 4 into which dynamovieter 5 is fitted, 6: test specimen which is fixed between dynamometer 5 and crossbeam 7, 8: cylinder with compressed air, 9: pipe,. The compressed air is pressed into the cylinder space above and below piston 3, The space below the piston is separated from the space of expansion 10 by a 0.4 mm thick brass membrane. 11: The membrane is opened by cutting edge 12. The piston upon which a unilateral pressure is exerted is pressed down, with crossbeam 7 hitting support 13 and being braked. 14: regulating ncraw for adjusting Card 1/3  85531 Study of Strength and Plastic Properties S/032/60/026/011/021/()35 of I'letals by the Impact Test B004/BO67 the path of the piston. 3) Apparatus for velocities ef 300 - 800 m/sec con- sisting,in principle, of a 12,7 mm machine gun with which the bullet is fired through the tube to be tested., The specimen is shock.-loaded by means of a bullet receiver collecting the special lead bullets and transmitting their energy to the specimen connected with it. Various impact veloci'Lies can be produced by changing the charge in the cartridges.. Measurement data -are given fcr 30XH 2MAOOMM), 1BYJ43A('6KhNVA), 45f.0 (45F-hil), and 40/ (40Kh) steels. The different values of strength obtained with differen impact velocities should be considered in designing steol constructions. tx There are 5 figures, I table, and 2 Soviet references. Card 2/3  /011/021/035 Card 3/3 - - - ~ 1. -- -.- pc~r~ 11  BELYAYFV, I.A., inzh.; KOZLOV, G.N., inzh. Ways of modernizing pantographs. Elek-i tepl,tiaga 6 IC-2. no.1:7-9 Ja 15:1) (Electric railroads)  KOZLOV., G.N. VK-1 computer and "Feliks", adding machine. Geod.i kart. no.5s6l-62 w 161. (MRA 14:6) (Calculating machines)  KLIMEIITIYI;V, A.F.; KOZLOV, G.N. Some investigations in the field of engineering geodesy. (MIRA 14:9) 'Jeod. i kart. no.9:67-69 S 161. (Ulcraine--:~urveying)  _~OZIIPYI _G.N. Efficient way of drawing up topographic bases for planninge Geod.i kart. no.1171-75 Ja t63. (MIRA 16t2) (City planning) (Topographic maps)  IOZLOV' I.S.; KOZLOV, G.N. Catalytic amination of organic compounda. Part 4. Catalytic amination of mononitro compounds of the aromatic series. Zhur.ob. khim. 26 no.3:803-806 Kr '56. (KM 9:8) 1. Holotoyokiy gosudaretvannyy podagogichookiy institut. (Nitro compounds) (Amination)    KOZWVY N.S.; KOZLOV, G. . Action of piperidine on e-arylamino ketones. Zhur.ob.khim. 32 no.8:2428-2431 A 162. ~ (NM 15:9) (Piperidinel (Ketone)  KOZLOV, N.S.; KOZLOV, G.N. Addition of piperidine and morpholine to chalcones. Zhur.ob.khim. 33 no.7:2184-2188 JI 163. (MIRA 16:8) (Piperidine) (Morpholine) (Chalcone)  FRICE, E-V -, in7.h.; SU-1,ANOV1J.IY, kand.ekon.nauk; VA- Q za vypisk; EIOBIROW~, Ye.1N., kand.tekhn.nauk Brief in.Struction-s on ors?sn173tian and planninj- jrpthods for routinf, normal freight traffic flows. no.15. 4-19 159. (MIRA 14; 5) 1. Glavnoyf, pruzovoye, upravlenlye Minlstvr~-tva vutey s)obs1,cyCniya (for Krich).- 2. Vsesov-uznv-.v naucl,-~;--isslfdovatel'skiy institut 7,he3p7n.-dorozhnOvc) transporta Ministerstva putey soibsticheniya (for Simanovskiy). (Railroads-Traffic) (Railroads-FreiFhO  VASILEVSKIY, M.E., prof.; KOZLOV, G.S. Ballistocardiographic investigation in rheumatic fever. Vrach. delo no.9:16-19 S 160. (14IRA 13t9) 1. Klinika gospitallnoyterapii (zav. - prof. M.B. Vasilevskiy) Ydroslavskogo meditsinskogo instituta. (RMUMATIC FEVZR) (UUISTOCARDIOGRAPHY)  DOFdvMONTOV, Ye.N.,- KOZL(YV, G.S. (YaroslAvll) Ballistocardlographic examination3 of practically healthy persons. Kaz.med.zhur. no.1:63-64 J&-F'63. (~MiA 16.8) (BALLISTOCARD IOGR&MY)  KOZLOV,, G.S.; TYNYAFOVA, Ye.L. Cardiovascular system in rheumatic patients treated with ACTH and steroid* Vrach. delo no.7: 12-16 J1163. (MIRA 16:10) 1. Kafedra gospitaltnoy terapii (zav. - prof. II.E.Vasilevskiy) Yaroslavskogo meditsinskogo instituta. (RHEUMATIC HEART DISEASE) (ACTH) (STEROID HOINMES)  KOZLGV S. Clinical significance of the artalysin of the heart cont"an'L:.',-P-r- phase in theumatic fover. Terap. ftrkh, 35 no-501--~78 It;'163 ( ~ f'1 w, l ~, . i .2 ) 1. 1z kafedry gospitalinoy torapiA (mv. - p-rof. -',.E. Vas-de-:2;1~-Ly) Yaroslavskogo meditiinskogo instibuta.  KOZLOV, G.S. Functional state of the myocardium, in a primary attack of rheumatic fever and in chronic tonsillitis according to ballistocardiographio data. Terap. arkh. 34 no.10:64-69 OW (MIRA 1724) 1. Iz kafedry gospital"noy terapil ( zav. - prof. M.E. Vasilevskiy) Yaroslavskogo meditsinskogo instituta.  KOZLOV, G.S. Abdominal syndrome in rheumatic fever. Sov. ?led. 26 no.9,- 25-30 S 162. OMIRA 17:4) 1. 1z kafedry gospitallnoy terapil (ziiv. -- prof. M."'. Va3ilevskiy) Yaros-lavskogo meditsinskogo Instituta  f f -KO"QV G. S. GORELKINSKILY, Yu.V. - GRINMMI, I.G.~, AJif ferontial electronic polarograph. Zav . lab. 26 no.9:1141-1143 ,6o. (MIRA 11:9) 1. Inutitut yadernoy fiziki A'kaderaii rKtuk Kazakhakoy SL~R. (PoLarogr.iph)  a AUTHORS: Grinman, I. G.. Kozlov, G. S. S/076/60/034/03/026/038 TAlma-Ata) B005/B016 TITLE: On the Separation of the Faraday Current From the Capacitance Current in Differential Polarography I PERIODICAL: Zhurnal fizicheskoy khimii, 1960, Vol 34, Nr 3, pp 661-664 (USSR) TEXT: The capacitance current represents a considerable hindrance when alternat- ing voltage is used in polarography. When an alternating voltage U - E.sincat is applied to a polarogrAphio cell a capacitance current I a _j (0 C E (1) is formed. C a ~2). (C e -capacity of the electrode which is polarized. C e is between 20 and 40 pflem The capacitance current is superimposed onto the Faraday current in the loading resistance which is measured. The Faraday current is limited by the sum of the diffusion impedance Z D and the reaction resistance R K RT ;72 RT 1 (a - surface of the electrode; C - con- Z D ' n2F2 sc RK - n2F 28C k V centration of the substance to be determined on the surface of the electrode; Card 1/4  On the Separation of the Faraday Current 3/076/60/034/03/026/038 From the Capacitance Current in Differential B005/BO16 Polarography k - rate constant of the reaction). Equation (4) is written down for the total our- rent I which flows through the electrolyzer, considering the loading resistance RB. This loading resistance RB includes also the resistances of the electrolyte and of the current sources. Figure 1 shows the calibration curves of the dependence of current strength I on the concentration C at different loading resistances. It may be seen from these curves that, when using altarnating voltage in polarography, high eensitiVities can only be obtained if the Faraday current can be measured irrespective of the capacitance current. By applying a constant potential to the t electrode"the capacitance current decreases exponentially (and thus rapidly), where- as the Faraday current decreases more slowly. If an alternating voltage of the rectangular type is applied to the electrolyzer and m9asurement is carried out only at the end of each half-period, the capacitance current is eliminated practical- ly completely. This method of separation may be realized by means of a commutator (Ref 3) or a special electronic scheme (Ref 4)- In the latter case the sensitivity of the usual polarographio method could be exceeded by two decimal powers. A dis- advantage of this method is that it requires very complicated devices. Considering Card 2/4  On the Separation of the Faraday Current S/076/60/034/03/026/038 From the Capacitance Current in Differential B005/BO16 Polarography this circumstance, the authors investigated simpler methods for separating the capacitance current, among them the tvo-frequency method and the phase method. The principled the two methods is described. The simplest of these methods is the phase method 0The phase of the Faraday current is shifted by an angle of between 0 and 4; with respect to the voltage applied, according to the ratio between-RK and Z., whereas the phase of the capacitance current is shifted by 900 with RB - 0. When using a phase sensitive electronic measuring scheme (Ref 5), the Faraday current may be measured irrespective of the capaci- tance current. Figure 2 gives the calibration curves of the dependence of cur- rent strength I on the concentration C, for the use of the phase methodl figure 3 shows a comparison of the three methods mentioned for the dependence of the capacity current left after separation on the loading resistance for C - 0, Ce - 0.4 pf. The method of the rectangular voltage is found to yield the best characteristics. For practical purposes, however, the phase method is recom- mended, for which only 4 electron tubes are necessary. A description of the de- vice and some results are at present prepared for publication. There are 3 figures and 5 references, 4 of which are Soviet. C  On the Separation of the Faraday Current From the Capaoitanoe Current in Differential Polarography SUBMITTED: August 30, 1958 S/076/60/034/03/026/038 B005/BO16 Card 4/4  KOZLOV G S - MIIA)NGV - , # .2 , V.14.; DERESIIKEVICII, Yu,V.; BUKHARIP, Ye.V. flow heat-resisting ferroconcrete lining for a methane converter. Khim.prom no.5:377-379 MY 162. (IIIIU. 15:7) ZMathane) (Converters)  ACCESSION NR: AT4042419 S/0000/63/000/000/0043/0045 AUTHOR: Shostak, F. T.;'Vittikh, M. V.; SavellyeVa7 G. A.; Koz1ov, G. Be Malinovakiy, L. S. TITLE: The Influence of ultrasourid on the kinetics of Ion exchange SOURCE: Respublikanskoye nauchno-tekhnicheskoye soveshchaniy6 po ionnomu obmenus i Alma-Ata, 1962. Teoriya I pr6ktika ionnogo obmena (Theory and practice of ion exchange); trudy* soveshchaniya. Alma-Ata, lzd-vo AN KazSSR, 1963, 43-45, TOROC TAGS: ion exchange, ion exchange kinetics, ultrasound, cation exchange res!ln, anion exchange resin, resin regeseration ABSTRACT: An UZGI-1.5 ultrasonic generator in an auto-exciting circuit with three GU-80 tubes fed without recti'fying directly from a three-phase a.c. grid 1i was used in a study of the effects*of ultrasound on Ion exchange In an acid cation! exchange resin (KU-21) and two alkaline anion exchange resins (EDE-IOP and AN-1). The H form of the cation exchange resin,and the OH form of the anion exoange re- sins in 1.0 and 0.1 N aqueous solutions of KOH of- 1.0, 0.1 and.0.0) N iaous'so)Om ao tions of hydrochloric acid, respectively were ex'posed to ultrasound for 3, 7, 15, 25 and 45.mInutes with an intensity of 3.0 w/cm3 at room temperature. The tests generally showed that Imposition of an ultrasonic field Intensifies Ion exchange 1-_i n, the I ni t I a] stage, esper-I al 1y I n the f I rst 3-15 mi n. The ef f ect of the field  ACCESSION NR: AT4o42419 depends largely on the propprties of the resin and the concent.ratlpn of the solution. Regeneration of the AN-1 resin by 5% "2C03 was accelerated almosit 3.3 fold by ultrasound. Orig. art. has: 3 figures.. ASSOCIATION: Institut khiml.cheskikh n,auk AN Ka4SR (institute of Chemical Sclence's, AN KazSSR); K~azglpropishcheprorn SUBMITTED: .13Nov63 ENCL: 00 SUB CODE: GC NO.REF SOV: 00i OTHER: '007* Card'  GR I Wv! ~,T Isauk Grigorlyevich. Prinimali uchastiye: SAKBAYEEV, 7h.M.; DLY.AKH, G.I.; SHAGI-SULTATI, !.Z.; SI?AZUTDI,';OVA Zh.A - SHTWN, N.S.; Y-D-IMAGINIETOVP S.B.; -Konov, G.S.tdecoa3*e'd1;---- IMOV, L.G. ; OSHCKENSM-Y, VJI.; D7.'Unr NURGALIYEVA, Kh. PRESN"YAKOV, A.A., doktor tekhn. nruk, I otv. red.; ALEKSjljT DRIYSKIY, V.V., red. [Automation of nonferrous metal ore dressing processes] Avtor,atizatsiia protseosov obogashcheniia rud tsvetnykh me- tallov. Almi-Ata, Izd-vo AN Kaz.,SSR, 1964. 213 P. (MIRA 17: 10) 1. Laboratoriya elektroniki i a-4toi-atiki Instituta yadernoy fiziki A11 Kaz.SSR (fo all except, Grirman, Presnyakov, Aleksandri-yskiy).  13~' I'LD 11 1 :1 , 17 . ;' . - E 0'/,,[: GV (". '2. ; Grjl~,.. ~ it I " ") I. , ~ i " , V . , # Yp-?',,ird of 'r-,:7 r,-.v7,t I - - - ~ .1 1 .11 1 . .,,I .- - raff-ply1f, .Itructur-il usjn~, an el,,rj-ric digj-tr~l comPuter. Zhur. ntru"%. 6 rio.l:iZ.2-152 Ja-F 165. (MIRA 18.3-~) 1 . Vych!aEt,~d'.1,,ry *:'j !c, otdaltatAya AN SSSR, Novotilbl.rq~. Suirnti,l.ad Jlln,i, 209  KOZLOV, G. V. USSR/Flotation Ore Dressing Mar/APr 47 "The Role of Chips in flotati n," V. M. Arashkevich, G. V. Kozlov, Mekhanobr, Sverd- lovsk, 1 p "Tsvetnye Metally" No 2 Short discussicn of the effect of chips in ores during the concentration process. The presence of chips causes mechanical difficulties in the plant, absorption of the useful metals, and destructicn of the flotation process, especially the process cf selective flotation. PA 28T53  KOZLOV G.V. =OWN" Getting femiliarIzed with the diagram of selective coppar-zinc flotation at the Karabash Or@ Dressing Plant. TSvet. met. 29 no.8-1-4 Ag 156. (HLRk 9:10) 1. Uralmekhanobr. (Karabash--Ore dressing) (Copper ores) (Zinc ores)  137-58-5-8754 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 5, p 4 (USSR) AUTHOR: TITLE: Development of a Technique for Extraction of Zinc Concentrates from Low-grade Copper-zinc Ores of Levikha Deposits (Prak- tika osvoyeniya tekhnologii polucheniya tsinkovykh kontsentratov iz bednykh medno-tsinkovykh rLid LevikhinskoRo mestorozhderiva) PERIODICAL: Byul. tsvetn. metallurgii, 1957, Nr 11-12, pp 38-41 ABSTRACT: Up to 1955, the Kirovograd concentrating plant processed im- pregnated ores of Levikha deposits in accordance with a system involving collective flotation of all sulfides followed by additional crushing and separation of the concentrate into pyrite and copper fractions. In May of 1955, a system was set up which yielded Cu and FeS2 and a Cu-Zn product. A system was organized in which sulfide ores were processed separately, the Cu concen- trate and the FeS2 product being separated in the form of copper- flotation tailings. Several systems for additional crushing of collective concentrates were tested under industrial conditions The system found to be most effective involved the charging of Card 1112 collective concentrates into hydrocyclones with subsequent  137-58-5-8754 Development of a Technique for Extraction of Zinc Concentrates (cont. ) crushing of sands from the hydrucyclones and from spiral classifiers by means of a ball mill and, finally, channeling the output of both these units in- to the copper flotation process Additional crushing mus' be performed in a neutral or a weakly alkaline medium, whereas copper flotation must take place in a calcareous medium (150-300 g of free CaO per rn3 of pulp 50111- t Optimal consumption of depressants (75-80 percent for the crushing process and 20-25 percent for the additional refining of Cu colicertrate) con- sists of 600-800 g of NaGN per ton of ore, and 800-1000 g/t of ZnS04. Best results in separating ZnS from FeSz are achieved in an alkaline medium cc!-.- taining up to 1000 g of free CiAO per cubic meter of pulp, Consumption of CUS4 varies from 350 to 75-100 g/t, that of butyl. xanthogenate and hutyl frother amounts to 15-25 g/t, and that of flotation oil to 10-20 g/t. A, Sh I. Copper-zinc ores--Processing 2. Zinc ores--Separat-ion 3. Ores--Flotazion Card 212  KOZLOV, G.V. ..~ .1- Dressing complex ores in plants without using Pumps. Biul. TSIIN tavet. met. no.4ti&19 158. (MIRA llt5) (Flotation-Mquipment and supplies)  KOZLOV, G.V. Improving the quality of pyrite concentrates dressing yallov copper ores. Biul. THIN tevet. met. no. 11:10-13 158. (MIRA 11:7) (Pyrites) (Copper--Metallurgy)  KOZ WV. G. V. Collective and selective flotation of complex copper-zinr ores. TSvet-met. 33 n0-1-13-16 Ja 160. (MIRA 13:5) 1. Ural'skiy nauchno-issladovatelial-Ay institut mokhanicheakoy obrabotki poleznykh iskopayemykh. (Flotation) (Nonferrous metals)  KOZLOV, G.T.; BENIN, I.V. Bilateral congenital synostosis of the radius and ulna. Zdrav.Bel. 8 no.5:57 My, 162. (MIn 15:10) 1. Iz khirurgicheskogo otdeleniya Ruzhanskoy rayonnoy bollnitsy (glavnyy vrach - zasluzhennyy vrach BSSR F.A.Marinich). (ANKYLOSIS)  KOZLOV,-G,V- Dressing of Gay deposit ores. TSvet. met. 35 no.1100-35 N ,62. (KRA 151n) (Gq region (Orenburg Province)--NonferrouB metals) .A~v (Ore dressing)  KOZLOVP G. V. Economic Conditions !general crisis of capitalism and its aggravation In the present period. Vop. ekon. No. 4 1952. Monthly List of Russian Accessions, Library of Congress, August 1952. UNCLAS.-IFIED.  KDZLOV,, G v EPP .R93060 OBSHGHIY KRIZIS MIROVOY KAPITALISTI-CIIESKOY SISTEMY I YEGO OBOSTREMIYE V POSLEVOYENWfr PERIOD. MOSKVAj, IZD-VO MANITE, 1953. 46 P. TABIM (VSESOYUZNOYE OBSHCHES-TVO PO RASPROSTRANMIYU FOLITICHESKIKH I NAUCHNYKH ZNANIY- 19532 SERIYA 2, NO. 3) RUSSIA  WOZLOV, G v 1 782 Tovar i Denfgi pri kapitalizme (Goods ond moijey in cRuitnlism) IJOAvrk, y8q Gosnolitlzdat, 1954. 119 P. Bibliographical footnoteE.  KOZLC)V. G. V. -.- . Tho %trisctiwe of the economics course. Vop.ekon. no-3:4-96 14r 1.59. (MIRL 12:5) (Economics--Study and teaching)  VOTAKH, O.A.; KOZLOII, G.V.; WSSINEV, A-yu.; MKUTSKIY, S.P. Now data on the Pre-Cambrian of Turuk-hansk District. Dokl. AN SSSR 162 no.5sll23-1126 Js 165.- (MIRA 18s7) 1. Institut, geologii i geofiziki Sibirskogo otdoleniya AN SSSR i Sibirskiy nauchno-issladovatellskly institut goologii, geofiziki i minerallnogo sy-rlya. Submitted Decembsr 7, 1964.  Tu c uk I ll."'k n. n L'a ~, c-e C, r, c fj z~ il 'A r.., I-ns- ral I nogo s yr ya icvoo 1 b' r  KOZLOV O.Z. nt=!J- Maximum capacity, minimum weight. Znan. sila, 35 no. 12:4-5 D 160. (KMA 13:12) (Oil well pumps)  KOZLOV, I. Methodological cam-Itteed aAd mechanization. - ~ Prof .-tekl,-. no.1:11 Ja 161. (IIIFA 14:2) 1. Zaveduyushchiy metodicheskim kabinetom uchilishc1a reklr-nizatsii sellokoCo Ichozy.-.,.yOtva, Dnepropetrovskayn oblast'. (Dnepropetrovsk Province-Vocational education)  KOZLOVP I ; GRMIRGER, K. Model for the solution of mechanical drawing problems. Prof.-tekh. obr. 20 no.3:17 Mr 1639 (MIR& 16:3) (Mechanical drawing-Audio-visual ai4s)  -KOZLOVJ I. Seminar on the fundamentals of automation. Prof.-tekhn.obr. 19 no.11316 N 162. (KERA 16s2) 1. Zaveduyushchiy Dnepropetrovskim uchebno-metodicheskim kabinetom. (Automation.-Study and teaching)  KOZLOV' I., nachallnik. ~'- Health renorte of Soviet trade-unione. Prof.aoiuzy 8 no-7:13-19 Jl 153. (MLRA 6:6) 1. TSontrallnoye upravleniye kurortov, ounatoriyev i domov otdykha Vseso- yuznogo tsentralinogo soveta -orofsoyuzov. (Health resorts, Watering places. Etc.)  KOZLOV' I. Strictly observe the system for determining and paying social insurance compensation. Sov.profsoiusY 3 no.11:35-39 N '55. (KM 9:1) 1.Zaveduyushchiy otdalom Voesoyuznogo TSentrallnogo Soveta profes- sionalln,vkh soyuzov po gosudars*tvennomu sotsiallnomu strakhavaniyu. (Insurance, Social)  KOZIODV, I . " ... --1, The law on gover ent pensions and the tasks of trade unions. Sov. profBoiilzy 4 no~r:a-15 J1 156. (MLRA 9:10) 1. Zave4uyuq~chiv Otdolom Voesoyuznogo TSentrallnogo Soveta profes- sionallnykh poyuzov. (Insurance. Social) (Trade uniond  KOZLOV,,I. -.-I.I .. .11 - -FA Carrying out the collective agreement. Sov. -orofsoluzY 5 no-5:52-56 It '57. (KLRA 10:6) 1. Zamestitel' zaveduyushchego zhilishchno-bytovym otdolom Ukrainskogo reBp-ablikanskogo komiteta profsoyuza rabochikh chernoy metallurgii. (Krasuogorovka--Yirebrick)  KDZWV. I.; BATYG3, K. lxchange_of a7 erience vith Rumanian friends. Sov. rofsoiuzy 5 no.12:75 77 0 57. TMIRA 10:11) (4mania--Social insurance)  .:_ ~ It- EDZIA)V, I. Continue the improvement of the state social insurance system. Okhr. truda i aots. strakh. no.1;54-59 JI '58. (MIRA 11:12) 1.ZavedurmhohiV otdelom Vsesoyuznog* teentrallnegs soveta prof soyuzov..Po' gosudaratvennomu sotsialinomu atrakhovani*ru. (Trade unions) (Social insurance)  rozwv, 1. Health budget of workero. Sov. profooluzy 6 no.3:13-17 Mr 158. (MIRA 11:3) 1. Zaveduyuchabiy otdolom Vaosoyumogo teentrallnogo noveta prof- sovuzov po gosudarstvannom aotsiallnomn strakhovanlya. Onsurance, Social) (Trade unions)  KOZLO-V,. III.,.. This is the way to show concern for the people. Okhr.truda sots.strakh. n0.10:28-31 0 159. OGRA 13:2) 1. Chlen presidiums. Dneprop,3trovakogo obkoma profsoyuza rabochikb metallurgichaskoy promyshlonnosti. (Marganetz Region (Ukmine)-Miuing Nngineering-Hygienic aspects)  KOZT-Ov, _I. Iver7thIng for the man and for his good. Okhr.truda i sots. strakh- 3 no.4:17-20 Ap 160. OCMA 13-.6) 1, Zaveduvushchiy otdelom Tsesoyuznogo teentraltnago soveta profso.yuzov po gosudarotve=omm ootsiallnoma strakhovaniyu. (Labor and laboring claases-Kedical care)  KOZLOV, I. Our sanitariums should be the best. Sov.profsoiuzy 16 no.16; 31-33 Ag 160. (MIRA 13:8) 1. Rachallnilc TSentrallnogo karortnogo upravleniya profsoywov. (Health resorts, watering places, etc.)  KOZLOVY I. --- The today and tomorrow of our resorts. Sov. profsiouzy IP no.1:36-37 A 162. (IMLIM :5t2) 1. Nachallnik TSentrallnogo kurortnogo upra-gleniya profsoyuzav. (Health rcsor-U, Watering place3l etc.)  Komm, f. "Soldiers are made, not born." Koun. 3`11 1. no.15: 87-91 Ac 164. i-i i~`~  V 6-4 Eifi_ /C ACC NR. SOURCE CODE: UR/0401 6676-00/012 0031 .00311- AP70012 29 _F 'AUTHOR: Shovkun, I. (Engineer; Lieutenant colonel); Kozlov, I.-.-(Senior sergeant; !Re-enlisted service) :ORG: none !TITLE: Bombs are hoisted faster (Bomb loading dolly] 1SOURCE: Starshina-serzhant, no. 12, 1966, 31 TOPI.C TAGS: ord'sInce, bomb carrier, bomb handling device, bomb hoist, bomb truck A ABSTRACT: A lot-produced bomb-loading dolly has been modified by the addition to its movable fraiqe of a 130-mm channel-beam, inverted.U-shaped attachment (see Fig. 1). This modification greatly accelerates.and simplifies the loading of bombs. In the transport position, the bomb resis dn'supports. When the movable frame is raised, Card  Cord 2/3. AP7001229 T-7 L Fig. 1. Dolly for loading bombs. Kv-  i ACC NRs AP7001229 the bomb is lifted io-15 m and hangs on a cable rocker, from which pooition it Cal easily be shifted in any given direction. Orig. art. has; 2 figures. [WSJ SUB CODE: 19/ SUBM DATE: none/ An PRESS: 5110 Card. .3/3  KQZLGV,'-,I.A.; SHABLINA, A.G. Quantitative method r determining free aLkali in the presence of organic bases and Ali metal alcoholates. Trudy NIISZHIMSa no.3:23-25 162. (KRA 16:12) 1. Filial Nauchno-1661edovatellskogo instituta sinteticheskikh zhirozameniteley i moyushchikh sredstv (IIIISZhIIISS).  KOZLOV, I*A&, inzh.; SUBLINA, A.G., inzh. Evaluation of the catalytic activity of the alcoholate of monoethanolamine. Masl.-zhix~.prom. 29 no.2:Z2-23 F 163. (MIRA 16:4) 1. VNIISIIIZh. (Ethanolamine) (Catalysis)  ICOZLOVI 1. A. YA 75T62 i0i 140b"lolu~ I*i -164 1111 Apr 19h8 YAM Ina - Dr*p Onfectiveness of'Orandoldln When Administered in Cmjvnction With Sulfousalds Prqpsrstlona~ lp the vestment of Bacillary-weentery'n- A. L~Wdlna and I. A. Koslov, Cllnloal Sector,, Inst of Malaria, lied Parasitol ind-RobaintholAcad Ned Sol USSR, and S" m Mmfootlan, BWdm k Garrison Rdep., so NO, 2 pp WSOV VAdltslm* -Io 4 740'of,bombined. treatnefit-arsitly speeds up'recovery. Grouloldin C &Uo epee" up regmemtIon and oplthe- ilgallon, of d son arla ulpers in kidneys There we =,O*U from adolulaft*tion or  DOEROVINSKIY, R.N.; KOZLOV. I.A.; LEVINZON, A. I.'. Carrying of dysentery bacteria by healthy persons. Zhur.mtkrobiol. no.3:29-31 Mr 155. (MIRA 817) (DYSENTERY, BACILLARY, transmission, carriage without clin. manifest.)  KOZLOV, I.A.,podpolkovnik maditainakoy sluzhby Etiolog7 and clinical aspects of acute hamolvtic anemia. Voen-med. zhur. no.1:70-71 Ja '56 (MT-R 10:5) (ANEMIA, HMOLiiic' atiol. & elin. aspects) (Rua)  KOZLOV, I.A._ _ :_ History of the spread of brucellosizin Byrka District, Chita Province. Toz. i dokl.konf.Irk.goo.nauch.-is6l.protivochum, inst. no.2:27-28 '57. (HIRA 11:3) (BYRKA DISTRICT--BRUCELLOSIS)  KOZWV I *A 14 Diffusion of brucellosle In the Byrka District of Chita Province. Izv.Irk.goe.nauch.-isel.protivochum.inst. 20:153-160 159. (MIRA 13:7) (BYRKA DISTRICT (CHITA PROVINCE)--BRUCELIOSIS)  KOZLOV, I.A.; LEBFDFV, I.V. a-i,- - Experimental investigation of the stress condition beyond the plastic limit. Zav. lab. 29 no.9:1125-1127 163. (MIRA 17:1) 1. Institut metallokeramiki i spetsialInykh splavov AN UkrSSR.  ~,, 111 11 1, n-7h, ; KO:',l',(';"I' .1 . " I.; ~ , , , -.1 , y t ~ ~K! i 1:4, t r, ~, , Us!n~ i,,rei in for oit( -m'*rr-np. s,,,jt,, n non-entrijtinn -'p- 1~3! a r P,-l ~i .liinr):-,,tro(,r-,in - 0 ~?,) 165~  KOZLCV, I.A. (Kiyev) Invo3t1gating the carrying capac.ity of rcmponents In the area of very small elastoplaotic Fr-_"kj.. nekh. 1 no.4:44-48 165. (MTPA 18:6) 1. TnaLitut problem ma-terDA101'rC.A't, i,;.! t; In-  KOZLOV, ! . A. I Cand Tech Sci -- (disis) "Experiment,11. irlvestig8tiOll of the supporting capacity of rotor elements of a turbi-ne.11 Kiev, 1960. 13 pp with fiFures; (Ministry of Higher and Secondary Spec- Ialist Educotion Ukrainian SSR, Kievskiy Order of Lenin Polytechnic Institute); 200 copies; price not Uiven; (KL,19-60,134)  83852 A6. -W110 s/l11t/60/0OO/oo9/oo6/007 E191/E481 AUTHOR: Kozlov, I.A., Enginee TITLES W-Clon of the Load Carrying Capacity of Disc Made of Brittle Materials PERIODICAL: Energomashinostroyeniye, 1960, N0.9, pp-35-37 TEXTa The strength criterion used at present for rotating discs is based on the assumption of a uniform distribution, due to plastic deformation of the tangential stresses at the bursting speed. This mean tangential stress at failure is equal to the ultimate tensile strength. Previous tests carried out at the TsNIITMASh with discs of ductile materials have shown that eccentric holes do not reduce the strength by stress concentration. To examine the strength of discs made of brittle materials, tests were carried out with cast iron, "Perspex" and sintered metal, some with central holes and others with eccentric holes. A special bursting test rig permitting high speeds was employed. Of the 5 cast iron discs, 3 had a central hole only and 2 had only eccentric holes. A very brittle grey cast iron was used and the elongation at failure was found to be practically zero. Specimens for tensile tests and for investigating the notch sensitivity of the material were made from the same nielts. Ultrasonic inspection Card 1/3  83852 s/l14/6o/ooo/oo9/oo6/007 E191/E481 Investigation of the Load Carrying Capacity of Discs Made of Brittle Materials showed no defects in the material. The first three discs had a bore of 25 mm,an outside diameter of 340 mm and a thickness of 23 mm. They were mounted loosely on the shaft and bonded with bakelite lacquer as well as clamped lightly between two washers. The remaining disc has the same outside diameter but a thickness of 20 mm and three 12 mm diameter holes equally spaced on a pitch circle of 155 ram which were used for attaching the disc to a flange mounted on the shaft. The discs were run at 10000 rpm during 8 minutes and then speeded up further in steps of 1000 rpm until failure. The test results show that the tangential maximum stresses at failure computed from analytical formulae and, in particular, the maximum stresses in the regions of stress concentration for the discs with eccentric holes. always exceed the ultimate tensile strength of the material by a factor of about 1.4 in the disc with a central hole and 1.56 in the disc witi'l eccentric holes, referred to the theoretical maximum stress. In the latter case the actual maximum stress7 taking account of the notch insensitivity of the material, was only 12 to 20% larger than Card 2/3  83852 s/114/60/000/009/oo6/007 E191/E481 Investigation of the Load Carrying Capacity of Discs Made of Brittle Materials tq the ultimate tensile strength. Ultrasonic inspection showed that about 1000 to 1500 rpm below the failure speed, cracks appeared in the central most highly lopded part of the disc or at the stress concentration points. in prolonged operation of the discs or under repeated starts, a gradual development of cracks may be expected and failure could take place at a lower speed than in the tests reported. Tests with "Perspex" discs were evaluated in the same manner. They burst when the stress at the stress concentratio'n point reached approximately the ultimate tensile strength. The difference is explained by the greater notch sensitivity of the material, such that the effective and theoretical stress concentration factors are usually equal. A sintered material on a silicon carbide base was also tested which has no ductility at all and a large degree of notch sensitivity. The maximum tangential stress for these discs never exceeded the ultimate tensile strength by 10 to 20ye. No cracks could be observed before failure. There are 3 figures, 2 tables and 6 references: 5 Soviet and 1 English. Card 3/3  88216 z I Z-0 s/114/6o/oOO/002/006/007 E19VE155 AUTHORS: Kozlov, I.A., Engineer, and Lebedev, I.V.j Engineer TITLE: Stress Investigation of Rotating Discs by Means of Strain Gauges PERIODICAL., Energomashinostroyeniye7 196o,ANo. 2, pp. 40-1+1 TEXT: In order to correctly assess stresses in turbine discs of various shapes and having stress concentrators, it is very important to make actual measurements of stress and strain at high speeds. Tests with resistance strain gauges were made on a special s&eed-testing device on discs of steel grade W-415 (EI-415) of 3 0 mm external diameter, 20 mm. thick. The disc had three holes of 16 mm diameter, spaced uniformly at a radius of 75 mm. Constantan k . ".':train gauges were attached to the disc along the directions of main .'_-Vress, both radially and tangentially. Some strain gauges were piaced near the holes. The method of fixing the strain gauges and the experimental set-up are described. The leads from the strain gauges to the measuring equipment were brought out through a 20-Dosition mercury commutator. Mercury was chosen because its contact resistance is not much affected by vibration, which was In Card 1/3  88216 s/114/6o/000/002/000',007 E19VE155 Stress Investigation of Rotating Discs by Means of Strain Gauges any case diminished by connecting the device to the main shaft through a rubber tube. The tests were made by running the disc up to a certain speed which was held constant while the strain gauge readings were taken; the speed was then raised by a further thousand r.p.m. Prolonged operation at high speed raised the temperature of the disc and the commutator. The method of correcting for this by taking readings both at the start and at the end of the test is explained, also the method of calibrating the strain gauges. Fig.2 shows the relationship between the radial and tangential stresses and speed at various radii at parts remote from the holes. The influence of the holes as stress concentrators may be judged from the tabulated data which give strain in the disc at places near to and remote from the hole. Fig.3 shows graphs of total. strains in the disc as function of the speed, based on strain data obtained at different points on the disc. It is concluded that the method may be used to measure stresses and strains directly in the disc rotating at speeds up to 18 000 - 20 000 r.p.m., which is still not the limit. Card  88216 s/1l4/6o/ooo/oo2/oo6/007 E191+/E155 Stress Investigation of Rotating Discs by Means of Strain Gauges Particular care must be taken to correct for heating of the disc and comm tator. There are 3 figures, 1 table and 1+ Soviet references. Card 3/3  -32159 R s/096/60/000/012/003/oo8 E194/E484 AUTHORS-,~ Kozlov, I.A~ and Lebedev, I,V,,, Engineers TITLE-, An Experimental Investigation of the Elastic-Plastic Condition of Turbine Discs PERIODICAL;; Teploenergetika, 1960,'No.12, pp.23-27 TEXT,, In recent years, there have been a good many theoretical works on the calculation of the elastic,-plastic condition of turbi.ne discs but they only approximately represent the performance of the material because they are based on certain assumptions and have not been checked experimentally on discs, Accordingly, tests were made on discs using the tensiometric transducers developed by the authors to investigate the stress conditions of discs during elastic deformation. The strain gauges were made of constantan wire on paper and had a resistance of 170 ohms and a length of 20 mm~ The method of calibrating the strain gauges Is explained., The gauges became defective if the strain was greater than The discs tested are illustrated in Fig.2; in addition to the usual slots, they had three pressure equalizing holes and a ~~entral aperture for the shaft, they were made of steel grade .))tvA-415 (EI-415)~ The strain gauges were fitted at the edge of C a r d 1 //_ -)--"  32159 A s/o96/60/000/012/003/oo8 An Experimental Investigation E194/E484 the internal groove in the disc and at the edges of the eccentric holes where the greatest strain occurs on rotation. Special care is required in fitting strain gauges to discs running at speeds up to 1,4000 rpm~ The tests were carried out on the special high- speed rig in the Institut metallokeramiki j- spetsial3nykh splavo- AN TJkrSSR (Institute of Cermets and Special Alloys AS UkrSSR), rhe moving -.ontacts of the thermocouples were through mercury bath The electrical connection arrangements are illustrated diagrammatically in Fig.3, he instrumentation and necessary ~;Orrections are discussed. Cs-,aphs of tangential (Et) and radial strains on the disc at a radius of 31.5 mm are plotted in Fig.4, The hatLhed area corr-,sponds to the elasti_~-plast'L-:. condition,, theoretical strain curves assuming elastic conditions are shown by dotted lines, The theoretical curves wer25 :.al.:.ulated by the following fvrmulae Card 211_~  3 1? S/0qU0/000/012/003/CO3 An E.;--jjerimental Investigation ... E194/E48'i 3 + it y,.!' I + 31A - + 2 z 7T (I + b3 3a j, - a b a+ b' ( -r 2 8 9 F-7:0 +h fel - CS) + I 11 ' a'), F, 3 3a E2 - a 0 -,,;,here v, 0.3 is Poisson's coefficient; Y = 7.85 x 1o-3 kg/cm3 with specific gravity of the material; (j) - the angular speed of rotation; a - the internal radius of the disc; b - the external rc.dius of the disci c - the internal radius of the loading ring; e - the external radius of the loading ring; 6 - the disc thicl~ness; h - the thickness of the loading ring. In the region of elastic strain,calculated values of strain are in F ~Uff4ciently good agreement with the experimental and the greatest Card 3/ X,)-l"  s /o96 /60/000/0 1,2 /00 3/0 6 f'j An E194/r.,484 di-ferenc-,: door, ;iot exceed 9',"), The upper boundary of the elastic- plastic condition was determined on the basis of the theory of maximum tangential stresses and on this basis the following I formula is derived for the critical speed. P. 0 V L )COO ~-pr,,, there was considerable increas(- in tangen-j.. I srraiza ii~, cot-qpared with. the calci.,,'Lated values 1-;,,s s I I in olast--c t~t:zidiition, 'ihis is explai,',od th', :o che shape of the ton6ion cu--ve of the S-L;Ccl used. AL, a spec~l of ~tbout 12000 rpm, tangential strain of zhe- disc L~t pl'Ice of test iricroase:,j con'siderably and noticeable flow of icht~ material commences. Fig.4 also shows, by a chain dotted line, the stra-in curve when unloading the disc. Fig.5 shows the relat-Jonship between the strain in the zone of stress concentrati--- ztnd thc .~!";-,Pd for i ,.O~rai,n gauge ro. ~y (J;1 t1le di-Sc Card  S/096/60/000/012/003/005 An Experimental Investigation ... E194/E484 also shm.'s a line corresponding to the speed ol the di!,c i)ia!-itic . --rain commences at the edge of the hole. Evident of the started at a speed of about 13000 rpm. T"he of flow at the edge of the hole is indicated by a hallchci! ;"ig-5 also shows the unloading curve. There are D I.Igurcs al-~o 4 Soviet references. kSSOCIATION: Institut metallokoramiki i spetsiallnykh splavov AN UkrSSR (Institute of Cermets and Special Alloys AS UkrSSR) ,ard  FISARENKO, Grigoriy SLepanovich, doktor tekhn. nauk, prof.; Andr-o.,axieb ZRIKO-SEUB~111 kand. tokhn. nauk; SHUS Iu . , retsenzent; LUPAIM11, I.V., red. izd-va; STAIROIAM, T.A., tekhn. red. (Carrying capacity of rapidly rotating dicksIO nesushchei sposobnosti by.-tro vrashchaiuDhchikhsia. diskov. Kiev, Gos- tekhizdat USSR, 1962. 47 p. WIRA 15:10) 1. Chlen-korrespondent Akaderdi nauk Ukr. SSR (for Pisarenk-o2 Shubonko-Shubin). (Disks, hotating)  PHASE I BOOK EXPLOITATION sOV/6067 Pisarenkoj Georgiy Stepanovicht I,or' A -e ,,~,rl ~Andreyi -vie -,~Koz a Lc' - -h "S-121'si Georgiy Nikolayevich Tretly LeoiHia Vahrvevich Kravchuk., and Igor.VladiMirovilah'.Lbbedev Nekotoryye voprosy prochnosti lopatok i diskov gazovykh turbin; stoykost' lopatok protiv teplosmen j predeltnaya neaushchaya sposobnost' diskov (Some Problems of the Strength of Gas- Turbine Blades and Di a-k; Thermal Shock Resistance of Blades and Ultimate Load-Carrying Capacit-y of Dis k)o Kiyev, Izd-vo AN UkrSSR, 1962. 74 p. 1660 copies printed. Sponsoring Agency; Akademiya nauk Ukrainskoy SSR, Instlitut metallokeramiki I spetsialinykh splavov, Resp, Ed*: G, S, Pisarenko; Ed. of Publishing House: B. A, Gryaznov; Tech. Ed.: T. R. Liberman. PURPOSE: This,booklet is intended for engineers and scientific research workers concerned with problems of the strength of turbine parts. Card 1//k W -z-  Some Problems of (cont.) SOV/6067 COVERAGE: The booklet reviews problems connected with the deter- mination of the strength of the most loaded and important gas-turbine pert's -- dl;.wk- and blades. Methods of measuring temperatures and stresses are discussed and experimental units described, Particular attention is given to the Investigation of di sk beyond the yield point and blades under nonstationary condition. No personalities are mentioned, There are 101 references, mostly Soviet. TABLE OF CONTENTS: Introduction 3 Experimental Units for Determining the Strength of Gas-Turbine Parts 6 Gas-dynamic-dtand 6 Stand for testing rotor parts in the centrMgal-force field 12 Methods of Investigating Temperature Fields and Stresses 15 Card 2/4  W/191/63/000/001/017/'017 B117/B160 AUTHORS: Kozlov, 1. A., Lebedev, 1. V. TITLE: Internal stresses arising in the produ.ction of bonded glasa mat parts PERIODICAL: Plasticheskiye massy, no. 1, 1963, 74 - 75 TEXT: Two annealed constantan wire-type resistance strain gauges were placed perpendicular to each other on paper between the bonded glass layers, and immersed in phenol resin. Strains were measured in the plate during polycondensation (12 hrs at 13500 and,subsequent cooling. The temnorature was checked by thermocouples close to the strain guuGes. Their resistance was affected by the temperature and the shunt caused by the liquid resin. After appropriate corrections for the resulting errors, the following was found: Polymerization of the resin began at 80-85 Oc f accompanied by considerable separation of moisturej- the resistance and sensitivity of the gauges decreased. As moisture separation diminished and the resin gradually dried out, the resiqtance vanished, and then.rose steadily again until the end of the process'at 1350C. After the heat treatment and cooling, the surface layer of the plate was extended and the Card 1/2  3/191/63/000/001/017/017 Internal stresses arising in the ... B117/B16O - - boundary layer compressed. Maximum residual stress in the plate was 1.2 - 1.4 kg/mm2, which is approx.'65 ',*4 the ultimate tensile stress. This agreed with tensile tents datat the tensile strength of specimens cut wat of the plate was about 1.2 - 1-5 kg/MM2 lower than that of specimens without asbeqtos-base bonded glass layers. There are 2 figures. Card 21?  oargo"s, noi roy,6 20 f n'- 'c'i t J~ 6 th- ,t il_,__.,j"i__ zWersonlas 014troy ptib ish6d.tb' 7C i,5_: vO 3 A:.. car ow-Ti., P 'S ittidZ ore,.-,parm e~T ex di:dd res UATA_ w r s giaw4 c t', 1 000- -r- -up *;th ke mv- o I d t S_ PP e-, t - P~ ti 6t' b - - ,s- :7., fkcO ion:~ gy--.soughV',.Vi strairi' d .In. t nsil -t t e a d ~2  -JtV 1; A z~:~ .19/114/63 0 /000/00/60 Las ic,~--defdr a. exper 'Men av o, ressing, condit .6" n-&-.4-nd -.m:t_f .C ,ep e C~~-O"JLJL':~o Y.PO resses-und OP ormatibna- -_,qn, Ow r 4 f I fi it.,k9nz- -j.- -aw,a.nA-. Y, pu a on~_,. O.mpqr 4ilk &Pfi-.O spjre~&'. :.: -.,_ _ ti, , 4~ J t he dise" di .6tted ~4gdj ns no m.-4;. Ovm" ha V~ ACA ld~4ta 'ViL t !F- 4A, th -1 1 na: YO ,i..spe.qd at I pp a h' .' I " ~~'Ahi _- U" '. ,sma exK n- W;., Im on, c - 7, .. .. .. ~oxp dxz-t_r'ibixtA c -Q,p&Uqqs-a,- eparture from th--::,.,-"`t! reg AT' AhIti- &he& d'-'-df _--the: Y: P. -~PO= f h Iii t h 6'~-'d h e a -App ~ac Ud t xn" _e j a ch' h6~ T OnS&U as W-~ J-Cb id, e."-,-en JP bo -th ~.~pl di a c.,T ,,,Oveq,~., as c h sx,,. r pproxj. ons cu a rd IJ2'  Q KC)ZLUVI I.A., kaind.t,~11chn.niu- Redistribution of In rotitl.ng disks beyond the limit of proportionality. Vest.mashinostr. 43 no.90-10 S 163. (MdRA 16 110)  ACCESSION NR: AT4040400 S/0000/63/000/000/0226/0233 AUTHOR: Kozlov, 1. A.; Matvoyov, V. V. TITLE.- Structural dissipation of energy during turbine blade vibrations metallokeramiki I spetsialtny*kh splavov AN USSR (Motalloceramics and Special Alloys Institute) to study turbine blade vibration damping on actual turbine disks in a centrifugal force field and at high or normal temperatures. The equipment (see Fig. 1 in the Enclosure) is based on an acceleration istand powered by a'46. 6 Inv d. o. motor and Incorporates an MPO-2 Card SO'JRCE: Nauchno-tekhnicheakoye soveshchanlye po voprosam, kolebaniy s uchetom. rasseyaniya energii. 4th, 1962. Rasseyanlye energli pri kolebanlyakh uprigikh sistem (Energy dissipation during vibrations of elastic systems); trudy* soveshchaniya. Kiev, Izd-vo AN UkrSSR, 1963, 226-233. TOPIC TAGS: turbine, marine turbine, aircraft turbine, variable speed turbine, turbine blade design. blade mounting design, turbine blade vibration, blade mounting damping property, vibration damping tester, energy dissipation, turbine blade ABSTRACT- The article presents a brief description of an assembly built at the Institut  ACCESSION NR: AT4040400 oscillograph. A brief explanation is given of the operating procedure mid the concept of a logarithmi'c damping decrement. The vibrograms of freely damping vibrations of rotating 1 turbine blades which are obtained in this way make It possible to determine the dependence cf this damping decrement on centrifugal force and the amplitude of stresses arising In a blade as relafed to various designs of turblne.blade mountings. Orig. art. has- 6 figures. ASSOCIATION: none SUBMITTED:. 23Nov63 DATE ACQ: 28MayG4 ENCL: 01 BUD CODE! PR NOREPSOV: 011 OTHER: 003 -Card -  PISAFOIKO, Q.S., prof., doktor tekhn. nauk; XG,"I"LOV, !.A., kand. tek.Ln. nauk; I.V., inzh. -- I - I - ~- -, ~ .. Pliable deformaticn of a ritating dis,:-. FnergrnnashinorA---enie r3 no.3;26,18 Mr'63. (Mir"A :-.5~ 1 (for Pisarenkc). ~. Clilen-korrespondent AN Uk.-SSR I  KOZLCV I.A., kand, tekhn. nauk; BAZHENOV, V.G., inzh. . .0 1 Investigating stress concentration in rotating disks beyond elastic limit. Vest. mashinostr. 43 no.12:15-17 D 163. (MIRA 17:8)  1-KOZLO-v)- l.A., kand.tekhn.nauk; BAZHENOV, V-G-, inzh.; LEBFDFV, Lv,~ inzh.; MAVEYEVP V.V., inzh. Effect of stress concentrators on the strength of rotating discs. Energomashinostroenie 10 no.1:35-37 Ja 164. (KIRA 17:4)  ACCESSION NR: AP402oo94 S/0304/64/000/001/0025/0026 AUTWRS: Kozlovs 1. A. (Candidate of technical sciences); Bazhenov,, Vo Go (E;nF ineer) - TIME: Stand for testing rotating turbomachine disks SOUPE: Hasl-dnostroyeniye,, no, 1, 196h, 25-211 TOPIC TAGS: test standY turbine wheel stress, destructive testing, generator FN 400, generator FN 290, gpnerator A61 4, tachometer ICh6,, oscillograph ED 7 ABSTRACT: A stand which permits testing of disks under stress3 plastic deformatio4 and destructive stresses at speeds up to 60 000 RFM is described. The testing installation is compartmented to permit easy changing of the different parts. A schematic of the installation is shown in Fig. 1 on the Enclosures. The tested disks are driven by a D.C. motor ?N-400 through a two-stage gear reduction (4-ratio 1:4 and 6 ratio 1:15) which perudta speeds to 90 OW RFMj although in practice the speeds are restricted by ball bearing limitationso The test section is comected to the drive through the coupling (9) and is contained in a steel test chamber (16) which limits the size of the,test disks to less than 1= =a in Card- 115  ACCESSION NR: AP1020094 diameter. The mounting detail of the disk is shown in Fig. 2 on the Enclosures .and includes a cooling system for the supporting bearings with compressed air water, and oil. The test faci-lity is instrumented to permit dynamic stress and 40e;,.iperature measurements. The construction of the test facility permits experi- mental work on a large range of disk sizes and under different stress and temper- ature conditions. Orig, art, has: 2 figureso ASSOCIATION: Institut metallokeramilci i spetsaplavov.AN USSR (Institute of Metal Ceramics and Special Alloys,, AN UkrSSR) SUBMITTM 1 00 DATE ACQ3 3var64 E111CL: 03 SUB CODE: IE 1,10 REF SM' 000 OTHER3 000 Card 1 2/5 -S  ACCESSION NRs AA020094 4 To card 4/5 ZNCLOSURZ 8 01 L . .. 190 x - ., Card 315  ACCESSION XR: AP11020094 To card 3/5 VIIIIA-1y'J'(1- ................. -220~ -Xv nH-150 ENCLOSUREi 02 Fia. 1. Sclievatic of test etai-A for turbine diskst a- mechanical Part with control console; b- priiicipal eloctrioal part. card L2  ACCESSION NRt AP402009~ . ! , I - Card 515 ENCLOSURE s 03 Fig. 2. Disk suppqrb,  KOZLOVY I.A.; GUN, R.B. Remote control of' pumps of petroleum enterprise reservoirs. Mash. i neft. obor. no.6;27-31 164, (MIRA 18:2) 1. Spetsiallnoye konstruktorskoye byuro po avtomatike v nefteperorabotke I neftekhimll.  L~5437-6�_ EWT(M)/EWP( vr)/EWP6r_)A:~Vt_EMk)AM(.m) ACC NR, AP5024782 51/1160. Uli/0021/65 01009711 AU'T110R: Pysarenk6i H, 1 -enko G S (Academician AN UkrSSR),;. p 0 %~, - Bazhenov, V. H.7-7,Dazhonov' 0v 1. A. ORG.* he Zublami of the Science of Materials, AN URSR (Instytut problem mate.ria,loznavstva AN,-URSR) TITL.Es. The.stres a concentration:around eccentric openings in o'-1-grating turbine and,pump disks .SOURCE:,AN.UkrRSR.-D6povidi,--.no. 9, 1965, 1157-1160 TOPIC TAGS:. turbine diskldisk,openiing, stress concentration' stress. calculation,,atreas ABSTRAM Theoretical formulas.presently used to calculate the stress concentration around circular.openings located in a rotating.turbine.- or a pump disk at a distance:from. its center are analyzed and compared with formulas derived from euperimental data, Theoretical values of the stress-concentration factor were as much'as 30-34% lower than the experimental valuest.regardl-ess of the diameter of.the openings or their distance from.the'disk center or rim.. On the basis of the experimental data, corrective coefficients for calculating theradial and tangen.tLal.e.treas concentrations.were derived which reduced the .difference between the theoretical and experimental values of the Card 12 D V LIM  L5437-.6(. ACC NR. AP5024782 stress concentration to 17-130Z. Thus even improved formulas:,canno.t, be used to calculate:&II them factors which affect the stresses near an eccentric openings- Thusit can be-concluded that'in an operating rotating turbine or pump diski a maximum stress concentration can appear at any point of an-accentric opening, dependingon the location of openings.and the effect of various other factors. Orig. art# hast. I figure and.10 formulas. EMS) SUB CODE-z NVIC/ SUBM,.DATEs .260et64/ ORIG REFt 001/ OTH 4M 001 15 75 ATD PRESS-. Card -7 1 L  ctl AU- Ms. AP502698 SMCH CODEs *01~2/6 12 51000100916mloo AUTHORS$ Koslovil L As (Cendidaie "of technical sciences); Barbenow. V. G.-(Csididate -of technical ORGs none TITLE: Failure !of t9lMing dig SOURCE. Vestlzdk mashinostr6yeniyal- no.* 9t 1965t 9-12 TOPIC TAGS: turbine rotorg pvmp impellerp. mechanical failure, material failure oaofJ. ABSTRACT: To determine the relati,,~s merits of-using the maxim= normal stress er y max (calculated on the basis of elast,ic'-defIormations). or the average-atressels and C &V (based on Complete redistribution of stresses) in predicting the failure of r rotating disks, experiments were perform'ed-with flat disks'and with complicated rotor shapes such as shown in Fig* J.'(WAine wheals) and Fig.2 (pump impellers). The experiments were performed oa','~he.,4~ratus described previously by th6 authors (ftend dlya ispytaniya.vrashobayushchikhaya diskov turboma-shin' Sb. MashinostixWeniye go I "4 ITI#.Kiyev, 1%4) with flat disks. of alumlA= (AL446) cast iron, metalloctr;;~o~Ca~d' Organic glasopand with complicated:rotor slispeo of chromium-nickel steel* Flat disks Card 1 UDC. 621-22LO1.5039441 /3   Ac:1 .M ACCNC AP5028983 'With Celktral afid socentric holes wtr 'wused. For the,latterv the theoretical stress- a y at the stress concentrator '(1rT r/a-t) and the effective stress tref k 3 k k ef q i;T - 1. were calculated* The plasticity.of the material was specified by the residual elongation S . The ratios of the above-mentioned stresses (where applicable) to the yield, stress cr b were tabulated at failure, It was found that: the relative strength C'y a, of the turbine rotors (6 MP was 'the same 1,43) as that of flat cast b iron disks (Z --OM), indicating the importance of geometry on strength; the high ductility (6 - 12) of the impellers 'permitted a much higher %ralue (':t: 1.65) when the stress at the stress concentratione was used as' a the stress ~_ ef , calculated max max with consideration of the plasti6 properties of the materialf agreed well with -the yield stress (CrIef /?- I*Ot 0#95i and 1.11 for aluminump cast iront and steel Me b respectively) but this calculatiori is'impraciicai with complicated shap .es; 4:r y is max very brittle '(6 -O)t whiled' av or av exact only ford materials d, are good'onlyfor t ductile materials (S 3-0); stress concentrations must -be considered regardless of ductility, Orig.. art. hass 4 formulast I table, and 6 figures* 116 copr.,: 13 APt SUBM'DAM t nohe/ SOT MW: OW/ OTH REF: 001 'Card 3/3  KOZLOVP 1,A., kand,takhn.nauki BAZHENOVp VaG,, IrAnd.tekhn.riauk Breakdovn of rotating disks. Veat.masHrostro 45 no.9-.,9-22 S 165. (MIRA 18M) I  AlOrsyevich; BAZUTIN, Uadirdr Grigorlye-,-ch; KOZLOV,. 4gqi~l ~NT;.;.Ik, red. [Limiting carrying capacity of the macMnes] PredelInaia nesushchaia turbomashin. Kiev, Naukova dumka, parttj of turbo- sposobnost' elementov !.965. 166 P. .18: 5) A  jlfzz"~r, * kaVo -~-- -- *-,- - -.,m zvzjjL,4t tekhn0 ~-! ---- - ot, t 9:,28-30 he a tr 111,21ftov, 11. .0 '49th Of tupbi no AQRIV. tejh,7. nauk c1 0 (MT4 ,,: 0e f .10) llie  L ~24451=~fi E4i(M)O6WO Ile. IA-R/FWP(Q,/PIr(GL.61 %41 -ACC VOOOfCbCrf9*1ON-4 AT600816741, CdEt WOOO076 AUMORIS A. (Ki V. M. (Kiev) _.~~A. ev) atheilovp Vj G. Kiev); Leshchenko ~J~ovj~. ORG - none TITILB: Investigation of the,atreseed condition and strength of Ras turbine (Usks SOURCE., Vsnoyu o e Goveaho ejo v9prosam statioheakoy i dinamicheskoj hnosti materialov i konatruktaionqkh r fdii~ ni-- .pro ifaentov P .-,Vy -tey!peraturakhj_~~ Temoprochnost' materialov i konstruktsioMkh elementov zii~terials and.construotion elements-); Materialy,soveshchaniya. Kievt Nlaukova dumkal 1965v 294-304 ~TOPIC TAGS: turbine bladep turbine wheel SIas,tu.rbine, stress analyeis fatigue strength ' -' 11 11 , ABSTRAM The stress conditions and ~strength Qf_SbXDAium-rjjgkeI gas turbine diskg of complicated profile were exporimehtally InvestieAted and compared with theoretical results obtained.by dividing the'disk into oirei,-Llar sections (G. S.- Pisarenkoy i drop Nekotoryye voprosy pro6hnostilopatok i,diskov gazovykh turb Izd-VO AN McrSSRt 1962). The disks were cast"integral with'the turbine blades,;stress profiles were obtained at 18 000 and 24 000 rpmf7and maximum discrepancies of 18% with calculated values were obserired'(curves of thecaldulated:and experimental,stress profiles are presented) for' p=etrioai didIcAt'And ok-150--160%'for conically shaped diske. Stless profiles were also obtained for the 'two types of disks just prior to failure (at L~ad 1/2   Naukova dumka, 1965y 311-316 TOPIC-TAGSt turbine blades~ turbine-rotor, vibration damping.) vibration stress,. high temperature effect ABSrRACT: The experimentalapparatus used for studying the damping of.turbine blades on rotating disks at hightemperaturei is described., The disks are mounted on an acceleration standj as suggested by Gg S. Pisarenkoj:and I. A. KozlOv.(O nesushchey bystrovrashchayushchikhsya diskovs Ukrgostekhiadat., 1962), which hasa. special electronic speled indicator-regulator and which can be heated to 870-970K before starting the test. The.-damping,curves are obtained on an N-102 oscillograph. Card 1/2   J- -67 SOURCE CODE: UR/0079/66/036/008/1484/1487 XOZLOV .1 A OSIPOV 0 A. Volgodonskaya Affiliato All-Union HE. '; a u ~c~ien ti~!3 leseirch insfithe titutes (Volgodonskoy filial vse3oyuznogo nauchno-is sled ovatel 1Wo_g6_!fiaifa_a_s fn`t_e~Lch c skikh zhirczameniteloy) "Reaction of Tin and Titanium Tetrachlorides with Ethanolamidos of Aliphatic Acids. 11111 -Floscow, Zhurnal Obshchoy Khimii, Vol 35, No 8, 1.966, PP ah%-M7 .Abstract:. It was found that in the reaction of tin and titanium tetrachlorides with monoethanolamides (MEA)RCO"C2H49H and diethanolamides (DF~QRCON(C 40H) 2H 2 of aliphatic acids, where R is h drocarbon radical containing from seven to 11 carbon atoms cc ~iyth the composition 2MEA.2" Clh and 2DEA- ands 3'MeGlh are formed. It was further found that in dioxane solution these compler. compounds undergo further molecular transformations: a molecular rearrangemQnt. of complex compounds of tin and titanium tetrachlorides with ethanolamides of aliphatic acids was detected and studied. A mechanism was proposed for the .;rearrangement: when solutions of the complexes in dioxano are hented, there is 'a replacement of the hydrogen of the hydroxyl group of the ethanolamides by the or TiGl~ group, liberating a HC1 molecule. The latter causes a rearran.ve- SnGl3 ment. of the ligand molecule, according to the scheme-. (RCONHG2H ',NH C 0400C11 +Rcolvdc -OSnGl 4011 *.SnCl) 2 -) HCl 2 2 2% 3 Card 1/2 UDC; 547.258.11 + 547.372  -L IA09--67 ACC NR, AP7003666 plex compounds of the diethanolaraide !Rearrangement products of com of cap ic :acid with SnC 14 and TiGI4; tho'solid complex compounds isolated mre found to contain dioxane, Orig. art. has: 5 figures* 5PBSi 38,97-0 SUB CODE: 07 SUBM DAM 14Jun65 /'ORIG RM 004 M11 REF; 003 jb Card 2 /2  ACC NR- AM5028882 [ NJ Monograph UR/ Koziov, Igor' Andreyevich; Bazhenov, Vladimir Grigorlyevich Limiting carrying capacity of the parts of turbomachines (Predellnaya nesushchaya, sposobnost' elementov turbomashin) Kiev, Naukova dumka, 1965. 166 p. illus., biblio. (At head of title: Akademiya nauk Ukrainskoy SSR. Institut problem materialovedeniya) 1300 copies printed. TOPIC TAGS: turbine, turbine design, turbine disc PURPOSE AND COVERAGE: T ./his book is intended for engineers and scientists concerned with the strenathl 6f machine parts, as well as for professors and students at technical schools of higher education. Methods, based on experi- mental data, for determining maximum safe load of turbine parts are presented. On the basis of their own experimental data,, the authors attempt to analyze methods for determining load-carrying capabities and to evaluate the errors resulting from the use of conventional premises and hypotheses for calculating strength. Recommendations, based on the authors' experiments, are offered to enable a more correct determination of the maximum safe load of structural members. Some of the equipment used for conducting the experiments are described. The experiments were carried out at the High -Temperature Card  ACC NRv AM5028882 Strength Department of the I Academy of Sciences USSR. TABLE OF CONTENTS [abridged]: Ch. 1. Theoretical methods for determining load-carrying capacity -- 5 Ch. H. Experimental methods of investigating load-carrying capacities -- 32 Ch. III. Load-carrying capacity of rotating disks -- 60 Ch. IV. Effect of stress concentrations on the load-carrying capacity of structural members -- 115 Ch. V. Load-carrying capacity of pump impellers -- 146 Bibliography -- 164 0 SUB CODE: 13 09,1#UBM DATE: 08Jan65/ ORIG REF:,043/ OTH REF:, 017  ACC NRs (Al) COD AT7003567 SOMICE E UR/324q/66/ooo/oo1/o1o3/=f AUTHORS: Bazhenov, V. G.;.Koslov, L A.; Loshchenko, V. M. Institute for Problems in the Study of Materials, AN UkrSSR (Inatitut problem :materialovedeniya AN UkrSSR) :TITLE: Investigation of stressed condition in rotating disks with atreBa i iconcentrators ~SOURCE: Kharkov. Politekhnicheskiy inatitut. Energeticheskoye maohinostroyeniye no. 1, 11966. Teploobmen i gazodinamika (Heat transfer and gas dynamics), 103-107 !TOPIC TAGS: stress concentration, stress distribution, turbine disk t 1ABSTRACT: The stress distribution in a rotating disk with eccentric holes is investi-~ Igated experimentally. The coefficient of stress concentration is defined by I d ao Ke =3 ,where b is the closest distance between holes. The investigation is carried out with ia turbine disk as shown in Fig. 1. The stresses were estimated by means of strain gauges and plotted graphically as a function of X/d. The calculated stresses at the ithree points 1, 29 3 were found to be 9.25 and 15~6 lower than measured values. The experimental data show that the highest str ration occurs at point 2 for ~which K 2.65 C Card. - 1/2  '-A C'C- N- R -sk-T-7-0- 6-3-56 -7 Orig. art. has: 4 figures and 3 formulas. !SUB CODE: 20/ SUBM DATEs none/ ORIG REFs 0021 OTH REFj 001 ;: Card 2/2 Fig. 1.  kw6vj f I t, Dissertation- "Crossbreeding Cosrae-Wool6d Tsakell and Chushka Sheep Vith the Askanlya Fine-Fleece Breed.9 CaM Agr Soit Azer- bWzhan Agricultural Inat, 19 MaY 54. Bakinskiy Raboohiy, Baku, 9 May 54. SO: SUM 284, 26 Nov 1954  U3SR Farm Animals. Small Horn~_-d Stock. Abs Jour: R,~f Zhur -Biol. , N-o 23, 1953, 105')37. iLuthor Koz1ov I. D. Inst :Tkraf_nt_a;_F'3"Montific Rosoarch Inatidut- of .itni,ual Eusbandry ;1Askaniya-1qova-,. Title Intorbr_~A Crossing for tho Rog,noration of thu 13,3kaniya Fin,~-'Jool Brjod and Dovclopiu,~nt of Now BroLds of Shoop in the South of the Ukrainian 5SR. Orig Pub: Tr. Ukr. n.-i. in-ta zhivotnovodstva -~Askaniya- Mova-~, 1957, 5, 27-41. i~bstract: In th-, br(; din~~ -,,rork for th..; ror,_,noration of tho -Lskaniya brood of shL~cp, th,, intorbro,~d crossing of iskaniya rams ,Ath Coars,,-,Aiool cwcs (Tsakol, Chushka) with Fin--.-wool onos (Tsigay and thAr hybrids~ and with owes from Fino-wool Stavru]?ol, Caucasian and Sovil-.t illDrino broods  USSR / Farm Animalsi Small Hornod Stocki Q-2 Abs, Jour: R--f Zhur-Biol., No 23, 195B, 105667. Abstract: was rosortod to. it considorablo _pcrc,.;ntagu of hybrids d~sc,nd3d from Cours--wool had uni- form fino end scoi-fino wool Lind a high3r yiuld and livo vicizht than Coars,:;-vool mothor ovias. For this crossing it is botter to uso Askaniya rams of th-- noria-al slightly-plicat,~d and .*Jith incroas.,d plication typos, possossing a good wool clos--noss and ovcrgrowth. Tho hybrids obtainod from Sorai-fine-wool shc,_~? arc closo to morinos as to tho quality of th-ir wool but thoir wool possoss loss ovonnoss and yolk and also losos its alasticity and str_~ngth charactoristic of Tsigay sh,;,-,n. For this crossing, it is ncc- ossary to soloct, rams of tho normal typo with sufficL;nt yolk qualitios, a -Iood ovorFrowth nnd long wool. Tho crossing of th~; J_;LskLniya rams  US~~R / Farm Aniaals. Sitiall IIorn(-d Stock. 2 J t Abs Jour: R,;f Zhur-Mol. , Po 23, 19,56, 10'56 " Abstract: with owus of tho finu-wool bro,;ds produccs al- r-~ady in tho first gonuration aniiaals si,,iillr to tho sho,;p of tho Askaniya bro-d. Tho iskaniya ,~vios vioro also crossud with rams of -Uh.-. Lincoln and Rofmoy Marsh broods. Tho offs -iring obtainod was distinauishod by oarliniss, groat h,:;ight, and sL~Lai-fino wool. -- G. V. Bogolyubova.  BIGLER, MI.S.; SHARYGINA, L.I.; KASPAROVA, A.B.; V.A.)- ?r I.-VICH, N.N.; MINA, A.F.; S:2-J C STOLYAROV A.I.; FURSWA, T.A.; Y 0 L D1.1 T D re~!. SERFOOYL, S.M.,, red. (Leningrad and Leningrad Frovince in figures; a statis- tical abstract) Leningrad i Leningradskala oblast' v tsifrak-h; statisticheskil sbornik. Leningrad, Lenizdat, 1964. 250 P. 18.2) 1. Leningrad. Statisticheskoye upravleniyeo 2. Statl2tk-4- cheokoye upravleniye Leningrada (for Kol2ov, Sb&r~glml, Kasparoval Yakovlevq Grineviohq Yudina). 3. Stgtistie~he-- skoye upravlenAye Leningrad-skuy oblastl (for Semichenk-o. Stolyarov, Ftu-sova).  UZU01.1 1. F. tX "Constructi~-jn of Pressurized Ai~- Apparatus c-':' Sr:~alll -J---n-.~-n,5l'cna fr,2.. A,,.ill j,-ia',.-'(,,n, " report pros.2nt-cl at "he Scimtific S,milinar on Aul--,mtion, I'lwy 1957, at '-dic InSt. f--,,r Ant~,,natiozi and R.--Aatc "I'm-Irol (DC) Acad. Sci. USSR. 1: an I ka , "I I -- I 1957, v-.)I. V~, !:,,. 12~ pp tj SE:.=Ov, A. Ir.)  7z- L 28(l) PHASE I BOOK EXPLOITATION SOV/2702 Akademiya nauk SSSR. Institut avtomatiki I telemekbaniki. Seminar po pnevmogidravlicheskoy avtomatike. 1st, Moscow, 1957 Sistemy, ustroystva I elementy pnevmo- i gidroavtomatiki; Z7sbornij (Pneumatic and Hydraulic Circuits Devicesp and Elements in Automation; fC-ollection of Paper2s) Moscow, Izd-vo AN SSSR, 1959. 213 p. Errata slip inserted. 2,700 copies printed. Resp. Ed.: M. A. Ayzerman, Doctor of Technical Sciences, Professor; Ed. of Publishing House: A. A. Tall; Tech. Ed.: T. P. Polyakova. PURPOSE: This collection of papers is intended for scientific research workers and engineers in the field of design and con- struction of pneumatic and hydraulic equipment and accessories for automation. COVERAGE: This collection contains papers read at the Seminar on Pneumatic and Hydraulic Devices for Automation, May 28 1 1957. The collection is divided into the following three groups: 1) newly developed pneumatic and hydraulic circuits 2) pneumatic and hydraulic devices, including regulating units, transmitters Card l/  Pneumatic and Hydraulic (Cont.) SOV/2702 and transducers, actuating mechanisms, special-purpose devices, and auxiliary equipment and 3) elements of pneumatic and hyd- raulic devices for automation, such as controlled and permanent nozzles and diaphragms. No personalities are me-.,cioned. Refer- ences follow several of the papers. TABLE OF CONTENTS: NEWLY DEVELOPED PNEUMATIC AND HYDRAULIC CIRCUITS Shneyerov, M. S. Zm-oscow7. KBTsMA Pneumatic Unitized Circuit 3 This paper discusses methods of unitizing automatic lines by using standardized units and circuits. The principal com- ponent instruments were built by KBTsMA. Koz1Q.y__J__-F_ Z7moscoij. New Small-size Pneumatic Instruments -for'Automatic Control and Regulation, Developed by "NIITeplo- pribor" 12 Regulating units, secondary recording and indicating in- struments, computers, and controllers are among the in- struments dealt with in this paper. Card 2/  Pneumatic and Hydraulic (Cont.) SOV/2702 Bron, L.-S. ZM_osco_w7. Hydraulic Equipment for Transfer Machines 19 This paper discusses hydrualic feed, transport, clamping, and other mechanisms of machine tools. Stupak, B. F. Jeningrae. Elements of Hydraulic Instruments 31 This paper deals with the functioning and construction of such hydraulic instruments as regulating units, slide valves, oil filters, oil pumps, overflow valves, hydraulic actuators, and throttles. PNEUMATIC AND HYDRAULIC DEVICES FOR AUTOMATION Regulating Units Podgoyetskiy, M. L., and E.M. Braverman /Moscow7. KBTsMA Three- Zompbnent'Regul&ting Unit. ..50 Dvoretskiy, V.M. ZffoscoJ. Small-size Hydraulic Regulating Unit, IAT AN SSR 57 Transmitters and Transducers Card 31  Pneumatic and Hydraulic (Cont.) SOV/2702 Zasedatelev, S.M., and V.A. Rukhadze fmoscoE7. Problems in Constructing Primary Instruments __ Differential Pressure Trans- mitter With Pneumatic Force Compensation 6! This paper is a theoretical discussion of differential transmitters dealing with their sensitivity, errors, and reliability. Krementulo, Yu. V. ffoscoO. Electropheuinatie'Transducers, IAT AN SSSR 77 Dmitriyev, V.N. fmoscow- /. Static Char,-3teristics of a Pneumatic Relay With Constant -Pressure Drop in Nozzles 86 This paper discusses the static characteristics of a back- pressure type pneumatic relay with indicators that are not sensitive to minute gap changes. Zasedatelev, S.M., and V.A. Rukhadze fm-oscow7. Differential Pressure Transmitters With Pneumatic Force Compensation (Review of Non-Soviet Designs) 91 Card 4/  Pneumatic and Hydraulic (Cont.) SOV/2702 Actuating Mechanisms Temnyy, V. P. Zm-oscoj. General-purpose Hydraulic Power Servodrive 99 Arkhangel,skiy, A.F. Hydraulic Universal Variable-speed Transmission (URS) 103 This paper describes an axial~piston variable-speed transmission. Its technical specifications and fields of application are discussed. Babushkin, S. A. ffeningrad7. Equations for a Stabilizing System With a Hydraulic Actuator Connected With a Control Device by Hydraulic Main Lines 112 Equations of the motion of the actuator piston and elements of the control device are given. Design examples are presented. Special-purpose Devices Berezovets, G. T. ZMoscoK7. Pneumatic Ratio Controllers Card 51  Pneumatic and Hydraulic (Cont.) SOV/2702 Without Mechanical Dividers 122 Types RS-1 and RS-2 ratio controllers are described. The change of ratio in relation to the throttle opening and the primary pressure is discussed. Zalmanzon, L.A., and A.I. Semikova Zffoscoj. Designing a Non- linear Transformation in Pneumatic Systems by Means of "Nozzle- Tube" Type Elements 128 This paper discusses the first stage of an investigation made at the Laboratory for Pneumatic and Hydraulic Automation, IAT AN SSSR. The characteristics of a pneumatic nozzle-tube- type relay consisting of a nozzle and pitot tube are described. The functioning and possible uses of this device are dealt with. Schematic diagrams of the relay and photographs of the experimental Installation are shown. Berends, T. K., and A. A. Tall /Moscoy,7. Possibility of Con- structing a Pneumatic Regulator With Automatic Response to Load Changes 148 Card 6/  Pneumatic and Hydraulic (Cont.) SOV/2702 Ostrovskiy, Yu. I. zRoscog. Extremal Pneumatic Regulator, IAT AN SSSR 155 The basic principles of an extremal regulator for main- taining certain maximum or minimum values in an automated system are discussed. A schematic diagram is presented, and the construction is described. Results of laboratory testing are given. Auxiliary Equipment Prusenko, V. S. Z7moscow7. Automatic Installation for Compressed Air Supply 165 A description is given of an installation with units of simple construction (rotary liquid piston compressor and two-stage dehydrator) for securing a continuous supply of clean and dry compressed air. ELEMENTS OF PNEUMATIC AND HYDRAULIC AUTOMATION Controlled and Permanent Nozzles Card 7/  Pneumatic and Hydraulic (Cont.) SOV/2702 Andreyevap Yea A@ fm_oscoO. Calculating the Static Character- istics of Back-pressure Type Elements 172 This paper deals with a theoretical analysis of back-pressure type elements. Flow of fluid, pressure distribution on plates, and general characteristics are discussed. Shumskiy, N.P. Z7mosco2. Results of Experimental and Theoretical Investigations of Back-pressure Type Control Devices 181 Bogacheva, A.V* ZR-osco2w. High-velocity Laminar Air Flow in Flat Capillary Channels 194 This paper discusses air flow in flat capillary channels at varying pressures. The flow rate is experimentally in- vestigated and results shown graphically. Charts to be used for determining resistanoe ooefficients and flow rates are presented. Kichin, 1, N. /ffoscoij. Nozzle Clogging and Methods of Combating it 205 Card 8/  Pneumatic and Hydraulic (Cont.) ':)OV/2702 The tendency of certain working fluids toward rozzle and slit clogging is examined. Minimum dimensions of nozzle and slit sections at which the fluid flow rate remain stable are determined. Some practical methods of combating clogging are presented. Diaphragms Afanaslyev, V.V. 5oscoij. on Variation of Effective Areas of Fabric Diaphragms 216 Changes in the magnitude of effective areas of corrugated diaphragms during the stroke are analyzed and their signift- cance in the design of a KBTsMA pneumatic regulator discussed. Mach, Yu, L., and G. P. Stepanov ZFosco_J. Investigation of Characteristics of Diaphragms Used in Sensitive Elements of Regulators 224 Characteristics of rubberized-fabric diaphragms made from various materials are discussed. The amount of hysteresis in relation to the stroke and the influence of the temperature of the surrounding medium are investigated. Test results of Card 9/  Pneumatic and Hydraulic (Cont.) beryllium-bronze diaphragms are presented. AVAILABLE: Library of Congress SOV/2702 GO/ec 12-23-59  28(3)7 25(2) SOV/28-59-4-2/19 AUTHOR: Kozlov, I.F., Engineer TITLE: The Unification of the Input and Output Parameters of Pneumatic Control Instruments (Unifikatsiya vkhodnykh i vykhodn kh parametrov priborov Dnev- maticheskoy sistemy PERIODICAL: Standartizatsiya, 1959, Nr 4, pp 9-10 (USSR) ABSTRACT: The general design principles and advantages of pneumatic control devices extensively used in various industrial processes are briefly discussed. It is mentioned that in the USA, they constitute 80-90 % of all automation means, that even electronic regu- lators recently made in the USA (and also in the USSR) are provided with pneumatic adjusting valves, and that the Soviet instrument industry has develope6l a pneu- matic "AUS" ("agregatnaya unifitsirovannaya s.Lstema", or "unified transfer system"). This system includes primary pickup devices, secondary recording and in- Card 112 dicating devices, computing units performing simple  SOV/28---9-4-2/19 The Unification of the Input and Output Parameters of PneiLmatic Control Instruments counting operations, adjusting and auxiliary units, all "unified" (i.e. made alike) to the utmost in res- pect to the input and output parameters. The, "AUS" devices are in lot production at the instrument plants. The "unified" input and output parameters will permit intercombinations of the pneumatic units for different applications. The chosen 2air super-pressure range for the system is 0.2-1 kg/cm ; the zero point is raised to 0*2 kg/cm2, to eliminate the instability and time delay in the operation of the sensitive elements near the zero point. There is 1 graph. ASSOCIATION: NIITEPLOPRIBOR Card 212  0608 SOV/141-58-4-14/26 AUTHOR: Kozlov, I.G. TITLE; On the Problem of the Amplification Mechanism in a Single-Beam Electron-Wave Tube (K voprosu o mekhanizme usileniya v odnoluchevoy elektronno-volnovoy lampe) PERIODICAL:Izvestiya vysshikh uchebnykh zavedeniy, Radiofizika, 1958, Nr 4, pp 116-iig (USSR) ABSTRACT: An experimental investigation of the velocity distribution of the electrons in a ribbon-type electron beam was carried out (Ref 1). The investigation was done by using the cylindrical condenser method in a sealed-off device at a pressure of less than 10-6 mm Hg; the resolving power of the analyser was 35; the method of measurement was described by Hughes and Rojansky (Ref 2). The results obtained are shown graphically in Fig 1, where the axis of ab&cissae shows the energy of the electrons, while the axis of the ordinates indicates the number of electrons in an interval of the resolved velocities. It is seen that the electron velocity distribution has two maxima. From this it is concluded Card 1/3 that such a type of a single-beam electron tube can be  06498 SOV/141-58-4-14/26 On the Problem of the Amplification Mechanism in a Single-Beam Electron-Wave Tube employed as a Haeff wave tube (Ref 5). The problem can be investigated by using the Vlasov scattering equation which is as follows (Ref 7): CW (1) _ (vl/v2)Z]2 (W Z)2 where R = (w,/w ) 2, W = u)/w2 and z Pvj/w2; w, and w2 are plasma osciflation frequencies for he points corresponding to the maxima of the distribution functions; vj and v2 are the corresponding electron velocities; w and v are the frequency and the phase velocity of the wave respectively; P = w/v. The plasma frequencies corresponding to the principal maxima can be determined for a given anode voltage. It is also possible to evaluate the parameters vl/v2 and R. In particular if R = 0.1 and vl/v2 = 0.9, the solution of Eq (1) is in Card 22/3 the form of the curve given in Fig 2. Since the gain of  06498 sov/141-58-4-i4/26 On the Problem of the Amplification Mechanism in a Single-Beam Electron-Wave Tube the tube is defined by be used to plot the gain This is done in Fig 3 for various values of the anode voltage. Fig 4 shows that the investigated tube can be regarded as a wide-band resonagt amplifier; for example, at a frequency of 7 x 10 c/S it is possible to obtain an amplification of 35 db and a frequency bandwave of about 600 Mc/s. The author expresses his gratitude to P.V.Golubk6v .- for suggesting the subject and directing the work. The paper contains 3 figures and 8 references, 2 of which are Soviet and 6 English. ASSOCIATION; Saratovskiy gosudarstvennyy universitet (Saratov State University) SUBMI'.,'rEDt Ilth December 1957 Eq (3), as a Card 3/3  3/058/62/000/OOV138/160 A061/AIOI AUTHORS: Golubkov, P. V., Bakhrakh, L. E., Kozel', I. Sh., Kozlov, I. G., Medoks, V. G. ------ TITLE: A study of some electron beam properties PERIODICAL: Referativnyy zhurnal, Fizika, no. 4, 1962, 106, abstract 4Zh106 "Uch. zap, Saratovsk. un-t", 1960, v. 69, 41 - 56) TEXT: This is a report of results obtained from theoreticPI. and experi- mental investigations of the structure of long electron beams of different con- figurations, moving in focusing fields. The pulsation factor of the internal and external boundaries of the hollow-cylindrical electron beam focused in constant and intermittent magnetic fields is calculated and represented graphically. It is shoim how the pulsation factor can be restricted to given limits in a wide range of the beam voltage variation. Formulas and the respective diagrams con- cerning the pulsation of the internal and external boundaries of the hollow-cy- lindrical electron beam in centrifugal and electrostatic focusing are obtained. it is shown that pulsation is determined by the radial ratio of the internal and Card 1/2  A study of some electron beam proporties'' S1058162,1000100IV1381160 A061/A101 external boundaries of the beam. The effect of the space charge is considered. The density distribution over the cross section of the electron beam and the pulsation factor of its boundaries are experimentally investigated using a spe- cial mobile system of collectors. The curves of density distribution are plotted from (experimental) points, and are also observed by oscilloscope. The strip beam and the hollow-cylindrical beam in the longitudinal magnetic field are in- vesti--ated. The distribution of electron velocities in electron beams is in- vestigated experimentally. A cylindrical capacitor is used as velocity analyzer, The study was conducted in different beam cross sections, in a 5ignifftoant range. of accelerating voltages and at different pressures of the residual gas. The existence of two maxima in the curve of velocity distribution is shown. The pos- sible causes of this phenomenon are considered. G. Sh. [Abstracter's note: Complete translation] Card 2/2  KOZLOV, I. G. Cand Phys-Math Sci - (diss) "Several results study of the distribution of electron speeds Moscow, 1961. 11 pp; (Moscow Order of Lenin Red Banner State Univ imeni M. V. Lomonosov, 150 CODies; free; bibliography on p 11 (26 entries); sup, 193) of an experimental in electron beams." and Order of Labor Physics Faculty); (KL, 6-61  S/141/62/005/001/024/024 C/i It 3 0 E039/E485 AUTHOR: -Lo Z 110 V---~~~ TITLE: Onthe influence of propagation velocity of electrons in electron beams on the problem of amplifying TW tubes PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Radioflzlka, v-5, no.1, 1962, 192-194 TEXT: It has been found that in the experimental study of electron beams froin a "Pirs" type electron gun there is always a singular electron velocity distribution. Typical distribution curves are given and all show one main peak and a subsidiary peak on the lower voltage side. This effect is explained on the basis of secondary electrons emitted from the gun anode being accelerated and ionizing residual gas. In this paper the influence of the dispersion velocity on the particular problem of amplification of TW tubes is examined. It is assumed that a weakly divergent beam of electrons is obtained from an electron gun and the velocity distribution determined. The beam is focussed without noticeable loss of electrons and without Card 1/2  S/1 It 1/62/00 5/001/024/024 On the influence of propagation ... E039/E485 destroying the velocity distribution. This system is treated as if composed of two mixed electron beams and is discussed in detail on this basis. Comparisons are made with previous works on double electron beams. The formation of pulses in the two mixed electron beatits is examined and further investigation of the question is considered necessary. The problem was proposed by P.V.Golubkov who also directed the work. There is I figure. ASSOCIATION: Saratovskiy gosudarstvennyy universitet (Saratov State University) SUBMITTED: May 15, 1961 Card 2/2  KOZUIOV~p I.G.; A.r. Focu,nlng and dl,~pirslori propf-rtie.5 04' trii: fl"I"A."I Of a Cylindrical capacity--,-. liv. vys. ucheb. Tav.; 7 nO.3z53.1-538 ! 6.4. (Kill", 17 - I Q 1. Stir-qtnvalcty gi:~sudarstveany-y  SHAPOVALOV, A.S.; KOZIA)V, I.G. 11-I.-I-I .. 4. ';ome resullts of an experlymental. -t*,;;I-vr cf 1Lh- pr~-pcrtlle,~ O~ an electrostatic analyzed of charged particle emLrg.--. I-V. "rys. uvheb. radiofiz. 8 no.4.-775-783 165. OIJRA 18:9) ... SqratnvsI%--iy gosudrarstvennyy unlvf---s4ti~t, 1  AUTHOR: Shapovalov,: A, S.;.;~~ Go -ORG: Saratov State University-fSaratovskiy gosu darstvennyy Universitet) e TITLE: Som results of an experimental study of,properties of an electroitafte analyzer of charged particle energy SOURCE: IVUZ~., Radibfizika, v.. .8, no, 4, 1965, 775-783 TOPIC.TAGS: elOctrostaticsl charged particle electrostatic field, spectrowterp -electric Capaoitorp electron.beamp electronapetic wave dbPerSion ABSTRACT, :The focusing and dispersion properties.of.an electrostatic field of a cylindrical capacitor were studied and the possibility was examined for using it as an element of the charg ed,particle energy spectrometer. The investigation indicated that during an injection of charged par,Jcle current at an acute angle to the axis of~the cylindrical capacitor,the field of the latter has a'greater ~.Apecific-dispersion for energy than"the plane capacitor field. Results were presented for the experimental study of,the main characteristics of~theanalyxer -of charged particle energy which was used as the analyzing element of.the cylindrical-capacitor.field with-..a'n-injection of particles at an acute angle t9 UDC,. 539.07:523.165 _jCard I/   _7 L 44115-66 ACC NN AP6026944 - SOURCE CODE: UR/OlAkrj[6 /609/004/08T)0.840 AUTHOR: ShMovalov, A. S.;X0zlov, 1. 0. ORG: Saratov State University (Saratovskly gosudarstvennyy univorsitet) TITLE: Focusing properties of the cylindrical-capacitor field SOURCE: IVUZ. Radiofizika, v. 9, no.-4, 1966, 836-840 TOPIC TAGSt electric capacitor, spectrometer ABSTRACT: This is an extension of a previous authors' work (IVUZ. Radiofizika, 1964, no- 7, 531) where the focusing and dispersing properties of the electrostatic field of a cylindrical capacitor were considered in the case when a slightly diverging stream of charged particles was introduced at an acute angle to the cylinder axis. The present article offers a formula for the size of the image of a point electron source. Theoretically, this size could be determined from the following formula- E 21-111 X01ru 4Eexp(k2s10D)cos6 e-I'di. howevert this way is too difficult for practical 0 purposes. Hence, the above formila is simplified and expanded into a-power series. The source image size Is AX0 X0 (Ca q as), The focusing conditions In a UDC: 60: 319.41-~- 2