SCIENTIFIC ABSTRACT BOLSHAM, Y.M. - BOLSHEDONOV, I.I.

BOLISHAM Ya I. Concerning the installation of lightning arresters in the pipes of building ventilating systems. Prom.energ. 16 no.5a6l M7 161. (NIU 14:7) (Lightning protection)  KARVOVSKIY, Georgiy Antonovich; OKOROKOV, Sergey Petrovich; BOLISBU4, Ya.M.,, FRIDKD4, L.M.,, tekhn. red. (Handbook on asynchronous notors and start-regulating equipment) Spravochnik po asinkhronrym dvigateli&m i puskoreguliruiushchei apparature. Moskvap Gosonergoizdat~ 1962. 207 p. (MIRA 15:9) (Electric motors, Industion-Handbooks, manuals., etc.) (Electric inotors-Starting devices)  KHORUNZHIY, Valentin Alekseyevich; RIBAS, Yurly Mikhaylovich; NEDOSEKOV, Svyatoillay Semenovich;'JX&I,51W,__.Ya.M,, ret8enzent; EERSHITSKIY, M.D., red.; BULIDYAYEV, N.A., tekhn. red. (Explosionproof electrical equipment] Vzryvozashchishchen- noe elektrooborudovanie. Moskva, Gosenergoizdat, 1962. 319 p. (MIRA 16:8) (Electric apparatus and appliances-Safety measures)  GREYSUKH, M.V.; YEWILDV, A.A.; ZALESSKIY, Yu.Ye.; KAZYMOV, A.A.; KATSEVICH, L.S.; KIRPA, I.I.; KIREYEV, M.I.; KNYAZEVSKIY, B.A., KOFMAN, K.D.; KRZHAVANIK, L.V.; KUZNETSOV, P.V.; MORNOV, K.S., RAKOVICH9 I.I.; RYABOVp M.S.; SVENCRANSKIY, A.D.; SOKOLOV., M.M.; SYCHEV, L.I.; TVERDIN, L.M.; KHEYFITS, N.E.; SHULIMOV, Ye.V.; EFSHTEYN, LA; SHOBEGOLIKOVp Ye.l.; TSAFENKO, Ye.F.; FEDORDV, A.A., glav. red.; SERBINOVSKIY, G.V., red.; _FQT.'8 IAY.-, Ya.M.., red.; BRANDENBURGSKAYA, E.Ya., red.; TVERDIN, L.M., red.; FRIDKIN, L.M.Y tekhn. red. (Handbook for power engineers of industrial enterprises in four volumes] Spravochnik energetika promyshlennykh pred- priiatii v chetyrekh tomakh. Moskva, Gosenergoizdat. Vol.2. (Electric-power supply (conclusion), use of electric power and electrical equipi4ent in some branches of industry] Blektrosnabzhenie (okonch-anie), priemniki elektroenergii i elektrooborudovanie nekotorykh otraslei promysIllennosti. Pod obshchei red. A.A.Fedorova (glav. red.), G.V.Serbinovskogo i IA.M.Bollshama. 1963. 880 p. (MIRA 16:7) (Power engineering-Handbooks, manuals, etc.) (Electric power distribution)  SOKOLOV, B.A., inzh., red.; ZHIVOV, inzh., red.; BOL.1-SH.All, Ya.M., inzh., red.; KUZNETSOV, M.P., inzh., red.; ZILIBEWAN, R.I., inzh., red.; IFTINKA, G.A., red.izd-va; MOCULINA, Z.S., tekhn. red. [Construction specifications and regulations) Stroitellnye normy i pravila. Moskva, Gosstroiizdat. Pt.3. Sec.l. ch.6.[Electrical systems; regulations for organizing and carrying out the work, acceptance of tie works] Elektro- tekhnicheskie tistroistva; pravila organizatsii i proiz- vodstva rabot, priemka v ekspluatatsiiu (SNiP 111-1. 6-62) 1963. 134 P. (YIRA 16:10) 1. Russia (1923- U.S.S.R.) Gosudarstvennyy komitet po de- lam stroitellstva. 2. Gosudarstvennyy komitet po delam stroitel'stva SSSR (for Sokolov). 3. Mezhduvedomstvennaya komissiya po peresmotru stroitellnykh norm i pravil Akadendi stroitel'stva i arkhitektury SSSR (for Zhivov). A. Cosudail- stvennyy proyektnyy institut Ministerstva stroitel'stva, PSFSR (for Bol'sham, Kuznetsov). 5, Vsesoyuznyy gosudarst- vennyy proyektnyy institut Ministerstva energetiki i elek- trifikatsii SSSR (for Zillberman). (Electric power distribution)  ANASTASIYEV, F.I.; EROSTRD-,, A.A.; VESHENEVSKIY, S.N.; GELIM4, G.A.; GORNSHTEYN, L.A.: ZIMENKOV, M.G.; KARVOVSKIY, G.A.; KIBLITSKIYv V.A.; KLEYN, P.N.; KLIMIKSEYEV, V.M.; KLYUYEV, S.A.; BORRING, G.M.; KOREMSKIY, A.N.; LEYBZON, Ya.I.; LIVSHITS, D.S.; LIGERMAN, I.I.; LOGINOV, 0.1.; MILIGH, M.B.; NAYFELID, M.R.; OKOROKOV, S.P.; POLYAK, A.B.; ROYM4, S.S.; RYABOV, M.S.; SINITSY14, O.A., SOLOWKEO, Ya.Yu.; SOSKIN, E.A.; STASYUK, V.N:; BOLISHA-1-1- - Yajf., red.; GRACHEV, V.A.,, red.; 0 T".7"t SAMOVER, M.L 'rei .;. *K , 1. Ye., red.; DANILENKO, A.I., red.; KHRAMUSHIN, A.M., red.; YAKUBOVSKIY, F.B., red.; EMDENBURGSKAYA, E.Ya., red.; KOWJ1, M.A., red.; BORUNOV, N.I., tekhn. red. [Handbook on electrical sysL-6iris of industrial enterprises in four volnnes] Sprnv-.~chnik 7 ..o elektro,,istanomla-m promyshle-n- nykh predm-Li--tdi -v cheityrekh tomakh. Pod obshchei red. I,H' Borichova Vol-L. [Devit-m of electrical. ~i'~stetns of industrial enterprises in two parts] Proektirovanie c-lektroustanovok promyshlenr~fkh predpriiatii v dvukh chastiak-,1. Pt.2. Pod red. !A.N.BollshamA i dr. 1963. 598 P. (MIRA 17:3)  LIGEINAN, losif lzrailevich; BOLISHAIJI, Ya.l-',., inzh., retsen:,,ent (Desi-i.-n of electric equipment of rolling mills] Kon- struirovanie elektricheskikh usta,.-vok prokatnykh t.-ekhov. Izd. 10., perer. i dop. Moskva, Izd-,,,o "Metallurgiia," 19(v,. 366 P. (MIRA 17:7)  HAKOVICH, Ivan lokhelevich; B01. I'" I Ya.H., red. [Electrical equipment of preyd~jes with exllosion.haza-rds] Elektrooborudovanie vzryvooresrykh pro.zvodstv. Moslnra, Energiia, 1964. 3971 P. A 17: 10)  SOURCE CODEi AUTHOTa: Bamdas, As _Me; Pol!s1jqq,__X"_Ao; Borchaninov, Go So; Glazunov, A. A*; Zalesskiy, As Me; Konstantinov, Be As; Livshits, Do Se; Lychkovskiy, Vo Lo; Miller, Go Ro; Petrov, I. I,, Pleskov, Vs Io~ Samover, He Lo, SyroWatnikov, I* As; Chilikin, Me Go ORG: none TITLE: Professor Mie Lo Hukoseyev (on the occasion of as 60th birthday) SOURCE: Blektrichestvo, no. 6, 1965, 91 TOPIC TAGSt scientific personnel, electric power production ABSTRACT: Professor Yuriy Leonidovich Mukoseyev, 60, chairman of the depart- ment "El6trosnabzhenlye promyshlennykh predpriyatly I gorodov (Electrical - Supply of Industrial Enterprises and Cities)" of the Gorlkovskly politekhni- cheskly in6t1tut (Gorlkly Polytechnic Institute) began his studies at the Gorkly (Nizhegorod) University. After several years-at the "Krasnoye Sormovoll plant he joined In 1935 the Clavelektromontazh system where In 27. 1 years he advanced to the posItion of chief engineer of the Gorkly section of the designing Institute Elektroproyekt. In 1951 he published his book I'Voprosy elektrosnabzhenlya promyshlennykh predpriyatly (Problems of Electri-. cal Supply of.Industrial Enterprises)"; In 1956 at the Moskovskiy energeti- Card UDC: 6Z1.312  ACC NRs AP6013000 _T cheskly institut (Moscow Power rnstItute) he defended his thesis "Distri- button of Alternating Currents In Current Conductors". He became professor in-1960., From 1939 he has been continously the vice-president of the Gorkiy) 'board of the Scientific-Engineering Society of Power Engineers Wo energe- 1 .tikov) 6 Recently* Yu. L* Mukoseyev participated in the work of the Uchebno-11' m e t ad I ch es ka ya _k6i I s ii-yi- 9~ _(P~ d a -go g'fca' -1--M iiho do I -ag 1 6j 1 -C -6 i6ri -1 - s-49-1 on 0 f th e- Ministry of Arvament) and of-the SSO [?)._P4SR for the I Su PlY Of-', qp~ . - - V -Industrial Enterprises and of Cities.~, 0r:1g.- _aA_.h&is,.- 1 figure. CJFRS7 SUB CMEt 10 MM DM: none /2 _.eAj ~.rd 2 777 777 7, ~77  C,) i U --W V ACC NRi AP0012975 SOURCE CODE: UR/0094/65/000/009/0043/0043 AUTIHOR: ~~t=lxa.sl_ 14.., Vinogradov, A. A.; Volobrinskiy, S. D.; Geyler, L. B Grudinskiy, P. G.; Dolginov, A. I.; Zillberman, R. I.; Kazak, N. A.; netenik, Knyazevskiyp-B. A.; Livshits, D-. S.; Meltnikov, N. A.; Minin,-G. P.; Mukoseyev, Yu. L.; Nayfelld, M. R.; Petrov, I. I.; Ravin, V. I.; Samover, M. L.; Serbinovskiyj G. V.; Syromyatnikov, I. A. ORG: none TITLE: Lev Veniaminovich Litvak (on the oocasion of his 60th birthday) SOURCE: Promyshlemaya energetika, no. 9,._1965, 43 TOPIC TAGS: electric engineering personnel, electric pmer engineering ABSTRACT: The.noted specialist of industrial power production, Candidate' of Technical Seiencesq Docent of the Correspondence Power Institute Lev Veniaminovich LITVAK began his engineering activity at the Moscow Association of State Electric Stations in 1929. Later he became one of the coauthors of all the "Directives: for the Increase of the power factor" Issued in 1954, 1955, and 1961. He published 70 scientific papers. Vor his successful activities in defense Industries during World War II he was deco- rated by "Znak Pocheta.11 After the war he concentrated on sci- entifle-podagogioal work and in recent years worked actively in  ACC NR: AP6. 012975 the Teaching-Methodological Commission of the Ministry of Higher and Intermediate Special Education USSR, for the specialty "Electrical supply to industrial enterprises and cities." Orig. art. has: 1 figure. [JPRS] SUB CODE: 05)-10,, 09 SUBM DATE: none 40 2/2 Card  ACC NR- AP6017709 SOURCE CODE: UR/0105/66 0086 AUTHOR: Avilov-Karnaukho , V. A.; Volobrint3kiy, V, B. N.; Bolsham Ya. M*.I Venikov, B.Plinin Cy. -B. A VS Y) - I F.; S. DO: YerRlov. A. A.; jWnstantinov-, KnyaZe 0 1 -G . V"; -, rVaT, I k Miller, G. R ; Mukoseyev,.-Yu.- .; Petrov, I. I.; Serbinovskiy, Syra 1. A.--Fedorov A. A.; Kholmskiy, G. V.; Sha alov, A..S.; Chilikin, M. G. ORG: none TITLE: Prof.-Georgiy Mikhaylovich Kayalo (on his 60th birthday) SOURCE: Elektrichestvot no. it 19660 86 TOPIC TAGS: academic personnelj electric engineering personnel, electric equipment ABSTRACT: In 1929, G. M. Kayalov completed the electrotechnical department of the Mechanical Faculty of the Novocherkassk Polytechnical Institute. Until 19470 he worked in the planning department of the Rostov Division of the All-Union Electrotechnical Union. In this time, he rose to the position of Chief Engineer., He directed the planning of a large number of important pieces of electrical equipment for various projects. He was active in the postuar restoration of many important industrial enterprises. He is the author of almost 70 published works, and has made a great contribution to modern, scientifically based methods of design and analysis of electrical loads for industrial equipment. lie is on a number of commissions and in many scientific and technical societies. Orig. art. has: 1 figure. [JPRS1 SUB CODE: 09 / SUMI DATE: none :c UDC: 621.34 Card 1/1 6 LQ A 7~'  L 0 L 16 11 l'; ~',C-n tlh~-, 1 ro~ SwItudyinc the 110ri"zontal D-,for; at*;ons Yotloc"s C~f Earth's Cru3t. L- G=o-;e.~~4c 24/3/50 Foscow Inst o.1. of Fhotogravhy and Oartogra;-Iiy. Vechervaya Moskva 11 Sum 71  BOLISHANIN, B. I. $Conversion of geodetic coordinates to rectangular ones and the other way around with the help of special tables. Izv.TPI 93:191-207 158- (MIM 13:5) (Mine surraying)   1:60409-65  BDI, ~ it. - ~,, ~ . ~.; P~:Y;Ala N., I.;'. with nj]-tiple-digit numbers. izv. TPI 118:19-45 163. (YJRA 18:01)  o n S -.1   5&076~b5_____ ACCESSION HR: -AP5013809 Licients of at=ic-disparity and iho~refore nd to, concentrate at grain s:based on ule cad Sb) Inc, a of allay _jL (99.99%) with 0.5% boundaries. . 0.02% Te, 2% 11 71 0.027, T . were -homogenized a~ 270*C for 48 1 and 0. 5 3Y. V hr and rollej into. L 2 mn bicl-, strips from , which f lat specimens were die- punched for metallographiccv-taminp.*,-.ions. Af tot their annealing, the specbmens -were chemiciffy polished and etched. Thin lines were etched in polished spec2mens and the relative. displacement- of grains . won determined fron. the rupture in these lines at the point of -.interdection with the boundary between two, grains. 'After this the.specimens were s~bjectcd to tensile tests at, the rates of vi 0. 1 30"Imin at-room temperature. The structure and Va arising as a r,es(tlt* of Me ef ntion was Px=ined with the aid of a MD4-7 microscope... In additioa, wliespecimens:stretched at the same two rates An the presence.of 17-22, 70, 120P 170, 220, and 2507C 4ere investigated to determine -.the degree of def armation C.: 1. At room te;T) ra~ure antimony proved to.be more efiective in increasing deformationWesistance than tellurium since it- tnttrs the Sol sn~' thallium, id voTu-tionin greater concentrationo. r proved At high temptratu es (2qp We) and low deformation rates tellurium ~:z: to be the most ef f ectiYeO. thU6 " t'he ternarf Pb-Sb-Te alloy in particularly advlvsblo~ since Iti) antimony collpidarablor strengthons the body of thd pxain   R .6 " A . F. P. 1 1 iv AnINDOODY Ot Diff i n Ot Into ZK - 1 M~ t 4iL ,1-1 41 .1 tow 1 01 1 WWOW (Min to it, 1 4 .t t 4 1 1 1., 4 1 1 1,111% 1 a t,, of ilfltlln I It'll or 0.~i4 MIM11111.) i -nuil to the bnsal piano alill I lllc~curv Mtn zino-was at~dlcd Itilhe diretAlona not ism of flio first order. The depth ofpenetrati --qorien- ticirmal to the on is an e doesnot depend on the 1 and the difluplon roeff eviture finIfunction Tibotem . . , p a Mercury Mom t4i diffuse ;tallograpbin dimtinji. The energy nnr,.e,-,kFtr3, for "Y1 , ~4 in differmt, prism of the firot ordor. Tho diffi,mven In tbo diffultion ratim I tious Pro thun duo to differmce-i In tho &CH-vation envq:jtvr. AntoclAnnn- d rm 21 tho decmate In the %niFotropy of dithiMun xvith tion is ndvPncxxI to account for . LinpreAsingfern rature.-N.A. 5r: ~ftu 9 .11 U...... JI:  PANI%itl -j 1. Cps .1-11 qssue" d UISMOM ft the Dif"Dift of x IV Into Vad. %1, A, Wk~e blinwa and V. A. J%vlov (YAur. Skpw. Tfwd. J'jSjl-j (J. NApr, Thrio, t, MWAt AtImPofinercun-wasidanA ~149 Oe oil ow hwal pjaw of a dpfonwd xim sh~sle cMl,rA. And its tfifft~ion was oil- at 0 Thersh, of I".1"'trat6-41ana fourA W Iv, a finictiou Oftlo tvinprratum (tit wvrval drAMV tir tieftwiriation. on *I Us f4pit" 11r. etral4lit litwA 'Arm obtain-1, 0 .1 A on d do ebetp, V. in The equatim D - 1).P- % hich lirmitt-ml the =tri '11w, valuvo of F1 w"S. pcAycrydal 40M. urAefiirvaril sinjOn crystal Ulwl. rog The lax -1 T urvi. b" x Hr A" or c go 1y was IN x 10 (ut all 116 do(MINDil 61%10 "WO hbit 6 bMAk At 4 ~rgutirluw 41*.mA abom4l'ansuntedthe Talurfm 1611,111 def"t"AcryPtAl - 00 00a 041 thp 14"00 JefMMSUOU disappvw~l At 40o. V for a twinnixt crystal VAX OoL, erga, AM even &i OW V. It was still IVK) Y, 10-11 rrg,~-%*. A. 00 0 e z;* 0 Z 0 a ji woo lu 0 0 An a 1b u It AT ;too 110K ftit ftis Ktg a I Ar si -j Aj 1 6 0 4 0 --;ooooooooR',s'- 0060 0000000 00 0 0 4 ! !10 ; 0 0 0 0 : 40 : : o o o 0 o is 0 o 0 :- ~iv 0- -A- 0 0 **go oo 0 Go 0 0 00  &OL'SIMNINA, Mlarin Aleksandrovim Professor of Physics and Technical Institute "Physics of the Solid Body" (Co-author) Soviet Source: N: Stalinskiy Komsomollsk Komsoinollsk Na Aniure 8 August 45  equation few a flow curve is developed to mplam Mazwetl's qmli~m: v - v. I 1AP- 4- 1, to and b cwt4ts, r is rate --f Ali imilteviNI M-w curve hould mikt .4 2 I"41(l, al Veit hir c'(* - - *) - 4 (4,40- wIlm f. A. a. A# ~4-,Vwt. .10 * - ** YiW* I" - 4 -- F~m 41jilt-4vot lAws F, difielcut sirrms 0 441t ImysVitry to, OstAin the lumv dt-11% Ilie dytialltic &Nurff. hic'murmcnil l"I I'll Allow Olm thin ["R, diothathet ill low irtlip. 1r%to with ~vi, 14%. At. Cu. 114 Ire bhow IN11 tile drimom. .-ST. 6 hishel m joft~j 10171tifig 1111CIdill. KHOWIMAr 4 Ow dyn,11114, 1-,wfl. is jill, I"'Clant in luctailludicAl W,W k. Dillifilt 111(flAtilit' (ICIMMA- IilUl tile 1AMAT ii t(WIT 416141911111 OUM dUlitill StAtit' l1rf4VfolA- 1011 And OW11-1mr tile or.6tatux, 110 41111111AIiiMl ill "FrAlbelk "ilh tile IMO 94 A 111611.11Y 1411.4111k 41ANIM.Iii'll lixajusdi~ are si-il s4 tile e1wissr of 11w1wilit, s% .% irmilt .4 dyllAillic th-fix"wh4l. . S.  PHASE I BOOK EXPLOITATION 225 Rev. Tomsk. Universitet. Sibirskiy fiziko-tekhnicheskiy institut. Issledovaniya po fizike tverdogo tela (Research in the Physics of Solids) Moscow,, Izd-vo AN SSSRJ' 1957. 277 p. 4,000 copies printed. Resp. Ed.: Bol'slianina M A Dr of Physical and Mathematical Sciences, Prof.; Ed. of PubTi-sh-U-g-Homse: Bankv-1tser, A. L.; Tech. Ed.: Kashina, P. S. Approved for printing: Akademiya nauk SSSR. Otdeleniye fizikomatematicheskikh nauk. PURPOSE: This collection of articles is meant for metallurgical physicists and for engineers of the metalworking industry. COVERAGE: This book contains results of research in the field of failure and plastic deformation of materials, mainly of metals. The work was conducted along two main lines: 1) study of the physical principles of plasticity, study of the effect of temperature, ratee of deformation, character of alloys, etc... on the mechanical properties., and 2) the study of the cutting, wear, and friction characteristics of metals and alloys. This collection is Card 1/13  Research in the Physics of Solids 225 Rev. dedicated to Vladimir Dmitriyevich Kuznetsov., Corresponding Member of the Academy of Sciences of the USSR,, Professor, Doctor of Physical and Mathematical Sciences. The physicists of the Tomsk State University Siberian Physics-technical Institute (SPTI) and other scientists participated in this work. TABIZ OF CORrms: Preface 4 Vladimir Dmitriyevich Kuznetsov, Corresponding Member of the Academy of Sciences of the USSR (on the Occasion of the 70th Anniversary of his Birthday) 5 Khrushchov, M. M. Certain Problems in Abrasive-Wear Testing Methods 10 Wear-testing investigations vere performed by Zaytsev, A. K., Pro- fessor Matsin, E. A., Zamotorin, M. I., Professor, Khrushchov, M.M., and Babichev, M. A. Abrasion testers used were the Kh 4 and Kh 4-B. There are 5 figures., 1 table and 17 references.. 9 of which are Soviet. Card 2/13  Research in the Physics of Solids 225 Rev. Kragellskiy, I. V., and Troyanovskaya, G. I. Effect of Temperature on Friction Characteristics 20 The following materials were used in experiments: plastics FK-24A and 6KKh-1 and metal ceramic MK-2, and as the second element of the friction pair cast iron ChM*1h, SCh-21-40, and steel 45. The machine used was the type I-47-K-54. There are 9 figures,.'and 15 references, 7 of which are Soviet. Grozin, B. D., Vallchuk, G. I., Gorb, M. L. Physical State of External Layers of Machine Parts 37 Wear tests were performed on the NI machine. The steels studied were the R18., R9, 15 SbKh 15., and U8. There are 9 figures and 1 Soviet reference. Garkanov, D. N. Experimental Study of the Effect of the Ratio of Friction Surfaces on the Ratio of Wear by Weight 41 Card 3/13 a;;5t4- 'qj  Research in the Physics of Solids 225 Rev. Personalities mentioned are Kosenko, I. A., In'shakov., N. N..' Seredenko, B. N.., Khrushchov., M. M.., Professor, Radchik, V. S.j, and Radchik, A. S. Wear-testing machines used were the type A Ye.-5 and type MI; materials tested,, steel 45, bronze BrAZIMts, and plexiglass; lubricant used, type MS plus abrasive. There are 3 figures, 2 tables, and 13 references, 12 of which are Soviet. Kiselev, G. I. Effect of Scale on the Scratch Test of Metals 49 Person&lities mentioned are Davidenkov, N. N., Savitskiy, K. V., and Kudryav-tseva., L. A.., from SFTI; Gogoberidze, D. B. and Maslov, Ye. N. Materials tested were lead., tin, copper, iron, brass L-62, and aluminum; cutting points used., ShKh 15, hard alloy VK -8, and a diamond point. The testing machine was developed by SM. Microscope used was the type MIS -11. There are 5 figures, 2 tables.. and 8 references, 7 of which are Soviet. Card h./13  Research in the Physics of Solids 225 Rev. Yepifanov, G. I. The Binomial Law of Friction. Personalities mentioned 6o are Deryagin, B. V.,, Kragellskiy, I. V.,, and Minayev., W. I. Materials tested were electrolytic copper,, high purity alumimm. Armco iron., brass, steel EI -417, and alloy EI -437. There are 7 figures, 3 tables, and 5 references, 3 of which are Soviet. Flerov, V. I. Effect of Scale on the Relation of the Friction Coefficient 70 Personalities mentioned are Kostetskiy, B. I.,, Kuznetsov, V. D., Rozenberg, A. M., Yeremin, A. N., Klushin,, M. I., and Gordon, M. B. Material tested was axle steel; the cutter, hard alloy T 15 K 6; the machine, the PHT-3. There are 3 figures, 3 tables, and 13 references, 12 of which are Soviet. Savitskiy, K. V., and Shvartsman,, Ya. V. Effect of Heterogeneous Harden- ing on Friction and Wear Characteristics of Alloys 79 Personalties mentioned are Matsin, E. A., Khrushchov, M. M. Kuritsyna, A. D., Zagrebennikova, M. P., and Bochvar, A. A. Tested materials, Card 5/13  Research in the Physics of Solids 225 Rev. were Al- Cu and Cu - r alloys and steel U 12. There are 4 tables,, l figure, and 4 references, all Soviet. Kashcheyev., V. N. Nonlubricated Friction of Certain Metal Pairs 86 Personalities mentioned are Aynbinder, S. A., Klokova, E. F., and Kostetskiy, B. I. Materials tested vere hardened steel ShKh 15, annealed medium-carbon steel., and bronze OTsS -6-6-3. There are 6 figures and 7 references, 5 of which are Soviet. Orlov, B. M. Effect of Lubricant on the Cutting of Steel at Reduced Speed 94 Personalities mentioned are Savvin, N. N., Rozenberg, A. M.j Vinogradov, Yu. M., Rebinder, P. A., Arshinov, V. A., and Yepifanov, G.I. Material used was the steel 20 Kh. Cutter made of steel R 18 with a cutting speed of v = 25 mm/min. There are 6 figures and 5 Soviet references. Card 6/13  Research in the Physics of Solids 225 Rev. Toporov, G. V. Effect of the Structure and Quantity of Pearlite on Abrasive Wear of Cast Iron 102 Personalities mentioned are Konvisarov, D. V.., Grechin, V. P., SukhodollskqLya, Ye. A., Kislik., V. A., Frolov, V. I., Chernenkoj, D. Nj Dubinin, N. P., Timfeyev V G and Kuznetsovj, V. D. Material tested vaB the eutectic steel U A. 'Th;r'e are 3 tables and 10 Soviet references. Savitskiy, K. V. Study of the Distribution of Residual Deformations Under a Friction Surface 107 Personalities mentioned are Kuznetsov, V. D. and Yarkina, G. S. Materials tested vere sheet aluminim., steel 1J. steel 5, and steel ShKhI5. Rate of sliding was 2.2 m/min. and load 2.5 kg/M2. There are 7 figures and 1 table, and 2 references, 1 of vhich is Soviet. Kufarev, G. L. Experimental Study of Plastic Deformations in Metal cutting 115 Card 7/13  Research in the Physics of Solids 225 Rev. Personalities mentioned am Kuznetsov, V. D.,, Smirnov-Alyayevi, G. A.) and Rozenberg.. V. M. There are 12 figures.. 2 tables, and 3-1 references, 8 of which axe Soviet. I S ilkharinal N. N. Study of Stresses of the First Type in Rolling Friction 127 Personalities mentioned am Davidenkov, N. W., Shevandin, Ye. M., and S&vitskiy, K. V. Materials tested were technical copper and low-carbon steel. There are 5 figures and 7 references, all Soviet Krivoukhov, V. A. and Belousov, A. I. Determination of Cutting Force from the Physical Characteristics of Machined Metals 132 Personalities mentioned are Zvorykin., K. A., Usachev, Ya. G., Kuznetsov, V. D.., Krivoukhov, V. A., Rozenberg, A. M., and Bol'shanina., M. A. There are 5 figures and 6 references, all Soviet. Kudryavtseva, L. A. Determination of the Relative Values of Surface Energies 139 Card 8/13  Research in the Physics of Solids 225 Rev. Personalities mentioned am Kuznetsov, V. D.r Rebinder, A. P., Shreyner', L. A.Y Loskutov, A. I., BOyar8kaya, Yu. S.y Maslov, Ye. B., Troitskiy, A. V.0 Kachalovo N. N., Kashcheyev,, V. H., and Fersmw, A. Ye. Materials studied -were the monocrystals of alkali metal halides. There are 2 figures, 4 tables., and 11 Soviet references. Nikitina, A. K., and Bol'shanina, M. A. Effect of the Rate of Deforma- tion on the Softening of Copper 146 Personality mentioned is Lashko., 17. F. Material tested was VEL. There are 3 figures, 1 table, and 7 Soviet references. Zhdanova., V. N. X-Ray Study of Structural Defects in Metals Due to Tensile Deformation 152 Personalities mentioned are Kurdyumov, G. V.., Kritskaya,, V. K., n1ina.. V. A., Lysak, L. I., Vasil'yev., L. T.., and Umanskiy, Ya. S. Materials tested verre alumimm, copper, and nickel. There are 3 figures, 1 table, and 7 Soviet references. Card 9/13 -W V  Research in the Physics of Solids 225 Rev. Makogon., M. G.., Legkova,, M. L.., and Tabaterovich., A. K. Correlation of the Velocity Coefficients of Flow Curves with Creep and Relaxation Rates 159 Personalities mentioned are Vasillyev, L. I.., Spevak, L. A., and Kulikova, K. MAterial studied was tin. There are 4 figures, 2 tables, and 9 references,, 8 of vhich are Soviet. Zhdanova, V. N. Study of the Softening of Dravu Tin Due to Applied Load 170 Personalities mentioned are Oding., I. A., Kulikov, F.- V., Makagon, M. B.p Legkova,, M. L.., and Tabatarovich, A. K. Materials studied vere tin 01 and commercial tin. There are 2 figures and 2 Soviet references. Rybalko, F. P. Nonuniform Distribution of Plastic Deformation and Hardening Orientation 174 Materials tested were aluminum and copper. There are 7 figures and 7 Soviet references. Card 10/13  Research in the Physics of Solids 225 Rev. Grin', A. V.., and Pavlov, V. A. Internal Friction in Deformed Aluminum- Magnesium Alloys 184 Personalities mentioned are Veynberg, B. P., Kuznetsov., V. D.., and Ioffe, A.F. Materials used were alloy prepared from aluminum AVOOO and electrolytic magnesium. There are 6 figures and 18 references, 9 of vhich are Soviet. Bolishanina, M. A., and Panin, V. Ye. Latent Energy of Deformation Personalities mentioned are Bollshanina, M. A., Khotkevich, V. I., Kunin, N. F.., Senilov,, G. V., Fedorov, A. A., Degtyarev, M. M., Studenok, Yu.A.., Panin'. V. Ye., Tyzhnova, If. V., Fastov, N. S., Shermergor, T. D., Nikitina., A.K., Shelepukhin, P. R., Grazin, P. L., and Milevskaya, V. G. Materials studied vere copper, aluminum, nickel, steel, steel 3, iron, brass, bronze, zinc, silver, and tin. There are 19 figures, 4 tables, and 64 references, 23 of vhich are Soviet. Vasillyev, L. I., Yelsukova,, T. F., Bollshaninap M. A.,, and Kandratlyev, P. A.. Vibrational Stability of Certain Lead Alloys Used for Cable Heathing., Part 1. 234 Card 3-1/13  Research in the Physics of Solids P-25 Rev. Personalities mentioned are Samoylov, V. N., Obolentsev., A. V., and Vasillyev, L. I. Materials studied were a total of 13 lead alloys: binary alloys of lead with antimony, tin, cadmium, bismath, and tellurium; ternary alloys of lead-antimony-tin, lead-antimony-tellurium, lead-antimony-arsenic, lead-antimony-sodium., and lead-antimny-selenium; quaternary alloys of lead- antimony-tin-copper and lead-tin-bismath-arsenic. Research was done from specifications of the Tomsk Cable Plant "Tomkabel" vith the participation of engineers of this plant. There are 4 figures, 3 tables, and 4 Soviet references. Bol'shanina, M. A., Yelsukova, T. F., Kondratlyev, P. A., and Fomina, M.A. Vibrational Stability of Certain Lead Alloys Used for Cable Sheathing, Part 2. 242 Personalities mentioned are Zakharov, P. A... Pereslegin., V. A., Dnestrovskiy., N. Z., and Shpagin., A. I. Materials studied included 19 different lead alloys: binary alloys of lead-antimony, lead-cadmium, lead-tin, lead-bismuth., and lead-tellurium; ternary alloys of lead- antimony-tin, lead-antimony-sodium, lead-antimony-arsenic, lead-antimony- tellurium, and lead-antimony selenium; quaternary alloys of lead-antimony- Card 12/ 13  Research in the Physics of Solids 225 Rev. tin-copper and lead-antimony-bismuth-arsenic. There are 17 figures, 4 tables, and 12 references, 3 of which are Soviet, 1 German., and 8 in English. Kiselev., G. I. and Ilyushchenkov, M. A. Physical and Mechanical Properties of Law-Carbon Steel 262 Personalities mentioned are Shramkov, Ye. G., Akalov, N. S., and Lifshits, B. G. There are 9 figures, 3 tables., and 16 references, 13 of which are Soviet. Karpenko, G. V. Universality of the Adsorption Effect of Hardness Decrease in Metals 273 Personalities mentioned are Aslanova., M. S., Chayevskiy, M.I., Markova, N. Ye. Rebinder P A and Likhtman V I. Materials used vere tbe lsii~l ShXh 15 i~d*irass L-62. Hei4 are 9 Soviet references and 1 figure and 1 table. AVAILABLE: Library of Congress Card 13/13 BK/mal 9-11-58  SOV/124-58-11-13596 Translation from: Referativnyy zhurnal, Mekhanika, 1958, Nr 11, p 229 (USSR) AUTHORS- Boll shanina, M. A. , Donets, A. T. T IT LE: On theTffru-effC-~he Strain Rate on the Relaxation Process (K Voprosu o vliyanii skorosti deformatsii na protsess relaksatsii) PERIODICAL: Izv. vyssh. uchebn. za,.,edeniy. Fizika, 1957, Nr 1, pp 17-22, ABSTRACT: Stress relaxation was studied following the twisting of tubular alum- inurn specimens at various rates of deformation (from 0.025 to 74.4 rpm) and at various temperatures (from 17 to 4000C). The mean rate of relaxation was evaluated by the recovery coefficient a, which was determined from the "torque moment vs. time" curve according to the formula a = AM/MoAt, where Mo is the torque corresponding to the end of the deformation and the beginning of relaxation, AM is the decrease in torque during the time of relaxation At seconds. It is shown that with increasing rate of deformation the initial rate of relaxation grows, whereas the torque moment remains almost unchanged The results obtained are explained by the presence of less stable disc tortions of the crystal lattice at greater rates of deformation. It is Card 1/2 established that at temperatures up to 2000 the mean rate of  On the Influence of the Strain Rate on the Relaxation Process SOV/124-58-11-13596 relaxation is a linear function of the logarithm of the rate of deformation; at higher temperatures a more complex relationship is observed. G. A. Tulyakov Card 2/2-  SO V/ 137-58-10-21669 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 10, p 174 (USSR) AUTHORS: Bol'shanina M-A-,Makogon, M.B., Panin, B.Ye. TITLE: Resistance-to-deformation Properties of Copper and its Alloys as a Function of Temperature and Rate of Deformation (Tem- peraturno-skorostnaya zavisimost' soprotivIeniya deformatsii medi i ypyeiplavov) PERIODICAL: Dokl. 7-y Nwuchn. konferentsii, posvyasch. 40-letiyu Velikoy Oktyabrlskoy sots. revolyutsii. Nr 2. Tomsk, Tomskiy un-t, 1957, pp 55-57 ABSTRACT: Resistance to compressive deformation of Cu and its Ni, Al. and Zn alloys (5, 10, and 15 atom-c/o) which have been sub- jected to various degrees of work hardening (w-ith re&uctions of up to 40019) was studied at different strain rates (0, 0.05, and 0.005 mm/min) at seven different temperatures ranging from 20 to 6000C. The results of the investigation der-nonstrated the complete applicability of theory of hardening and recovery to a wide range of temperatures and rates of deformation. -An anal- ogy, established for laws governing the deformation of low- Card I/Z melting metals and Cu alloys, makes it possible to carry out  SO V/ 137-59-10-21669 Resistance - to- deformation Properties of Copper and its Alloys (cont.) research on physical principles of high -temperature plasticity of metals (as applied to the problem of heat ~te-sistant properties) on modellinc, materials. P. N. 1. Copper-Deformation 2. Copper a1loys-Deformtion Card 2/2  SOVi 137-58-10-21684 T ran slation from: Referativnyyzhurnal, Metal lurgiya, 1958~ Nr 10, P 176(USSR), AUTHORS: Bol'shanina, M.A., Kondratlyev, P.A. ------------------- TITLE: Metallographic Studies of the Deformation of Lead (Metallo- graficheskoye izucheniye deformatsii svintsa) PERIODICAL: Dokl. 7-y Nauchn. konferentsii, posvyashch. 40-letiyu Veli- koy Oktyabr'sk. sots. revolyutsii. Nr 2. Tomsk, Tomskiy un-t, 1957, pp 62-63 ABSTRACT: Investigations were carried out in order to study the micro- scopic deformations occurring in coarse-grained and fine- grained Pb subjected to static elongation and fatigue tests. A comparison of the microscopic nature of deformations in Pb, Al, and heat-resistant alloys (high temperatures and small strain rates were employed in the case of the latter) revealed an analogy in the laws governing the flow of polycrystalline materials, It is proposed that Pb be utilized as a model in In- vestigations dealing with the behavior of heat-resistant rnat- erials at elevated temperatures and small strain rates. Card 1/1 1. Lead-Deforwation 2. Lead.-M-icroanalysis P.N.  SOV/ 137-58-10-21687 Translation from: Referativnyy zhurnal, Metallurglya, 1958, Nr 10, p 176 (USSR) AUTHORS: Bol'shanina elsukova, T.F., Kondrat'yev, P.A. TITLE: Employment of Tellurium in the Manufacture of Electrical Cable Sheathing (Primeneniye tellura v kabellnoy promysh- lennosti) PERIODICAL: Dokl. 7-y Nauchn. konferentsii posvyashch. 40-letiyu Velj- koy Oktyabrlsk. sots. revolyutsii, Nr 2. Tomsk, Tomskiy un-t, 1957, pp 67-68 ABSTRACT: The effect of adding Te to Pb alloys employed in manu- facture of sheathing for electrical cables was stucbed. An addition of 0.02-0.057o Te to the alloy Pb+0.5 Sb improves the technological properties of the latter and increases its crW value. The addition of Te favors the progress of structural changes which occur in the alloy and improves its heat- resist- ant properties (up to 2001C). Mechanical properties of the alloy, particularly the crW, are improved as the Te content is increased. It is recommended that the Te be introduced in I-lie form of an Sb-Te alloy. 1. Te11uriwr---ADr1-'~;at4_ons 2~ E'.1.ectz,'_c c;ab!"'_~'s Card 1/1 -_'-hi-elding 3. Lead-., e11urium al]loys--Fropert~~_es P. N.  SOV/1 37--58-11-23397 Translation from: Referativnyy zhurnal. Metallurgiya, 1958, Nr 11, p 222 1.USSR.) AUTHORS: Nikitina, A. K. , Bol'shanina., M_A__ TITLE: The Effect of Strain Rate on the Softenin ini !C g of Copper (VIiv, skorosti deformatsii na razuprochneniye medi) PERIODICAL: V sb. : Issled. po fiz. tverdogo tela. Moscow, AN SSSR, 1957, pp 146--151 ABSTRACT: The temperature stability of distortions produced in Cu at various strain rates (R) was investigated experimentally together with the kinetics of the softening of the metal at different. annealing tempera- tures. The tests were carried out on a Cu wire (Ml grade, 0.5 mm diarn) which was cut into specimens (S) of a design length of 50 mm Preliminary cold hardening was achieved by means oi static eloroa tion of the S by an amount equivalent to 260/6 at rates vl---O. 030ib/nin and v?=2a5O/o min. The S were then annealed in vacuum tor a period of one hour at temperatures ranging from 150 through. 3500C. After annealing, all S were again elongated, this tirne by 49o, at a rate of 0.37o/min. The true-stress value thus obtained served as a measure Card 112 of the dearee of cold-hardening remaining after anneAling- The test. 0  The Effect of Strain Rate on the Softening of Copper SOV/137- 23~C)7 results were platted in the form of curves representing the true st-resses ~4risillL_" during the second elongation (at a rate of 0.3~O/ /mill) as LA function of the atinealin,o temperature. It is shown that increasing the elongation rate results in all increased resistance to deformation. Compared with S which have been elongated at a slow rate, specimens which have been'subjected to rapid elongation and which exhibited a higher resistance to deformation at room temperature begin to soften at a lower temperature. The recovery isotherms derived as functions of the anneal time possess the customary shape. The sharpest drop in the isotherm is observed during short periods of annealing; it is also most pronounced as the preliminary elongation rate and the annealing temperature are increased. Based on an analysis of the experimental results it is concluded that an increase in the rate of elonoa- tion not -onLy leads to quantitative changes in the degree of cold-hardening but also results in a modification of the nature of this process which is manifested by a change in the temperature stability of the distortions induced in the met.al al. vari- ous rates of elongation. V- M Card 2/2  BOLISHANINK, M.A.; BUSMILAI, L.S. Effect of abort heating on mechanical prOD-srtieH of duralumin. Izv. vys. ucbeb. sav.: fiz. no-3:43-47 '58. (14IRA 11:9) 1. Sibirskly fiziko-t"khnichaskiy Institut pri Tonskom goB- univernitate Imeni V.7. Kuybyabeva. (Duralumin-Testing)  BOLISHANINA, M.A.; MAKOGON, H.B.; PANIN, V.Te. relation in the resistance to deformation copper and its alloys. Isel. po zharopr. sPlav. 3:189-205 (Copper alloys--Testing) (Deformations (Metals at high temperature) (KRA (Mechanics)) of ' 58. 11:11)  SMISMINA, M~A.# prof*, redel IMMVINA, L.G., tokhn.nd. ~lLabovatoz7-wenul in plWS1081 Finiahaskii prektikam. Pod reds NeAeBol'shazincle Tomsk. Pt.l. fYirst physical labontox7l msoWmlas4nd molecular p4sicel Pervais flul- abaskeis, lalsevatorite, sekhanika I mol-skallernais Mike, 19590 136 V. (Him 1318) 1, Tomake Universitete (Physlos-Uborstory ==mls)  KONMTIYZV, P.A.; I~PLISWIHA, M.A. Mechanism of fatigue rupture in lead. Izv. vys. ucheb. zav.; fiz. no.4;84-87 '59. (WRA 13:3) 1,Oibirskiy fisiko-tekhnicheekly institut pri Tomakom gosuniversitate imeni V.V. Kuybyshev&. (Lead--Fatigue)  a9" It p 9 g F E :1 F E v  BOLOSBANINA, M.A.; KOITDRATIYEV, ?.A. Metallographic study of the formation of the sub structure in lead in stress deformation. Izv.vyo.ucheb.zav.; fiz. no-3: 119-122 160. (MIRA 13:?) 1. Sibirskiy fiziko-telchnichookiy institut pri Tomskom gosuniversiteti im. V.V.Kuybysheva. (Lead--Metallography)  KUMMSOV, V.D. Prinimali uchastiye: KOSTYUVA, A.L. doteent, Icand. fiz.-mat.nauk; KATM, G.I.. starshiy nauchny,7 notrudnik, kand. fiz.-mat,nm&; DMOTIDOT, A.N., prof.# doktor tekhn.nauk; DEGTTARNT, T.P.6 doteenti BOLISHANINA, Mariya Aleksandrovns, prof., doktor fis.-mt.nouk-.-fe-u-re-a-FMVaaTn-sXcy-y-p-r-e-mlf.-o-tv.-re-a-. (Solid state physical Fisika tvardogo tole. Tomok, Izd-vo Poligrafizdat. Tol.4. [Materials on the physics of external friction, wear, and internal friction in solids] Katerialy po fizike vneshnego treniia, iznosa i vnutrennego treniis tverdykh tel. 1947. 542 p. Vol-5. [Materials on the physics of the plaut.icity and brittleness of metals] Naterialy po fizike pliritichnosti i khrupkosti motallov. 1949. 699 p. (MIELA 14:4) 1. Tomakiy gosudarstvennyy universitet (for Kostyleve, Bollshanins). 2. Sibirskiy fisiko-takhnicheskiy institut (for Karpov). 3. Tomskiy politekhnichaskiy insiiiut (for Dobrovidov). 4. Sibirskiy metal- lurgicheakiy institut, g. Stalinak (for Degtyarev). (Solids)  XON M TIYEV, P.A.; BOLIS W INA, M.A. Formation of cracks at the edges of annealing twins in lead because of fatigue. Izv.vya6ucheb.2av.;fiz. no.2:127-128 160. (MIRA 13:8) 1, Sibirskly fiz1ko-tskhnicheskiy institut pri Tomekom gosuniversitete iv ,,,. V.V.Kqyby9heva. (TAad-Fatigue)  KONDRATIYEV, P.A.; BOL'S.HA,,NINA-j I-II.A. Deformations at grain boundaries in lead. Izv.vys.ucheb.zav.; fiz. no-3:103-104 163. (MA 16:12) 1. Sibirskiy fiziko-tekhnicheskiy institut pri T.4pmskom gosudarst- vennom universitete imeni Kuybysheva.  PANINP V.Ye.; DUDAREV, Ye.F.; BOLISHANINA, M.A. Suzuki at~'ospheres in brass and aluminum bronze. Dokl. AN SSSR 152 no.1:92-95 S 163. (~ffRA 16-9) 1. Sibirskiy fiziko-tekhnicheskiy institut pri Tomskom gosudarstyennom universitete im. V.V.Kuybysheva. Predstavleno akademikom G.V.Kurdyumovym. (Brass--Metallurgy) (Aluminum bronze--Metallurgy)  MUTS, A.T.; BOLISHAIMA, M.A. Studying relaxation in aluminum under plastia. torsion at various rates and temperatures. Ixv.vyo.ucheb.zav.;fiz. no.2:190-200 16o. (MIRA 13:8) 1. Sibirskiy fisiko-tekhnicheakiy institut pri Tomakom gosuniver- sitete im. V.V, Kuybvsheva i Rostovskiy-na-Donu institut inzhenerov zhelezuo-dorozhnogo transporta. (Aluminum) (Torsion)  BOLISHANINA, M.A., prof., red.; MORDOVIHA, L.G99 tekbn* red* [Practical work in pbysics] FizicbeWdi praktik=. Sost. kollek-tivom kafedr,eksperimentallnoi i obshchei fiziki Tonskogo gosudarstvennogo universiteta im. V.V.Yuibyshova,, pod red. MA Boll shaninoi. Tomsk, Izd-vo Towkogo univ. Pt.2-3,[Electricity and magnetism. Optics] Elektrichestvo i magnetizm. Optika. 1960. 189 p. (MIRA 14:8) 1. Kafedra eksperimentalluoy i obahchey fiziki Tomskogo gosudarstven- nogo universiteta im. V.V.Kuybyshava (for Bollshanita) (Optics) (Electricity) (Magnetism)  5/139/60/000/006/QO5/032 Eb73/E335 AUTHORS: Bollshanina.-M.A. and Fadin, V.P. qM_VMMWWW_ TITLE: On the Dependence of the Electric Resistance and the Resistance to Plastic Deformation in Molybdenum, Nickel and Zinc on the Equivalent Deformation During Torsion and Tension PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Fizika, 1960, No. 6, PP. 38 - 43 + 1 plate TEXT: It is known (Refs. 1-6) that for many technically pure metals the'flow curves which are plotted in the coordinates stress-equivalent deformation,.for various types of deformation, are in good agreement. Thus, according to these authors, one of the important characteristics of the material-the yield point expressed as a function of the equivalent defoi-niation,can be considered as not being dependent on the type of 4eformation for commercially pure metals. On the other ha~nd, a number of other authors (Refs. 7-11) consider that all the physical properties of metals are linked to some extent with the presence in the%m of collectivised conductivity electrons. Card 1/7  S/139/6o/ooo/oo6/005/032 E073/E335 I On the Dependence of the Electric Resistance and the Resistance to Plastic Deformatior in Molybdenum, Nickel and Zinc on the Equivalent Deformation During Torsion and Tension Therefore, it is of interest whether other non-mechanical characteristics of the material do depend on the type of plastic deformation if expressed as a function of the equiv- alent deformation. In particular, it would be of interest to study this dependence for the specific blectric resistance of metals. Furthermore, it is of interest to compare the changes as a result of plastic deformation in the mechanical and electric properties of metals for elucidating whether there is a similarity in the change of these properties during plastic deformation. The experiments were carried out on wire specimens of commercially pure Mo, N~i and Zn, 12-15 cm long, 1 mm dia. (Mo and Ni) and 1.5 mm dia. (Zn). The nickel specimens were preliminarily vacuum-annealed at 850 OC for I hour; the Mo specimens were also vacuum-annealed,at 1150 OC Card 2/7  S/139/6o/ooo/oo6/005/032 E073/E335 On the Dependence of the Electric Resistance and the Resistance to Plastic Deformation in Molybdenum, Nickel and Zinc on the Equivalent Deformation Uuring Torsion and Tension, for 10 min. The electric resistance was measured by means of a double Thomson bridge with an accuracy of up to 10-5 ohm, the length was measured by means of a comparator with an accuracy of up to 0.01 mm, the mass wasweighed with an accuracy of up to 10-4 g. It was assumed that during deformation the density did not change. The properties during torsion and tension were compared on the basis of equivalent deformations calculated by three methods, using the formula of Taylor and Qu~nney (Ref. 4) and relations proposed by Nadai (Ref. 12). Figs. 1, 2 and 6 show the dependence of the electric resistance P(jJ2 cm) and the resistance to plastic deformation t n(kg/mm ) on the octahedric displacement in torsion and in tension. The following conclusions are arrived atal)For Ni and Mo no Card 3/7  S/139/6o/ooo/oo6/005/032 E073/E335 On the Dependence of the Electric Resistance and the Resistance to Plastic Deformatioi, in Molybdenum, Nickel and Zinc on the Equivalent Deformation During Torsion and Tension generalised curves of the specific electric resistance versus equivalent deformation exist; the curves depend on the type of deformation, those for torsion being higher than those for tension. 2) The flow curves of Mo and Zn depend on the type of the stress state whereby the curves for torsion are also higher than the curves for tension. 3) Probably there is no similarity between the change in the mechanical properties and the electric resistance during plastic deformation of Zn, Mo and Ni. 4) The least divergence of the flow curves as well as of the curves of the specific electric resistance are observed in the case that octahedric strains are applied an a means for melasuring the equivalent deformation. Card 4/7  S/139/60/000/006/005/032 E073/E335 :On the Dependence of the Electric kesistance and the Resistance to Plastic Deformation in Molybdenum, Nickel and Zinc on the Equivalent Deformation During Torsion and Tension There are 6 figures and-13 references: 9 Soviet and 4 non-Soviet. ASSOCIATION: Sibirskiy fiziko-tekhnicheskiy insqitut pri Tomakom gosuniversitete im. V. V. Kuybysheva. (Siberian Physico- Technical Institute of Tomsk State University imeni V. V. Kuybyshev) ;SUBMITTED: December 4, 1959 Card 5/7  S/139/60/000/006/005/032 E073 /6~5 !On the Dependence of the Electric Resistance and the Resistance ito Plastic Deformation in Molybdenum, Nickel and Zinc on the 'Equivalent Deformation During Torsion and Tension Fig.1 Fix.2 AN-01w) 7J J0 liCard 6/7  S/139/60/000/006/005/032 E073/E335 On the Dependence of the Electric Resistance and the Resistance to Plastic Deformation in Molybdenum, Nickel and Zinc on the Equivalent Deformation During Torsion and Tension Fig,6 Card 7/7  3' T17 2 2 S/139/62/000/002/019/028 Y, H073/E535 .IUTHORS: Bollshanina, M.A -. and Korotayev, A.D. On the temperature-speed dependence of flow stresses of NiFeMo alloys. 1 ..D1;,R1ODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Fizika, no.2, 1962, 125-130 TEXT: The authors investigated the influence of the short- range order and of the K-state on the temperature-speed depen- c1c.1ce of flow stresses of three nickel alloys in the annealed S-,~ato. The choice of the materials'was based on the consiaeration that domains with short-range order in alloys with a K-state will b'e characterized by stronger chemical bonds than domains of ordinary short-range order, which will affect considerably the 0 mechanical properties of the alloys. The following alloys were chosen: NiFe alloy containing 81%, Ni as the alloy with the short- range order; ternary Ni Fe alloys plus ~3 wt.%' Mo and 3 wt.?' Cr, respectively, as the alloys with a K-state. In the first of these ternary alloys the K-state is highly pronounced, i..,hilst in the second one the K-state is much less pronounced. Furthermore, the Card 1/2  On the temparature-speed ... S/139/62/000/002/019/028 E073/E535 CleCtr4C resistance (at 200C) of speciiiiens, deformed bN 70' at various tem-)eratures beti-.een 20 and GOOOC. was measured. The authors conclude that formation of the K-stqte during prelii-,-,inilry -L(n;-..1-)crinc_- of quenched specimens leads to an appreciable- improve- of t',e mechanical properties in the temperature range 20 to C1000C. The formation of the K-state during deformation of c~uc.,.c'aed s-pecimens at elevated tewreratures is associated I h t!~L jumn-lil.e nlastic defori-iiation and anom-alous temp ere. -cure-speed of t'he floxr stresses. The temperature range of these n-io::,.zilies and of the jump-lihe deformation coincides with the interval of intensive increase of t1le electric resistance of deformed specimens. There are 3 figures. ~,S_--OCIATION: Sibirshiy fizilto-tekhnicheskiy institut pri Tonskom gosuniversitete imeni V. V. Kuybysheva (Siberian Physico-Technical Institute at the TomsR State University imeni V. V. Kuybyshev) S 11`13""1 TT :L, DJulY 13, 196, Card 2/2  3 7 72-5 S/139/62/000/002/020/028 v-073/r.535 AUT?OIRS: Bol'shanina, M.A., Korotayev, A.D. and Niizitina,A.K. TITLE: On the tei-,,.perature-speed dependence of 'the flow stresses of NiFe and NiFeCr. 11 PERIODIC iL: Izvestiya vysshil-ch xichebnykh zavedeniy, Fizika, no.2, 1962, 131-137 TSKT: In an earlier paper (pp.125-130 of this issue) the' influence of the short-range order and the R-state on the te:,,inerature-specd dependence of flow stresses in nickel-base Z~lloys was investigated. In this paper the same dependence was studied for the binary alloy NiFe containing 810,, Ni and the ternary alloy Ni-Fe+30' Cr. It was found that the formation of a K-state in the N-NcCr alloy does not bring about considerable strengthening as compared with the strengthening during forma- tion of an ordinary short-range order in the alloy. Plastic deformation in the range of intensive formation of the K-state and the short-range order occurs in jumps and -the nature of the deformintion in jumps is identical in all cases. In the alloy ,Ni?el,.o, the deformation in jumps is accompanied by an anomalous Card 1/2  On the temperature-speed ... S/139/62/000/002/020/028 E073/E535 temperature-speed dependence of the flow stress. In the NireCr alloy no speed dependence was observed, whilst in the NiFe alloy a normal dependence of the flow stress on the te-wperature and speed of deforamation was -found to exist. At the temperatures of forrriation of the K-state and of the short-range order, a sharp drop in the plasticity was observed. There are 4 figures and 2 tables. ASSCCIATION: Sibirskiy fiziko-teklinicheskiy institut pri Tomskorr, gosuniversitete imeni V. V. Kuybyslheva (Siberi-an Physico-technical Institute at the Toiask State University imeni V. V. Euybyshev) SUB2',:I'4TBD: July 13, 1961 Card 2/2  0975 S/659/62/009/000/003/030 1003/1203 AUTHORS Bol'shani and Popov, L. E. TITLE- 15e temperature dependence of the resistance to deformation and the K-state of nickel chromium alloys SOURCE Akademiya nauk SSSR. Institut metallurgii. Issledovaniya po zharoprochnym splavam v. 9. 1962. Mattrialy Nauchnoy sessii po zharoprochnym splavam (1961 g.), 3740 TEXT: Some hardened and cold-worked alloys of the transition elements show a considerable increase in the electric resistance as a result of tempering. This condition is called the K-state. In the present work,the deformation, relaxation, and electric conductance of stressed samples of a nickel alloy containing 9.2 wt% Or CT. which were heated for 2 hours to 950'C and then air cooled, were investigated for a temperature range from room temperature to 600'C. The results show that Lhe relationship between the above properties and the temperature is not linear, and the authors conclude that the most probable transformation taking place in the alloys responsible for the irregularities is the creation of a short-range order in the crystal lattice of the alloy The variation in electric resistance of the alloy with temperature is the same as for its mechanical properties, which shows that the creation of the K-state is due to the same structural transformation which ate responsible im the plastic properties of the alloy. In the discussion N, N, Davidenkov, pointed out that the irregularities in the resistance to deformation at various temperatures may be due to phenomena other than those indicated by rhe authors, as for instance aging. There is I figure. Card 1/1  s/126/0'2/014/005/007/015 F-193/E38.3 AUTHORS: Sidirova, T.S., Panin, V.Ye. and BoL!,% T IT 1, E: A stuciv of' the nature of low-temperature transformations in def'~rmcd Cu-Al alloys PERIODICAL: Fizika metallov i metal loved e'niye, V. 111, no. 5, 1962, 750 - 756 T NXT: The object of the "prosent investigation was to stildy the changes ta-king place on henting in preliminarily deformed alloys with a low-energy of -3tacking f*aults Experimental work .) it.7,*' AI-Cu alloy. It collsisted of" was carried out oti Lhe Ill.- determining, the effect of ageing on the density D , electrical resistivity e , temperature cooff'icient of and microhni-dness of' n) specimens annealed in vacuum for' 2 hours at 1 750 C and b) specimen.,; that, after annealing, had been deformed at room temperature to 11, 8, 27 and 44~/. reduction; . in the latter case, the first measurements were carried out immediately after the plastic deformation. Ageing was effected by raising the temperatur's of the specimens (either continuously or in stages) up to 800 C; heating was periodically interrupted, the specimen quenched and its Card 1/4  S/126/62/014/()05/007/01.5 A study of the nature of E193/ r.383 properties niensiwed at room temperature. The temperature- dependence of of both c old-worked and Annealed SpeCilliens Was also determiner The rcsul'ts for anne.Aled specimens and the material given a slight p] astic deformation are shown in Fig. 21; the scales (from right to left) relate to (D(iiacm), microhardness qg/mm 2) and CIIIWOS I and It show the Variation in Z curv'es -1 and 5 the chaurge ol' I-S D/D and curve 3 tile variation in microhardness; CUr ves .1-5 relate to specimens deformed to 811a reduction, curvVF, 11 and 5 to annealed specimens. Fig. 4 presents results equivalent to those.roiwoduced in Fig. 2, except that in this case the dofornied specimens (curves 1-3) have been given 44% reduction. Conclusions. 1) Light pla3tic deformation ot' an annealed CU-Al alloy brin.-s about additional ordering of the alloy, as a result of which P of the annealod specimens is some- what higher than that of annealed and cold-worked matorial. A further inci-ease in the clegree of order (indicated by a decrease in is caused by heating a lightly deformed specimen to a temperature of' tip to 200 OC; di.Lj(irdE-rjng JnReq plncp -jj h i Th e r t em 1) era t u r cs I'lie deformation-induced increase in strength Card 2A  s/i26/62/o 14/005/007/015, A stimly of' tile natitre. of .... r,193/r;,383 of M-Cu alloYs i!~. caused by stackinsr, faiilts and associatod Suzuki atmosphers; the increase in strvngth dtie, to short-rante order is iiisigiiiFicant. 3) Tile first stage of the dpcreasc in on heeting, a lightly derormed Al-Cu alloy is not cmsed by ordering, alone, a colls.1dernble part being played by tile formation of' additiolial SUZ111ci r1tn1osb)hcrv.-~. N'hereas the first staf; f- of the nqc 3 -'0 0 C) is determixied by the diffusion decre. - in ( (below inability of the Al Atoms iii the alloy, *the second stage (11i"her than 1150 OC) is associated with softening of tile alloy due to rc,- crystallization. There are 5 figures. ASSOCIATION: Sibir.91civ 1'iziko-tc1chziiche.,.1ciy institut (Siberian Physicotechnic*al lnstitute) SUBIMITTED: Fobruary 26, 1962 Card .1/11  BUTHVICH, L.M.; KONDRATIYEV, P.A.; BOLISHANINA, M.A. Magnitude of the oneW of packing defects In lead. Fiz.met.i metalloved. 14 no.5:783-784 N 1,62, (MIRA 15;12) 1. Sibirskiy fiziko-tekhnicheskiy institut. (Crystal lattices-Defects)  BOLISWINA, M.A. 4%iive;Lence of the effects of temperature and deformation rate of mechemicaLl propertiess Im vys* uchebe zwv; fiz. no,l: 63-77 163. (MIRA 16:5) 1. Sibirskiy fiziko-tekhnicheskiy institut pri Tomakom gosudarstvennbm universitete imeni &Wbysheva. (Metals, Effect of temperature on) (Leformation (Mechanics))  KONDRATIYEVI, P.A.;.)~Q~ISWINA, M.A. .Structure of deformed lead. Izv. v7s. uchebe zav; ii's. =.I: 99-102 163. (MIRA 16:5) ~. Sibirskiy fiziko-tekhnicheskiy institut pri Tomgkqw gosudarstvermpm universitete imeni V.V.Kuybysheva. , (Deformation. (Msohanics))- - (I*ad)  ~OLISHANINA M,A-; YELSUKOVA, T.F. Temp:erature and velocity dependence of creep strains in lead. Izv. vys.ucheb.zav.;fiz.no.2:l57-l66 163. (MIRA 16: 5) 1. Sibirskiy fiziko-teknicheskiy institut pri Tbmskom gosudaratvennom universitate imeni V.V. KiVbysbeva. (Creep of lead)  11247&-63 1WPC4Y/EWT(fa)jM AFFfC/ASj JD . ~- ff S485/63/008/003/004/009 AUTHOR: Sidorova, T. S., Panin, V. Ye. and Bollshanina, H. A. TITLE: Effect of deformation of order-disorder processes in Cu-Al alloys PERIODICAL: Ukrainslkyy Fizychnyy Zhurnal, v. 8, no. 3, 1963, 359-363. TEXT: It is known that the existence of close order in alloys may contri- bute signif.`~.caitly to strengthening of alloy and in changing its deformation prop- erties. This contribution may be evaluated after subsequent annealing of de- formed alloy, when the close order is restored. At the same time, ordering process in deformed alloys has a number of peculi r't* S hich are associated wi h the presence of a large number of dislocationsi 0 vacancies in the material. There- fore, study of ordering not only aidp the understanding of nature of deformed state, but is of interest in itself.' This work is involved with study of these processes in Cu-Al alloys having significant short order. The methods of measur- ing density, hardness, electrical resistance and temperature dependence of resis- tance were used to investigate. the deformed state of Cu Alloy. It is shown that a small plastic deformation additionally orders the annealed Cu-Al alloy. Order- ing is enhanced in the course of a small deformation if the alloy is quenched from high temperatures. The conclugion is Card 1/2  L 12478-63 S/185/63/008/003/004/009 Effect of deformation of order-disorder processes... that basic ordering of Cu-A1 alloys during deformation is not associated with the presence of short-range order in the alloy. The article contains 2 figures and a 17 item bibliography. ASSOCIATION: Sibirskiy Fiziko-tekhnichaskiy institut (Siberian Technical Physics Institute, Tomsk.)  JD HW L 12477-63 KWT(q),~/EUT(r.)/BDS AFIT/ASD 63/00/8/23/005/009 Jr AUTHOR: Bol'shanina, M. A,, Popov, L. Ye. and AleksandrOV7 N. A. TITLE: Characteristics of jump deformation in nickel alloys with close-order PERIODICAL: Ukraina'kyy Fizychnyy Zhurnal, v. 8, no. 3, 1963, 363-369. TEXT: Deformation of many alloys in definite temperature interval and at. different deformation rates occurs in a jump fashion. For investigation of the process which lies at the basis of jump flow it is necessary to conduct a detailed study of patterns of.this phenomenon. This article investigates the temperature- ~4-deformation rate of Ni al o , with 17.5% Cr. It is shown that the dependence of Fhe-=Mimum degree of-~d rmation E min on temperature and the rate of deforma- tion on temperature and the rate of deformation is described by the equation min=const. -U/rt af- - e where %A is the strengthening coefficient of the alloy at S min; m7-3/2; 1J=30 kcal/mole. A qualitative explanation is given for the characteristic of trans- ition from jump to gradual type deformation at elevated temperatures. The article contains 3 figures and a 27-item bibliography. Card I/i, Association% Siberian Technical Physics Inst., Tomsk.  BOL'SHANINA, M.A.; YELSUKOVA, T.F. Pr-naration of lead alloy samples for the metallographic analysis. Zav.1ab. 30 no.3015 164. (MIRA 17:4) 1. Sibirskiy fiziko-tekhnicheskiy institut pri Tomskom gosudarstvennom universitets.  ACCESSION NR-. AP4034049 S/0126/64/017/004/0512/0518 AUTHORS: Bollshanina, M. A.; Korotayev, A. D. TITLE: Concerning the studies on the kinetics of low temperature transformations a in alloyed permalloys SOURCE: Fizika metallov i metallovedoniye, v. 17, no. 4, 19647 512-518 TOPIC TAGS: transformation, permalloy, short range order, K stato, nickel, iron, chromium , molybdenum, tempering, annaaling, plastic deformation ABSTRACT: Tho aim of the prosont work was to rtudy t1jo of octs of hif;h-tompora- ff ture annoaling and plastic deformation on the kinotics of for-ixition of shoA range ordors (K-statos) in tempered alloys of Ni3ro with tho addition of Cr or Mo. It was found that the kinetics of this process depended essontially on the nature of the proliminary treatment of the alloy. After quenching in water, the intensity of -Vno formation process of short rango orders was far hiGhor than that after quenching in air. Plastic deforriztion of hardonod spocimons treated in hydrogen definitely lowered thq rate of transformation during; vOMDering. It was shown that the process of K-state formation could be supprossed almost Card 1/2  ACCESSION NR: A.P4034049 completely in wall-deformed specimens (in spite of the fact that the state of the alloy could be far from equilibrium). In connection with these results, the authors investiuated the role played by surplus vacancies in the process of redistribution of atoras in nonequilibrium, alloys at relatively low temperatures. Oria. art has: U' figures and 1 table. ASSOCIATION: Sibirskiy fiziko-tokhnichookiy institut (Sib-orian Physico-tochnical- Institute) SUBUITTED.- 25mar63 ENCL: 00 SUB CODE: SSY1124 NO REF SOV: 014 OTIM- R: 027 CorJ 2/2  RONDRATIYEW, P.A.; WLISHANINA, M.A. Mechanism underlying the formation of dislocation bands in lead. Izv. vys. ucheb. zav.; fiz. no.5:38-40 164. (MIRA 17:11) 1. S'birskly tiziko-tekhnicheskiy institut pri Tomskom gosudarst- vennom universitete imeni Kuybysheva.  BOLISHANINA, M.A.; WiYOGON, M.B. Effect of ohort-range order and vErious concentmtion Inhomoge- neities on the mechanical and physical prope.ties of alloys- solid solutions. Izv. vys. ucheb. zav.; fiz. no-5:45-55 164. (MIRA 17i11) 1. Sibirskiy fiz1ko-tekhnicheskiy InstAtut pri Tomskom gosudarst- vennom universitate imeni Kuybyshova.  20 It w 31 A #40~A[l A_ F,_ 1-j so 00 -0 o go "goo I m own x .*DqMftM d as Kaug4mv &W N_ A. ndag jdmL W D f0 lkt, Lt. ki sew b~y ~. that the yr t Tarim tmpt 1A.Mutb. 00% VAnt is OPPmxim&te trw of Ow 1A tb* WOMMS ;:-Ar UO 0 boo i AS#-SLA OTALLUCOCAL ilitfAlkof CL&SSWK&IIGN bee idj4pi War ~V G.4 lltl;l GVE C., M 4 1 T-T KA jA A Sa n4 0 0 0 '1 3f N AD a 3 1 V U a AV 00 AS 1) It itd a 1110 It III a4w nIIla so*  " i LISE~LNINA, IN. A. 0 Bol 'Shanina, N. A. "Dri-ving prismatic punch's of various tool angles into alwainum at various temperatures," Trudy Sib. fiz, -tekhn. in-ta, Issue 26, 1946, p. )40-50 SOt U-5241, 17 December 1953, (Letopis 171-Liu-nal Invlj-, Stutey.. !"~.26, 19L-9) - U  BOLISRUINII, N. A. Bol-IShanina, 14. A. "The effect of alternate Uow and rest, ont'la driving of a punch into aliviinum, 11 Trudy Sib. fiz,-tekhn~ in-la , ls!;u,-- 26, 1948, p, 51-54 SO: U-5241, 17 Deceirf-ber 191513, (Letopis 'Zhurnal InyWi St-a-tey, No. 26, 1949)  BOP-51 Ail TNA, N. A. "Study of the Process of Depression of a -Zli~rlld rlun-er Into a _elastic Vetal-11 Can-! ~hys-M;ath Sci, To!ask State U imeni V. K. Kuybysliev, Tomsk, 1955. M, No 16, Alor 55) SO: Sum. No. 704, 2 Nov 55 - Survey of Scientific and Technical Dissertations Defended qt USSR Higher Educational Institutions. (16).  VOROB'YEVA, A.I.; BOLtSHANINA, N.A. Zink and iron content in the food served in Tomsk chi2dren's institutions. Vop. pit. 23 no.5:78-79 S-0 164. (IURA 18:5) 1. Kafedra gigiyeny (zav. - prof. V.I.Suzdallskiy (deceased]) i kafedra fiziki (zav. - dotsent V.D.Golltsev) Tomskogo medi- tsinskogo instituta.  IA . I BOL'SHAI'M, 1. 1-1 A y "L~)idemiolog-v of Tich Esicephalitis in the of Tomsh Irst. Of va;cines and Sera, !',0. 7, pl) 6Q Parazitol. i Parczitar. '15ore-E., 3rd quarter; 1Q5~1. Frol:opyevst: Foci," 2~~ frour, 62, fourd in SUM: 1391  BOL'-'SUMMM, YE. A. ) IZRAMNA P Go it, I SMIONAU, A. F. and TMUHCHEVA, A- TV. "on the Complex diagnosis of Brucellosis," Was a report given at an interoblas t scheintific-practical conference on problems of laboratory diagnosis of infectious di eases which was held at the Tomsk Scientific Research Institute of Vaccines and Sera, 12-16 lbrch 1956.' SUM: 136o p 238  BOL I SIMMA, YE. A. "On the work of the Prokoplyevsk City Sanitary-Epidemiological Station in the diagnosis of enteric enchphalitis,l was a report given at theinteroblast sciettific- practical conference on problems of laboratory diagnosis of infectious diseases was vheld at the Tomsk Scientific Research Institute of Vaccines and Sera, 12-16 11arch 1956. SM: 1360 p 237  MUCHUK, L.I.; 1~_QLISHAYA. M.L.; GAII)ZYA, S.M. (Handzia, Use of sodium glutamate for improving the taste of canned whale meat. Khar.prom. no.3:30 JI-S 162. (m~ 15:8) 1. Ukrainskiy nauchno-isaledavatellakiy institut konservnoy prorqshlennostie (Whale meat, Canned) .  L - 18458 _1.J.P(c)____ BBIDG ACC NR: AP6006382 SOURCE CODE: UR/0413/66/000/002/0115/0115 M 'TOR: Bollshchikov, V. A.; Lyask EN o, A. B.; Matafonova, E. P.; Syrykh, A. N. :ORG: none ;TITLE: Ten-'osition multistable element. Class 42, No. 178168 P !SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 2, 1965, 115 TOPIC TAGS: flip flop circuit, RC circuit, parametron, logic element, computer :component 'ABSTRAC*T: This Author's Certificate introduces a ten-position multistable element -;Containing pentastable parametrons and a delay line. Reliability of the device is Jmproved by using a transistorized symmetric potential flip-flop of the counter. rtype. The collectors of the transistors are connected to circuits of parametric s- elements on the fifth subharmonic through decoupling networks containing a serie Connected choke and capacitor. The circuit of tVe first pentastable parametron is conneated to the coupling transformer of the second parametrou through a decoupling 'networlk made up of a resistor and capacitor. The circuit of the second parametron is connected to the coupling, transformer of the first parametron through a similar :decoupling network and a delay line. icard l/2-___.___.__,_1 UDC: 681.-142.-07. -  ACC NR: AP6006382 T I potential static flip-flop; 2 transis tors; 3 - pentastable parametrons; 4 and 5 :1 RC decoupling network; 6 - input transformers.; 7 - 720 deday line; 8 and 9 - RC decoupling e n twork; 3.0-13 - LC decoupling network-14 bias current; 15 pumping current; 16 - bias L------ V_ ".It.age. ~SUB 09/ -.SUBM.. DATM _,27rehP '.Card 2/2-- '-  VINOKUROV,- Ye.F.; MAL4RUK,, P.N.; BOLISHEDONOV, I.I. Study of the character of the performance of series 11-03-02 footing blocks in a sandy foundation bad. Osn.,funde i mekhogrun, 6 no*6:19- 22 164- (MIRA 1811)  r BOLISMONOV, 1.1. (Ball--hadonau, I.I.] Stildy of the performance of resilient reinforced concrete foVrdation3, Vestsi AN B&SR~ Ser. fiz.-teldl. nav. no.31lIl- 11"'? 164* (MIRk 18:2)  BUKHVOSTOV, N.V., inzh. Prinimali uchantiye: KOZZL, Yu.V.. inzh.;_A(40SM, N.Ya., insh.. GORSKIT, G.Tu., kand.tokhn.nauk, red.; POZNTAKOV, :A.P., red.izd-va; KAMINSKIT, M.P., tekhn.red. [Temporary instructions on the use of lightweight walls built of solid1bricks in earth uake-proof construction of houses and public buildings (TSK 02-38)1 Vromennaio instruktalia po primusniiu sten oblegahennikh konstruktsii is polnoteloge kirpicha v saimmo- stoikom stroitel'stys shilykh i grazhdanskikh sdanii (VSK 02-58). Tashkent, Isd-ve Reepublikanskogo proektnogo in-ta 'Usgosproakt,l 1958.* 67 p. (HM 12:6) 1. Uzbek G.S.R. Kinisterstvo stroitalletva. 2. Respublikanskly proyefctnyy institut *Uzgobpr*yektg (f6r Bukhvostov, Kozel. Bol'shem). (Yalls) (Zarthquaken and building)