SCIENTIFIC ABSTRACT ISTRATOV, A.G. - ISTRINA, Z.F.

Document Type: 
Document Number (FOIA) /ESDN (CREST): 
CIA-RDP86-00513R000618910020-4
Release Decision: 
RIF
Original Classification: 
S
Document Page Count: 
100
Document Creation Date: 
November 2, 2016
Document Release Date: 
August 10, 2001
Sequence Number: 
20
Case Number: 
Publication Date: 
December 31, 1967
Content Type: 
SCIENTIFIC ABSTRACT
File: 
AttachmentSize
PDF icon CIA-RDP86-00513R000618910020-4.pdf4.86 MB
Body: 
A ro azpl, a,re- an zond ui under the hoat capaoity and Via transfer are consWetil A t elf- 6i& cr-unda~ y conditions is given &t UD PO'wdar surface . 4 i reaction zone 4 = C 4 = 0 Emd in 420, ga'%, at 4he saUsfYing tomperatm-a continuitv f],O.W and us :tion..-.:and complete -:C owu"t I% -Of 13 condue tiOn yLelds ti0n: GqUa tie. tj:~j! t'A6 "A' I ra ,ebraic eqtUltions.: UG linear, homogeneous a:LU Ins ; 0 il . at y' > - 1, we. ra Obtained: y > i.+vT2 + + ahd at < a 7.1 41 "k TI:i tip 4-14W thw~c- eQtaii~ATI y a k PP. veshcho3' Zh, Vk-- p o r ii t. rs 76r actudl of a as an additioral gaveroIng pramator, authorn are 6-rateful to 0. 1. Barenblatt, Ya4 B Zdl 1.40VI Oll drUl q'i 11 r~-!Yf io Ail, Las ,"or,orgianizing tha t5o- w k. or I6i.-,t. And.2 figures IAC POP- 4 i E4 1- sl 46- APkQ09050 er:the transport pheno na it was, found 'th4t Anstab~-4~lityyi# be., in4u6id me .1: peirtm rate.* Ln to: gr~ Ltic4-.Rf ~C6-.l 6i- lk~s: )21 only,I r: ie:, an& iolds The -fdrimilas r . T cwol- I Irwr I i .I /cwT I- I tqc Amw I Tw - I --- - I - ---- --- - -- - -- L 34973-66 EWTM /Z~M('a)/T 'W/JW/JWL/WE ------------- lip ACC NRt AP 022523 SOURCE CODE-.. UR/0040/66/030/0 A. G. (Mos _2 AUTHOR: latratov, COV)j Librovith V. B. (Moscow) ORO: none TITLEt The effect of trans oceasea on the stability of a flat flame front SOURCE: Prikladnaya matematika I mekhanika, T. 30, no, 3, 196.6, 451-466 TOPIC TAGS: combustion, combustion stability, combustion theory ABSTRACT: In hie previous analysis of flame stability, L. D. Landau (Zh. eksperim. i teor. fiz., 1944, Vo 14. no. 6.) assumed that the Reynolds number of the perturbation is infinitely large and the thick- nesa of the flame frontqinfinitely thin. In the present study, it was assumed that the Reynolds number is large but not infinite, and the following effects were taken into considerationt .1) the effects of the flame front curvature on the diffusion process, the tbermal conductiv- ity, and the viscosity at the flame front; 2) changes in-the reaction rate caused by temperature fluctuations; 3) the effect of the finite width of the flame front; 4) changes in the denisity of the combustion productsqbehind the flame front caused by temperature flu.ctuations; Card 1/2, L 34973-66 ACC NR. AP6022523 and 5) the effect of viscosity o~4.the gas motion outside the flame. An equation was derived for the c~iti,cal Reynolds number in terma of the ration of the densities of the~hot and cold gases, the Prandtl number, the ratio of the thermal C~qnductivity to diffusivity, and the dimensionless activation )energya ~he effects of these individual fac- tore on flame stabilityl\ia discussed. In general, the.results showed that transport processes have a stabilizing effect. The authors than) G. 1. Barenblatt 4~nd Ya. B., Zell.dovich for formulating and discussing the-problem and 0.*1* LeXpunskiy and V. 1. Yagodkin for their valuablt remarks. Orig. art. has: 47 Tormul~s and TfigUrds...". [P.V1 SUB CODE: 21/ SUBM DATEt 18Jan66/ ORIO REFt 007/ OTH REF: 069 ATD PRESS:~~,O :211 ISTRATOV, V.I.; TSUNIKOVA, N.I., red. (Fundamental problems in algebra] Sbornik osnovnykh zadach po algebre. Moskva, Vass. zaochnyi energ. in-t, 1963. 79 p. (MIRA 19:1) ISTRATOV, V. N., Eng. Electric Transformers Current transformer, magnetized by current of increased frequency-(condensed from Bulletin ASE, No. 8, 1952, J. Goldstein). Blecktrichestvo No. 2, 1953. q Monthly List of Russian Accessions, Library of Congress, June, 1953. Unclassified. ISTPATOV, V.N.,, inshener, Commutation and protection of a direct current electric system of an a4rw plane (abstract from Xectrical Ingineering no*8;703, 731 '52. K.W.Carlion and others). Ilaktrichestvo no.6:80-81 Je '53. (KLH& 6:~) (Airplaues-Electric aquipmeTxt) ISTRATOV V.N., inzhonur. Simplified &-.aphic analysis of the operation of a saturation.valve in a stabilized system, Blaktriahestvo no.8:80 Ag 153. (K6U 6:8) (Iteotric controllers) AID P 621 Subject USSR/Aeronautics Card 1/1 Pub. 27 25/35 tr V Kand. of Tech. Sci., and Authors : ~ ~ Eng. Title : Differential protection of airplane D.C. generators (Review of Foreign Periodicals) Periodical : Elektrichestvo, 8, 86, Ag 1954 Abstract : According to 3 USA sources, summarized by the authors, the increase of generated capacities and domplicationof airplane D.C. electric installations requires a constant improvement of protection of individual elements. Seven diagrams. Institution : Not given Submitted : No date AID F 1474 Subject USSR/Electricity Card 1/1 Pub. 27 25/36 Mnd..of Tech. Sci.,, and Authors Istratoy,' Y_._X 'MWeFfi`s-kTy-,-, Eng. Title Parallel operation bf aircraft a-c generators. Periodical Elektrichestvo,, 2, 73, F 1955 Abstract The authois summarize a group of 5 artiole& on the,above subject from volume 72 of the AIEE Transactions, Part:II; 1953, 3 diagrams, 5 American rereronces,795j-5 Institution: None Submitted No date IbTRAT . kandidat tekhnicheekikh nauk; LtMSXIY, A.V., Inzhener. Za , , - A i, I Protection of aircraft electrical systems. Bloktrichostvo no.Z: 89-90 Y 156. (KEAA 9:5) (Airplane~--Zlectric equipment) ISTRATOV, V.N., kandidat takhnichookikh nauk; KAMENSKIT, A. V., inzhaner. Computing the resistance in aircraft three--phase current circuits. Trudy KU no.57:61-70 156. (MLRA 9110) (Airplanes--glectric equipment) (Electric resistance) ISTRATOV, V.N., kandidat takhnicheakikh nauk: KAMUSKIT, A.T., in2heners Protection of aircraft generators, (Survey of basic systems). Trudy MAI no.57:76-81 156o (MLRA 9M) (Airplanes-Rectric equipment) INOZIIKTSV, S.P., kandidat tekhnicheskikh nauk; ISTBATOV V.S., kwAidat takhnichookikh nauk; UMSIXT, A.V., Automatic frequency control of al.rplass &.a. (pnerators operating in parallel. Trudy al a0-.66:69-73 156. (WA& 9:11) eqMipment) ATABF.KOY. Grigoriy losifovich; I --- .. Imndi(Lit takhnichaskikh amuk, r6daktor; SUVOROVA, I.Aof tol'okif-rodaktor; SOMMAKOV, P.V., tekhnichookly rodaktor [Linear electric circuits] Linsiuys slaktrichookis tsepi. Nookwag Gog. Izd-vo obor. promyshl.. 1057. 173 P. (KM 10:2) (Bloctrio circuits) Tr- ATABSKOV Grigori7 Iosifovich, professor; IGLINIKOV, N.A., redaktor-, IsTnTOV, Va., redaktor; LARIONOV, G.Ye., tekbnicheskiy re- daktore [Theoretical principles of relay protection of high voltage systsidel Teoreticheskie oenovy releinol sashchity vysokov6lltnykh setei. No- sk-ya, Gos.energAzd-vo 1957- 344 p, (Mmi 10$5), (Ilectric robws$ ISTRATOV, V.N., Icand. takhn. nauk; MITYUSHINA, Y.Y., inzh. Calculating short-circuit currents inairplans, three-phase electric circuits. Tjrudy VAI no.85:84-88 157. (MUIA 10tg) (3hort ciroults) Allbert lonifovich, RNNIK.-Gali-na Anato-I'VOT11A. TSTAM kand.tekhn.nauk, red.: KUZNMSOVA, A.G., itd-red., fu~~ZIKOVA, R A., tekht.red, or aviation; teaching. I-Designing direct current electric mpchinery f aid] Proektirovaute &vjat9ianTqk-h slektrichas .kikh mashin poctoiannoco tokn; -achabnos posoblep Moskva, Goa.izd-vo obor, prot~yshl., 1%8 422 p. 11:8), (Blectric machinery) (Airplanes-Blectria equipment) 1.0 VE Ile v I. en evil all Z 3 41 It 3 :Ztm 4 1. 1 i 5 o ,j5 V00 0 12 2.9 R ba 1:1.0 A Sit all 03 eou a -31 Aid p MA" a IME: I AS 0 d -01 - 0 jt.4 a L 69. to 30 25, ";A 1.4 11 i Y ,, a Pi 1. . u1 . 0, . t. 1 1 1, , 'Ali t i;l X: 14 0' .r, WIN PHASE I BOOK EXPLOITATION SOV/3622 Moscow. Aviatsionnyy institut'imeni Sergo Ordzhonikidze. Kafedra teoreticheskoy elektrotekhniki Sbornik zadach po teoreticheskim osnovam elektrotekhniki (Collection of Problems on Theoretical Fundamentals of Electrical Engineering) Moscow,-Oborongiz, 1959. 124 p. 14,000 copies printed. Errata slip inserted. Additional Sponsoring Agency: RSFSR. Ministerct'vo vysshego i srednego spetsiallnogo obrazovanlya. Ed. S.N. Is_tzatov, Candidate of Technical ScJ 'ences, and S.D. Kupalyan, Candid'ate of Technical Sciences; Managing Ed.: A.S. Zaymovskaya, .Engineer; Ed.'-,6f Publishing House: S.D. Antonova; Tech. Ed.: I.M. Zudakin. PURPOSE: This collection of problems is intended for students in electromechanical, electrical engineering,, and radio engineering departments of schools 6f-higher technical education. It may also be ased by technical R~rBonnel who desire to improve their Card 1A Collection of Problems (Cont.) sov/3622. technical qualifications irl the field of calculating electric circuits. ' ' COVERAGE; This collection contains several problems related to basic subjects of the theory of circuits according to the,pro- gram of the course on theoreticil principles of electrical engineering. Some typical problems with detailed solutions are .given. Conventional symbols and terminology used in the book comply *ith those adopted in two books by G.I. Atabekov': "Garmonicheskiy analiz i operatornyy metod" (Harmonic Analysis and Operational Method), Oborongiz, 1956;-and "Lineynyye elektricheskiye tsepi" (Linear Electrical Cir.~uits), Oborongiz'J, 19~7. Chapters 1 and 2 were' prepared by N.V. Uspenskaya; chapter 3'by V.N.'Istratov; chapters 4 anti I by*S.N. Dmitriyev; chapter 5,by M.G. Surov; chapter 6 and the Appendix by O.M. Bogatyrev; chapter 8 by S.D. Kupalyan; chapter 9 by A.IE Namenskiy; ahapter 10 by A.B. Timofeyev;'and chapter 11 by S.S. Kbukhrikov. The authors thank Professor G.-I.*Atabekov for his help. There are no references. Card 2/4 Collection of Problems (Cont.) TABLE OF CONTENTS: Foreword PART I. LINEAR ELECTRIC CIRCUITS q o v/3 6 2 2 Ch. 1. D-C Circuits Ch. 2. Circuits With Sirgle-Phase SinuBo'idal Current Ch. 3. Resonant Circuits Ch. 4. Three-Phase Circuits Ch.'5. Circuits With Non-Sinusoidal Current Ch. 6. Four-Terminal Networks Ch. 7. Electric Filters Card 3/4 3 5 5 13 23 31 53 68 76 Collection of-Probiems (Cont.) S07/3622 Ch. 8. Circuits With Distributed Parameters 81 Ch..q. Transients in Circuits With Lumped Parameters 86 PART II. NONLINEAR CIRCUITS 95 Ch. 10. Steady-State Processes 95 Ch. 11. Transient Processes 106 Solutions of the Problems 115 Appendix 123 AVAILABLE: Li -brary of Congress (TK 168-M58) Jp/jb Card 4/4 6-8'60 AGWKINO Dwitrly Iranovich, propodavatoll; BALASHOT, Mikhail Alakeandrovicho prepodavatell-, KCWSOT. Sargey Petrovich, propodavatell; XMIMA, Valontina Ivanoyna, prepodavatell; RUMMIXOT, Tevgoniy Kikhaylo- vich, propodavatell: SOKOWT, likolay IvanbvicI4 propodavatell; STROMILOT, Vasiliy Kikhaylovieho prepodavatoll; TISH 1 0, likolay Kikhaylovich, prepodavateltj UDALOT, Nikolay Petrovich, prepoda- vatell; 010MVp Belo# profog red;*,-IgMATOT, T.W.. kand.tekhn.nauk, dotsent. red.; SHIKHTMAX, I.A., zdatr*V.--'kWW.-T.P., tekhn,red, [Manual for designing elownts and systems of autowtic control: a textbook for a course in designingj Rakovodstvo,p"o' proektiro- vaullu slonentov I sistem svtowt1kj; posoble po karsovomu pro- ektirovanilu. Pod red. B.N.Pstrovs. Moskva, Goo.ind-vo obor. promyshl. Pt.2. 1959,, 247 p. (MIRA 12:6) 1. Chlon-korrespondent AN SSSR (for Petrov), 2. KoskovskLy avintsionnyy institut Imni Urgo Ordzhonikidze (for all except Istratov. Shekhtwn. Roshin). (Automtic control) INOV, Allbert losifovich; LARIONOV, A.11.,prof., daktor tekhn.nauk. reteenzentl ROKAKOT, N.Y., doktor t*khn.nauJc#,r*tesnxent; ATABIKOV, G.I., prof., doktor tekhn.nauk, roteensent; GOLOOFSKIT, F.I., insh., retsensent; FINSSYST, A.F., Imnd. tekhn.nauk, retsensent; ~OMTOT, T.N., kand.tekha.nauk, red.; POROVA, I.A., isdat. red.; - GANNUM119r,'11S.A., tokha.red. (Aeronautical electric generators) Aviatelannys elektriehaskie generatory. Moskva. Goo.isd-vo obor.pron7ohl., 1939. 594 p.i I (NM '12t7) 1, Chlon-karrespondent AN SSSRj seveduyushchi.7 kafedroy aviatilleanoce I avtotraktornogo oborudoyanlya Hookovskogo oneirgeticheekogo Institute im.Nelotova (for 16arionov), (Blectric' generators) (Airplanes--Blectric squipsent) SOV/143-59-9-8/22 8(6)9 9(2) AUTHORSs Istr*;tov, Y.N., and Kolosov, S.P.v Candidates of Technical Sci- --Wei on TITLEs A Converter for Changing a Single-Phase System to a Three-Phase One PMODICAL: Izvestiya vysshikh uchebnykh savedeniy, Emergetike, 1959, Nr 9, pp 48-52 (USSR) ABSTR=Ts The authors describe one of the possible circuit trrangewnta for converting a single-phase voltage into a three-phase voltage. The suggested circuit, shovu in fig.1, contains only one reactive ele- ment. This circuit produces a higher stability of conversion than the known versions with several reactive elementag discribed by A.M. Bazdas, V.A. Kulinich (Ref*4). Ot6r converters, which do no* consist of rotary elements, are described in the papers of Gol. Atabekov (Aef.2)0 P*Lo Kalantarovq and L.R., Keymall (Ref*3). The authors present fo~imulas for the calculation of circuit elements of the converter described in this paper and give recommendations Card 1/g for selecting the parameters. The work of the circuit may,be.a SOV/143-59-9-8/*2 A Converter for Changing a Single-Phase System to a Three-Phase One chieved with commensurable values of the input and-load resistanc- ps and small capacitances of capacitors. The:paper was presented: 1W the Kafedra teoretiche koy elekrotekhniki: wwr_ .,.!- of Theor- etical Electrical Inginee;ing). There are I circuit dia'gram,.l diagram, 1 graph and 4 Soviet references. ASSOCIATIONs Moskovskiy ordena Lenina evistsionnyy insti-tut imeni S. Ordzhoni-, kidze (Moscow - Order of Lenin Aviation Institute imeni S. Ord- zhonikidze) SUBMITTEDs Way 20, 1959 ATABICKOV, G-I.; IgPRATOV, V.R., red.; KASHAROVA, V.G., red.; SKMV, D.V., tilglm.rsd. [Theory of linear electric networks] Teoriia lineinykh elektrichesk1kh tospel. MoBkva, Ixd;-vo 03ovetskos, radio," 196o. 711 p. (MIRA 13:10) (Blectric networks) KARGOLIN, ai. S. ,inzhener (Moskva).;ISJI" i P irahener (Roak7a). No -OMORNWfthow On parallel supp3.v of the trolley contact circuit from adjacent substations. Zlektrichostvo no-3:28-32 Mr '57. (XLR& 10:4) (Street railways) TO RMUKOV, A.D., Insh.; ISMATOVO V.P,j, insh,; KMOLIFI, lops, Ushe Ways to ellidnate stray currents In NOBCOW 6t3?GSt railways. Sor; khoz. Monk* 32 no;4t24-27 AV 05816 (NUA 3.10) (Noncow-Streot railways) (DUctric ourronts, 1"kmg%)~ L6ih&iuv, V. "Measures Taken at the Moscow Tramlines for Fighting Stray Currents" report presented at the Odessa Conference on the Fighting of Corrosion caused by Stray Currents, Nov 195T, Odessa Branch NTOEP (Elektrichestvo, 1958,No.4,p83) ----------YF4B'MOV, I.S.,, doktor tekhn. neuk; REKITAR, R.A.,, inzh.; ROZEVBERGp S.V., kand. ekon. ntuk; BLATNOV, gvD.., kand, tekbn. nauk; VILIKONETSKIY, M.S.p in*.;TOP,1ILIN, A.I.,, inzh. j POPELYASH V.N.,, inzh.; ZAGAYNOV., N.A.,, kand teklm. nauk,- FINKELISETEIN, B.S.,, inzh., MARINOV,I.A.,, inzh.;-T&TRATOV. V. P. j, --Uo,v 7 inzh.; MARGOLIN, I.Se) inzh.; ENGELIS,, G.G.p inth.; AT V.A.J. inzh.-, SOKOLOV) V-D.j inzh.; KLESUGHINSKIY, B.K.,, inzh.; IL'INSKIY, A.I.., reteen;;nt,- PAPKOV, U.G.p retuenzent; EMIRNOV, G.M., retsenzent; SHPOIZABSKIY.9 Mello, otv* red, tona; VOLOCEM, V.N., red.; TROFIMOV, A.N., red.; RACIIEVSKA.YA, M.I,, red. izd-va; LELYUKHIII, A.A.., tekhn. red. (Technical manuall on city electric transportation in,three volumes] Tekhnicheskii opravochnik po gorodWi0ou elaktro- transportu. v trekh.tomakh, Redkollegiiat V.H4iVoloobnevp A.N. Trofimov, M.N.Shpolianskii. Moskvap Izd-vo H-va kom=n. khoz. RSFSR. Vol,l. (City electric transportation (general part)] Gorodskoi elektricheskii tranapbrt (obshchaia chast). Otv. red. toma M.N.Shpolianakii. 1961. 726 pe 0IM& 15:4) (Streetcars) - (Trolley buses) XUTENIKOVp Te.S.; ISTRAT07j, V.V* Recent data on the tectonics of the Kyutingde -transverse trough in the Northeast of the Siberian Platfom D&L. AN SSSR U& no.24U-417 Ja 163, (MIPA- 1642.) 1. VaeBoyu=7y aeropologicheskiy trost i Mentraltnala kamplekenap pofizicheskVa ekspeditisys. Ytdmtokogo geologicheekop u0svIenox. Predstarleno akadamikom D*I. Shchstbakorpo (Xyatingde Talley-Geology,, Structaral) ISMTOVA. A. YA.;NOVIKCYVA, A. A. Nurses and Nursing Role and obligation of.the head nurse in pediatric infectiow ward. Ued-sestra No. 10, 1952. 9. Monthly List of Russian Accessions, Library of Congress, 1953bUncla'ssified. Storage and germinatiop of the pollen of som conifer specieO. Biul.g.lav.bot,,sada no43:53-56 161. NMIA 15:2) 1. Sochinskaya. nauchno-issledovateliskaya op,,rtuaya stantaiya i Bubtropicheskogo lesnogo i lasoparkovogo kho:syaystva. kPbllen--Storaiel (coniferae) ISTRATOVA O.J. AA~ Decorative forms of the tulip tree and their bLological character- istics. Biul.Glav.bot.sada, no. 48:42-47 163. (MIRA 17:5) 1. Nauchno-issledovatellskaya opytnaya stantsi;ya subtropicheskogo lesnogo i lesoparkovogo khozyaystva, Sochi. ISTRATOVA O.T. Biology of the flowerin g-of Doublas fir. Biul.Glav.botsad no.52t67-76 164. (KRA 1714) 1. Sochinskaya nauchno-iseledovatellakaya opytnajpa~stantsiya subtropicheskogo lesnogo i lesoparkovogo khosyayntva. S/fl?4/61/QOO/008/029/042 AOOI/AIOI AUTHORS: Klyachko, L. A., Istr tova, Z_V, TIM: On the theory of the lower limit of flame propagation in a two-phase; mixture PERIODICAL: Referativnyy zhurnal, Mekhanika, no. 8, 1961, 75, abstract BB524. (V s1o. "3-ye Vses. soveshchaniye po teorii goreniya. T. 21t. Moscow, 1960, 48-57) TEM The authors investigate a dependence between the lower limit of flame propagation in a monodispersed two-phase mixture and the size of liquid fuel drops at rest. Preliminarily the problem is considered on conditions for self-ignition of an Immobiie drop in heated air. The critical condition of drop self-ignition is derived, which consists in the equality of evaporatl.nn time and period of ignition delay. The results of experiments with ethyl ale.-nol and isoootane agree well with calculations by the formula derived. Then it is assumed that flame propagation in a two-phase mixture is possible if the Itlifelf time of a hot drop and the induction period of a steam-air mixture, surrounding the drop, are equal. Calculations are performed on the basis of G. A. Varshavddy% Card 1/2 S/124/61/boo/bo8/029/042 On the theory of the lower limit ... AOOI/AlO1 theory of drop burning. The results of experiments with tetralin (CIOHI confirm basically the relation between the change in the lower limit,position of 1,2 flame propagation and drop size, which was derived from calculations. A. Zenin !6 ACCESSION MR: AP4049181 8/0314/64,1066/004/002910031 re AUTHOR: Liferenko, 1. G. (Candidate of !IV UTLE. Corrosion realstanuo..Out~t:-o 10-0~wr We thyltiie filhal me P MURCE.,. Iches 6ye. Ji. RyAndyo -tha dUck, r -M~ imn, stdeI 4tW. e'Q'ij~ IsW f Gal TOPIC TAGS- ch' o b mechanical prop6 IRT,--s1-R-eT1-Cz5-iros1on reststan neth-t efropl61:hd1Ed0 roduiAi ce db P sLeel OKhM'4012T ABSTRACT: The production ofdimethyltervaphtWat~, us a~ lor ditaiLqug syridLet-fel fiberB and films, requires pumipa made of HMSNUT,1127~toel, w1h Jah is qufte oxreils4ve. A cheaper OKMIN6WISTsteel, has therefore been tested f)r c-omision resisLuice. Yhe fouridrv laborator- of' VIGM tomted the castabilAty, sbrinkign, macrostmicture and 9 ', and mechimicid micros'tructure oithe-Zheaper steel. The tesm showed gm easUng, properties of the steel (ultimate strength 69.5-76. 1 kg/mm relative; elongadon Vi - 6- 2 impa-et toughnetm :'y 3-11. 9 kg-rn/cm and Brinell hardnesis 187). 'ne. choinical composition of the steel was 0. 01-0. 10% C, 0. 38-1. 01111% SL 0. 53- 1. 38'~, Nin, 2 card . t I U: i 7 ~ I[ : , ;: i Ill "! Tor- RTJWIA ganic Chemistry. Synthetio Organio Chemistry. G-2 Abs Tour: Ref Zhur-Khimiyaj.No:23j 1058, 97623. Author : PoloVtag6anu,.I.',.:Gherghinof, R.,~!and Istri-,-_E Inst : 146t'-,giveh. Title : Helo-&af ih~-N, ~_N-adipyl_bis-(3_'6mJ.no'-2_ 4,,6-triiod6- benioio) Aoid.,_~- Orig Pub: Farmaoid (R6mahia),6, No. 2, 1.87-3,90 (i958). (in Rumanian with' s,uMMA'_rieq*jn G.er'man,.; ~rep'oh, English, and R ssi u an) Abstraot: A now oontrasting medium has been synthesized for internal use in X-ray studies of the intra- and: extrahepatio bile d4ots. The new eoppound has the formula (3-HOOO-2,4,6-I3 C6 HNHOC(CH2)2)2 (I) and has been named helo rafin. I is s nthesized by the reaotion of 0100TCH2)4 Cool (IIf-with two moleoules of 3-HOOO-2,4,6-I3 06 MNMz (111); 0.5 Card 1/2 -ISTL*UIT-)-G-GF-.- Conferonce on -1vi'le rehabilitation of the areas o-' vorked out puat fields. Torf.prma- 38 nn.1:37 161. (MIPA LI,- 2) (Peat industry) 0 41 10 0 0 0 0 0! out PC A At L 09 Ogr 0 o", 10.00990,0 a 9 a 9 0 0 0 0 0 f'O 0 R a it a is u a 10 0 111 42 a 46 4! ST cis AT u n L-4-1 - 4 a k I 4 - - I , . .: I "imil,366MVII 4*41001411 Of 0 10I 00 0 00 '00 -00 'Moall 01114011,1141 00 IV 11 pill 00 00- so 00 00 0 it, r 00 0 00 01J. It it I. It 6 61 it to 14 It It A I W A 0 0 0 0o 6 9 0 0 Co 0 tW 84 of 0 0 0006 0 0 00 00 0 o 0 6; wi- 0 0 0 0 00 0 0410 Of 0 0 ~lmllfflp sign, lmmw~ "Secondar7 Nonferrous- I-Tetals (Handboozk. Part I Preparation and Preliminw--,,r .11 Metallurcizdat., 1950. 475 ppo Working) Comrients and evaluation- B 77881 16 Itw 54 ISTRINg Mikhail Alaksandrovich; LIVITIN. Vullf Khammovich- RUDINSHT173 ---Yo`s1t--WQ;V?'javich; MILLIR. Solomon Mikharlovich; MILLAR, L.Ts.. kandidat takhnicheskikh nauk, reteenzent; MOV, Y.Ta., redaktor; CHMOV. A.N.. redaktor; ARMUMBLISKAU, M.S., redaktor isdatell- stvag MICUTLOYA, T.T.. tekbidehaskly redaktor [Seconlary nonferrous metals]- Vtorichwe tevetawo metally; spravoch-. nike 13d. 3-0, perer. 1, dop, ft4 r"o T.U.Belo-va. Kooky&. 990. nauchno-takhn. ixd-vo lit-ry po'chernot i terstual metallurgil. rt.l. OProcurement and primary proeessiMl 2#4g*tov" I pervichmia obrabotka.:1956. 338 pg. WRA 9:7) (gore errous metals) BAZUATSKIT. Viktor Ramertovich, MIWMIJ bigkoand Lon~~.IIBARTASHIV, Iborl Isonidovich; LYUBALM, Soviji 17TOTna., IUFZNMTMTIMJf Davydovich; SHPAGIN, A~1.0 kandidat tabbutchookikh amuk, retsen2snt; VISSARIONOY# B.G.,. inshener. retssnze~nt XUBMININVIKOV, $.s., retsionzent; PBLIMMAN, I.IsO, retsousent,,- KOKiYSVA, O.M.,-redaktor Wat-ellstva; HIMUTIAIVA, T.Y.. tekhmiche- skiy redaktor [secondary nonferrous miatals; a reference menuall Vtorichure. tovetrgo metal2r; spravocbnik. koskvu, goo.Amuchno-tekhn. isd-vo lit-ry po che.moi. i tsyetuoi mtallurgii. Pt.3. CrAtellurg7 of copIper and.lead] Keiallurgiia medi i avintea. 1957..544 p*'- (KM 16:0 (Coppor-Aetallurgy) (lead-Netallurgy). x/ 136-8-15/21 AUTHDR: Istrin, M .A Engineer. TITLE: -WOn-ference in Prague on Economy of Non-Ferrous.Netals (Soveshchaniye po ekonomii tsvetnykh metallov.v g'.Prage) PERIODICAL: Tsvetnye Metally, 1957, Nr 89 pp'077-78 (USSR). ABSTRACT: Proceedings at the first conference of the non-ferrous metals economy section of the Permanent Commission on economic and scientific-technical co-operation in the non- ferrous metals field of participants in the Council for economic mutual aid (Sovet ekonomicheskoy vsaimopomoshchi) are outlined. It was held 25th April-3rd May, 1957t in Praguet-and was attended by delegates from Bulgaria, H=- gary, E.Germanyt Poland, the USSR and Czechoslovakiap and ODServers from China. The conference heard reports on work carried out and plann d measures for savirg copperg lead and nickel and the introduction of substitutes, and also considered'the work of the section in 1957 and the first quarter of 1958. The following questions were recommended for investigation: use of aluminii windings on motors up to 38 KWj- ~ba~ use of aluminium, and plastics in power cables; (c) use of aluminium windings in dry and oil transformers Card 1/? 136-8-15/21 Conference in Prague on Economy of Non-Ferrous Metals. i~p to 1600 M; (d) use of enamelled heat resisting wire.with isoperlon nsulation for motors; as well as e) use of aluminium-base and zinc base alloys l anti-friction cast irons and mn-metallic materials in bearings; (f) replacement of lead by plastic glass etc. acid-resisting materials; ~g~ use of tinplate or aluminium for carradiators; h use of brass with low copper contents (48%) for bear- i s; U use of spectroscopic analysis for sorting scrap; (j use of electric shaft furnaces for melting scrap; (kjj use of aluminium coinage. The next meeting is scheduled for November 1957t in East Germany'. AVAILABLE: Library of Congress. Card 2/2 /Y1 137-58-5-9399 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 5, P~ 86 (USSR) AUTHOR: Istrin, M.A. TITLE: Secondary Aluminum Production in the USSR. (Proizvodstvo vtorichnog.o alyuml;niya v,SSSR) PERIODICAL: Byul. tsvetn. metallurgii, 1957, Nr 8, pp 109-111 ABSTRACT- Recovery of secondary Al is now more than 100 times as large as in 1932, and more than 20 grades of Al alloys are being produced in accordance with technical specifications. Pvepara- tion and dressing of the raw material (concentration ofI.41ags:, calcining and packaging of chip, and cutting of large scrap are mechanized. Smelting is in reverberatory furnaces of up, to 15 t capacity (mostly of the two-chamber type). Furnace output is 3.2 t/m2 hearth (in 1945 it was 1.38 t/m2). 91.3% of the''metal is now recovered, as against 83.6% in 1945. Machine ch6rgi'hg and teeming onto conveyor-type casting machines is employed at all plants. At the Sukholozhskiy and Khartkov plants the waste slags are allowed to settle in special iiettling,farnaces, and this results in further recovery of metal. The quality of the second- Card 1/2 ary alloys obtained differs very little from that of alloys made 137-58-5-9399 Secondary Aluminum Production in the USSR from primary metals, and in the near future the term "secondary alloy" will characterize origin and not quality. A.P. 1. Aluminum--Production 2. Aluminum alloys--Production 3. Industrial plants --Equipment -~~r_ S -1-P! I/ -N , Av P"-, 136 -10-9/13 AUTHOR: Istrin, TITLE: Development of Secondary Non-Ferrous Metallur&y in the USSR. (Razvitiye vtorichnoy tsvetnoy metallurgii v SSSR). PERIODICAL: Tsvetnyye Metallyp 1957 p Nr 10, pp" 8 94 IF (USSR) 15 . L . ppe3!-b ase- alloys was ABSTRACT: The workimg of scrap copper and co first organized in the 'USSR in 1921. The author describes developments since then, giving some information on equipment and its utilization at various plants waiking copper- and. aluminium-alloy scrap". A. table shows data for 1940, 9451, 1950 and 1956 for the daily production of meta per ml of furnace hearth when workimg bronze, brass and alumi m and the corresponding recoveries of metal'. The author mentions the work of the Glavytortsvetmet organization, which is res- ponsible, for most aspects of the secondexy non-ferrous metals industry. He states that the quantity of scrap prepared by the organization in 1956 was 2'.5 times that in 1940 and that the USSR occupies first place in Europe in the production of secondary mon-ferrous metals. There is 1 table. AVAILABLE: Library of Congress. Card 1/1 ISTRIN, M.A., insh. Conference on the sconoor of copper and 1e&1 In the national econo1w of the U.S.S.R. TSTet. met. 31 no.8:83-85 Ag 158~ KIRA 11:9) (Copper) (Lead) (Russia-1conosic p,olicy) SOV/136-59-2-21/24 AUTHOR: Istrin, M.A, TITLE: Conference on Secondary Non-Ferrous Metals (soveshobaniye po vtorichnym tsvetnym, metallam.) PERIODICAL:Tsvetnyye Metally, 1959, Nr 2, Pp 85-8? (USSR) J ABSTRACT: The third conference of the non-forrous: .metals econom,y section of the Permanent Committee on Economic and Scientific and Technical Co-ope~ration in the field of Non-ferrous Metallurgy of the participating nations of the Sovet Ekonomicheskoy Vzaimopomoshchi (Council. for Mutual Economic Aid) was held in Moscow on 1 1 . 9th-20th December 1958.. The conference heard an& discussed the following reports from representationstof the various nations: "Organisation of.the ion and First Treatment of Non-Perrous Metal Scf:p'a2d" Waste" (S.M.Eydis reported for the USSR); "Prod uction of Secondarv Aluminium.-Base Alloys" (Engineer A.A.Gaylit for the USSk); "Production of Seconda:E7 Copper-Base Allo~s" (V.M.Bazilevskiy, Candidate of Technical Science6';.for the USSR); P.S.Shesternin, Candidate of Technical Sciences on Card 1/3 "Results of Trials of an Electric Shaft Furnace for SoV/136-59-2-21/24 conference on Secondary Non-Ferroug Metals Reclaiming Melting of lead. Scrap and Waste". The consumption of secondary non-ferrous metals in some. of the centres represented is half the total consumption. The author tabulates for the various.nations 1958 productions as percentages of those for 1953 and planned 1965 productions as percentagpe of those for 1958 for copper, lead and zinc. He noves:that production possibilities are not evorywhere being-fully utilised. The conference made recojmendations for improving the situation and urged especially better scrap collection, storage and prepaxation. The importance of dust catching to avoid zinc losses was stressed. The formation of a working group to stwy melting practice for secondary aluiminium alloys was- urged; for melting copper-base scrap the,conference recommended the induction fu3nace. The next conference Card 2/3 of the section was planned for February 1959 in Prague; BOV/136-59-2-21/24 Conference on Secondary Non-Ferrous Metals an exhibition on non-ferrous metals economy was recommended for that town for June 1959. There is 1 table. Card 313 S/136i/60/000/02/001/022 E193/ir,483 .AUTHOR: .1strin, M.A, TITLE: For Economical and Intelligent Utilization of Non-Ferrous Metals PERIODICALtTsvetnyye metally, 1960, Nr 2, pp 1-.6'(USSR) ABSTRACT: The author of this editorial discusetes the implication! of the directives of the Central Connittee of the Communist Party USSR, regarding the rationaluse of non-ferrous materials. He first conments,on the enthusiastic response to,the appeal of the Central Committee, in which numerous organizations have been asked to exercise strict economy in using various non- ferrous metals that are expensive or in short supply (copper, nickel, tin, lead etc) and tosugg6st . nwineans of reducing the consumption of these materials. Th4oustinds/ of replies have been received, the following being,a sample selection of the sUgge8ti(-As pUt forwardt (1) salvage of collapsible tin tubes should be organized or steps should be taken to use plastic instead of tin in the production of collapsible tubes; ~the'llatter measure would result in saving more than 250 t of tin1per year; Card 1/9 (2) at present, both the outside and inside surfaces of S/136,160/000/02/001/022 E193/E483 For Economical and Intelligent Utilization of Non-Ferrous Metals containers used in the tinned food industry are tin-plated; hundreds of tons of tin c,ould.be savedif the layers of tin inside the containers were replaced by a layer of approved corrosion-resistant lacquer; (3) large savings could be attained by using other materials in the fabrication of many parts of the passenger railway carriages that at present are unnecessarily made of non-ferrous metals; (4) a large .quantity of tin and aluminium is wasted in the form of thrown-away milk and soft drink bottle tops; a very ingenious design of stopper, doing away with the use of, non-ferrous metals, has been submittod. While the sum total of savings, attained by these and other similar measures, would make a not-to-be-despised contribution to the solution of the problem under consideration, there are many other, more important,ways of achieving this end and these are discus sed in the next paragraphs of the present paper. In the electrical ~ industry alone, 400000 t of copper and 300000 t of tin' Card 2/9 can be saved by wider application of aluminium as the S/136/6U/000/02/001/022 E193/E4,83 For Economical and Intelligent Utilization of Non-Ferrous Metals material for cables and cable-sheathing; this would mean an annual saving of 2 milliards roubles. About one-third of the total quantity of copper consumed by the cable-making industry is used in the windings of electric motors, transformers and other equipmentl the fact that a hundred high-power, three-phase, aluminium- wound transformers have been produced.in,1959 at the Zaporozhski Transformer Plant indicates that in this field too economies can be made (283 kg of copper required for one transformer can be replaced by 205 kg of aluminium). More than 13000 t of copper could. be. saved during the present 7-year plan's eriod by using oxidized aluminium foil instead of copper,windings in the fabrication of contactors, magnetic brakes, relays, coils etc. Aluminium can be also used successfully in the distribution systems as has been shown by.the designers of the Zaporozhski Plant who, by usiLng profiled alumi-nium conductors, saved 100000 t of copper in one year.~ The machine-building industry is another large COA 'iumer~ of non-ferrous metalal thousands of tons of bronze and Card 3/9 Babbitt are used every year in the manufacture of bearings S/136/60/000/02/001/022 E193/E-k83 For Economical and Intelligent Utilization of Non-.Ferrous Metals and other moving components, although there is a number of substitutes of proven quality such as certain plastics, caprone, textolite, pressed wood, cast iron, special steels, bi-metals and aluminium- and zinc-bas'e bearing alloys;. application of the bi-metal strip, iiiiade of iron-aluminium alloy ASM, in the manufacture of maAn, and.connecting rod bearings for tractor engines (instead of the previously used, bronze BS-30 bushes) could give 9aving of. a 14000 t of copper and 7000 't of lead during the running 7-year period, A new bearing alloy, TW19-1-5, containing, 8 to e ; 11% Al, 1 to 2% Cu, 0. 03 to 0. 06% ~Jjg-, reinaind r~ Zn, has been developed by TsNII MPS; this alloy has fo und'a wide application in the rail transport industry as a substitute for tin bronzes and for ca Icium and tin Babbitts; comparative properties of thislalloy and, bronze BrOTsS5-5-5 are given in Table I which includes: specific gravity, g/cm3; melting point, 0C; UTSj kg/Mm2i ultimate compressive strengths, kg/nvn2; Brinnell hardness, kg/mm2; elongation~ %I friction coefficient with and without lubricant; wear, due to friction, kg/mm2 Card 4/9 with and without lubricant. Prolonged field trials, s/i36/60/000/02/001/022 E193/E483 ~For Economical and Intelligent Utilization of Non-Ferrous Metals conducted under most exacting conditions, Iiiave shown that the new alloy is, in some respects, better than. bronze and yet this alloy has found little application in other.branches of the machine-building industry, although its price is only 4 roubles p er likg against 9 roubles per I kg of bronze. Caprone is another useful substitute; it is being used at the Kolomenski Plant as the material of the plunger and guiding columns bushes, 2 t of bronze being saved in this way; per:press; the components, made of caprone, are 3 to 'i tim4s cheaper and several times lighter than the same components made of non-ferrous materials. Pressed wood, possessing good physical, mechanical and anti-frictional properties., is also a very useful constructional material.that can replace non-ferrous metals in the manufacture of various equipment for the textile, food, cement and paper-making industries. There is a large field for improvement in. the existing foundry techniquest flame furnaces should be replaced by electrical induction furnaces, the losseA on melting in the latter being only half of those in the Card 3/9 former typei the large proportion to 40%) of qc~rap' S/136/60/000/02/001/022 E1934003 For Economical and Intelligent Utilization of Non Ferrous bletals Card 6/9 produced during-machining of parts cast in: the sand moulds could be reduced to 10 to .15% by using metal: moulds and/or by wider application of,centrifugal casting, pressure-die casting etc. The consumption of copper, bronze and brass in the industry producing the sanitary armature could be halved by wider ap- plication of plastics, ceramics, porcelain and other non-metallic~materials. New alloys with a lower content of scarce met-als should be more widely used in the machine-building industry; brass LNMtsZhA62-1-1-1, developed a few years ago as t a substitute for silicon bronzes and calcium~and brasses (LK80-3, LMts58-2.1 LS59-1) is one of these materials; the properties of these four alloys are given in Table,2, showing: melting point, *Cj UTS, kg/MM2; ~ultjmate, compressive strengths, kg/knm2; elongation, %I BriOnell hardneB3, kg/mm2; friction coefficient (with lubriclant); corrosion resistance (loss of weight in 2% water solution of sodium chlorides g/MM2/24 h)* Replacingthe silicon, bronze with the LMItsZhA62-1-1-1 brass would resultJn an annual saving of 2000 t of copper. Large economies in I S/136/60/000/02/001/022 E193/E-483 For Economical and Intelligent Utilization of Non-Ferrous Metals the consumption of rod brass can be achieved by. uni~lng arsenical brass (0.05% As) as the material for steam turbine condenser pipes and car and tractor radiators,' while wider.application of various bi-'metals (steei/copper, steel/brass, steel/oluminium, steel/stainiess stee '1) would lower the consumption of other non-ferrous materials. Considerable savings of scarce, non--ferrous metals.;can.be attained by wider application of titanium.in the fabrication of components exposed to corrosive and/ or oxidizing conditions. Since 80% of' nickel, prodilac:'ed at present in the USSR, is used in the production of stainless steels, the consumption of metal could be ~ this' reduced by the introduction of the following measures:, (1) incre sing the production of nickel-free or lo 'nickel content stainless and constructional. steels (eg steels~ o8Khl3, Khl7T, 15KhR, 20YhGNR, 4OKhDrR,l wh 'ich, in many, cases, can be used &s substitutes for,steels with high; nickel content; stainless steels of' the 18-8 type,, (containing up to 9% Ni) can be succe'sefully replaced by new types of high chromium steels E1657 aAd EP26, Card 7/9 developed at the Moscow Institute of' Aeronautical S/136/60/000/02/001/02 2 E193/E48,3 For Economical and Intelligent Utilization of Non-Ferrous Metals Technology, and containing nitrogen and up to 2.5%, Ni;~ (2) replacing the Ni-Mo-bearing steels with'those containing boron and manganese (15KhRA, 3:JKhR. 2OKhGRA (3) replacing the nIckel-baseo heat-resistant materialE. by iron-base alloys; (4) increasing the,productioii of carbon steel base, stainless steel clad products; (5) improving the methods of collecting and.treating alloy steels scrap. More than 4000 t of tin is consum6d annually in the production of tin-plate, the specific consumption of this metalin the hot-tinning process being 21 kg per 1 t of tin-plate; this f1gure,could be.: reduced to 7 to 8 kg by changing over to -3lectrolytxc tinning. Large savings of non-farrous metals.can'be attained in the production of secondary non-ferrous:~alloys; at present, reverberatory furnaces are used,f.or melting certain types of bronzes and brasses; the melting losses, amounting to 9%. could be reduced to 5 to~61,4 by using electric induction furnaces, whereby 5000't of non ferrous metals could be saved annuallyl in a aimilar manner$ Card 8/9 losses of aluminium could be reduced by 4%4 Finally, mteps S/136/'60/000/02/001/0;22 E193/E:483 For Economical and Intelligent Utilization of Noxi-Ferrous Metals should be taken to improve the methods of scrap collection and to ensure better classificat-L'an of this important source of valuable non-ferrous metals. There are 2 tables. Card 9/9 ISTRIN, M.A.; BAZHENOV, M.F., n-suchn. red.; SINACIMKO, L.M., red. (Econony of nonferrous metals and the Introduction of their substitutee, in industry, transportationp and build- ing] Ekonomiia tsvetrykh metallov i vnedrenie ikh zam'eni- telei v promyshlennosti na transporte i v stroitel'stve. Moskvap 1962. 63 p. (MIRA 17:5) 11 1. Moscow. TSentraltrqy ins~itut informataii tsvetnay me- tallurgii. FRIDLYANDERI, I.N.; 1STRIN, M.A.; GOLIDBUKHT, G.Ye. Utilizing scrap from ductile aluminum alloys. Alium. spia no.3:326-329 164. (MIRA 177 ij ~;Cop .'02861 00 0 5024406.~ -:'SOURCE, 'UR 831 084 C RI I 5/000/0151. I M- ve-yev Ai I rz !~I.HVEHTORv Idilakov"No 1.4, gat dl dLYenov F.,# B s ORG: hone WroughC,~__.Siuminl ClaA 0 1 -SOURCE :_.-tBp Znaov no' i5;4 iO65 Metevi i zobreteniy L tovarnyW- tat, I TOPI ,C TAGS,'-, all - V.0-- aluminum: ba '8Le. alloy coTpor. con n ng oy~ m0 AC n~ 0. b1m: gues qn~ 1 con* containing- all nc;,coata* ififfig - alloy e4~ cont ning" 11- -alloy si i oy zi ma ~A! ~Iron - conttainiw* alloy, nickel,,cont6ining allo -con ant, taining alloy, zirconium - containing alior',:,bei~Wvi con h: ABSTRACT This Autho Cert-ifi at es' intrioauc,e IOU, medhanidal -propertie's "cor-rds ion - resistmce,~, ana t c -71.- 2% M ~?17. 8% itlG- 7VY. 5.-'!' 0; 1__~ C 2 111 sat co2per es i 0 Ol_ziwi~iiiniz, fganese,:~,O.q; max i r ckel't. * , I - U 0 6 -0. 01 0, 1% 'jjCon,Um', AZ 7. and'OoOOOI bd_,rrllL -.0.001% SUB P Aaecl I $Sol& to 0141luou it 14 11 a vA "j r . . . . A1-1- 4 ' - -a- Fa tMk v PJ. ForpohNI -4- 41 1:j pap" cfttbj~ A. Va. Conwhttov aa Prow. I.I. Nom. 10-11. W-11 drtsWts of foreign and dOnItMil we critically diwuMnl- 00 9 0 If 00 so 00 PC Aip -4-0 6 . j'.'' -- y A f4idij,, rl*.f Cuating Itu Blanc -00 .00 moo doe, -00 of Le 0: 00 ... .. SCIALLUROCAL WCOM41 CLASWICATOO kil sea J. lie- AV NO All a 61 Ills j 00 00,0 060 00 0 00 000 000 00 0 0*000 so Gave***- 1, It It 4 6; 41 o u a, 4 It it 11 14 11 k 0 It M X .4 3 :4 A N V P V It r 1. 1 1 -.,. oil, 0 00 0. 99- 00 ;-so 00 1.00, S. Nit, 4. m .100 41 00 SiS 0 0 we a- !It 0 a a 0 9~;O 0 a so 0 a a 0 so so we 0 :.,a is 0 * To*'** of*;& 46 -,a Ill see 0'09**04~60. 4s# e041600 Iq pqgliv N III I I Mill I [A We 0 It 0 a 0 0 0 e--q-e-f *- 0 0 0 0-0 0 --0-010 0 0 0 0 0 0 1-1 A 4 -11- I-If 9 --a-- if- 11- a-- W-is- 4--1?-a-W a x x kA It a a IF V. 0 -P.-k It-A I if W 4 -W OC DR ft -k &e !R.Slctitts -Ills .01. '09 Now oftadards 91 bleached wild mbleached ~Wtt* pOp. 00 A. At. Coachwuv asid V. Himmushma m Prow. 00 !he rmnI r adalpted lijavidlards ol bkwbtd irA unbitacheJ oulfife pu Ep hw the prolhiciiim varimm kiMs trul grades c4 paper we diorupmed. Chax. 141611v~ 1-00 00 'r .00 00 43 4*0 die see 00's life 11 CLASSWIC&TWO too %8t443 -it all", ant 1, cat A 0 An A I k Od a a I W lm 0 a) u 0 0 W."v -10 of 0 0 0 00 0 0 0 0 0 0 06 0 0 9 0 000000 so. * 0 0 0 4 0,0 ISTEiN, Viktor Alekee~f,,~rovlcl- Printing paper and ciardboard pod red. G. G. Gillo, Mogkva, Glzlogprom, 19114. 23 P. (Z'Meniteli v Poligrafli) 4Z-b?2 Ruriiania &I Chemistry--Solutions. Theory of Acids Physic * and Bases* AM IM RUhfte#---,NGo 5 100a 90o 17l16 AUTHOR I _Nintu, V.,-Istudors I*, ond Ecleseal ' - - - IMT. Matuxial Gas' BU, thar*Bt 'In a 1~0 ~kEr Petroleum and t TITLZ J On the Absorption of Ethylene in Solutions of Amino Complexes M10. PUB6. 0 Lucrarile Inst Petrol si Gaze Bucuresti, 31 217 (1957) ADSMACT i The authors have determined the coeffiaient of ab- sorption of ethylene at room temperatlare and at pressures of 1-20 atm in solutiona of,the follow- ing amino ~complexes of. GU(2+)~: [Cu(NL~)4 3012 as well as comp exes [Cu(IIH3 )4 1 (NO~ of Cu(~+) with pyridine, ECU(C~ HS N)2 ](NO; )2 CCU(CO 4,N)4. I (NO~ )2 , and (Cu(C~ f; K),6 IC12 , both ka the li; qu and in the solid state (sic]. The results ob- tained indicate the formation of compounds be- tween the ethylene and amino complexes.of Cu(2+)-, CAPDI 1/2 Research SOV/123-59-12-46851 Translation from: Referativnyy zhurnal. Mashinostroyeniye~ 1959vNr 12, p 132 (USSR) AUTHORS: Khimushinq F.F*j Istrina, Z~V. TITLE: Investigating the Trend of the OKhl8N9, M18LEL and lKhl8N9T Chrome-Nickel Steel Grades to Intercrystallite Corrosion PERIODICAL: Sb. statey. Vaes. n.-i. i konstrukt.in-t khim. mashinostr., 1958, Vol 25, PP 11-46 ABSTRACT: The article has not been reviewed. SlAWAIISKAYA, F.B., kand.tekhn.nauk (doceased.1; SlIVARTS, G.L&,, kand.tekhn.nauk; KHMSHN, F.F., kand.tekhn.nauk; ISTRINA Z.F. inzh.; SIDORKINA, YU.S., inzh. Testing ;or intercrystalline corrosion of stainless Austenite ,and austenite-ferrite steels. Trudy NIIYMIMA~11 no.,27:3-53 159. (HIM 14: 8) (Steelt Stainless-Testing) KMOVSKIYY 11. 1.; YUSHCMIKO, K. A.; YUSIIKEVICII, 2;. V.; Electric are welding of corrosion resistant CrO.2VIOV-T ferritie-austenitic steel. Avtom. svar. 15 no.11:16-24. 11 f 62. (MIRA 15:10) 1. Ordena Trudavogo Krasnogo Znameni Institut mlektrosvarki imni Ye. 0. Patona AN UkrSSR (for Nakhovskiy,'Yushchen3ro, Yushkevich). 2. Vsesoyuznyy nauchno-isaledovmbullski7 i konstruktorskly institut khimicheskogo mashbmtroyeniya (for Istrina). (Steel, Stainless-Welding) VWSTION NIR Arx-5000732 SOURM, Hof zh,; MaLghTMOStMI-4 kts raschot detaley n1aahin, Gitirlopilivod. ()td. vy*p.v Abs. 1-48-40 AUTHOP- Istr-111 Kruilmikov, A, hl.-,, Shaval kin B. 9 OU -::---"A 7 --M-fg- S In, F r o 1, j. kova, TITLE Corrosion(oresistant properties 6f chromia with lowered nickel content C-r ITED SOURCE: Tr. Vsoi, n~-I, i 1construktt., #i-t 4111m-~ V'Y*P. 45s 1963s 76- TOPIC, '~MGS-. corrosion resis-t-Emee., ehromium. n,,j4-1Cfj- nickall! ~'Sateol QM2111:4412T,, containinr,r a-loy, metal corrosion/ steel OKh--..,It i " e 8N' I mmly . . . . . . . . . . . F0 _j li z MON- T SLA RM A,6i~ats, of ali T.7 av r of corrosion rnglptArft ntepl-:i with reduced nicke"L oontiont Rnd thei ir cgra 1/;2 W'W.L-WUIA ~ - ~ -- -- - - -- . . .. - ~ . steals in the construction of chemical oquipment, ~;s do,-Oerrnined, . I Because of their corrosion resistancep steals M81N5T~ O!WlMIAW,I and ~~an 'oii uae,, ~.Lq ai-abstitutes for sl;aels M),18N-9T and in a varit!~y ol" t.,.crrosive media, for exampae, ia tba prodl.:Ctjo'n Of Capro"acte'ri, idirlo aoid, dimethyliierephit-halate, - U ~ A. Citric aGi-d' L~reap ac.'La" wna orhers. J~L log,- 340 SUBMITTED! 00-- gf- `--SUB 002 0144, CODE:, 00 -NO RZF*86V aird 3 -41 pr%O Write S Whiog a eaidig I! Animal 6i itent Oidwerk oe, El ance to i tter'~ 10 c to) frosioWtesik~ni--e 4ded': lip: ii:6ubstAt4tef j, ;1 LIFERENK09 I.G., kand. tekhn. I inzb.; FROLIKOVA, YeeMo, inzh, Corrosion resistance of M(h2llg6MZT cast steel in the produotion of dimethyl terephthalate. Dim. i neft. maahimostr, no.5t29~31 N-164 (MIRA 18:2) 0 T ACCESSION NR- AP4047508 MJW/JD/WB/PYI' S/012 /64/(40;1016~00321003U: f AUTHORf-'-Sliihirts L U(st-0 ti TITLE: Worocorroalon f strurtural mateiqaig du ring bb; prd~kt-tlon- of ,oflpu~~ja synthetic d_",k'F- : .. ,1j_~! ~ ~ ~ hl igikd~lvldbtAbb It SOURC8- 11 : derftlye M6ta ove 0 32-38 riffine- yej~.m Ad j x*y ~ 0;. 1, , ,~ -, e ry a' tainleg's gtepxph *61dijo bt dMi e corrosion t Aypea~ 6 st :96~~s 4.1le we.,re- . M t v 4b ABSTRACT,- VttHous ~i~, L n 0 the weld met ot r industry. In maleic an)-tydride media al of t18 9 W. 08Q! 1. 211 , "18 IT IvTn t^ F, 0St Il 01 Cr, 8 55 Nl; 0. 60 Mn. 0. 65 T0/41~hl".-M 6o c;, 1). rA 4- '1' K h I [ N 19 WIT (C. -H K L'. N, I -- -Y. I - -- 36 Si; 17 R Cr 1 .3 M 1 95- M6,- 0- U Ti and %,j 7 I~Z,. - 1~A C, 1 :1 Nh R Mo. 0 41 TO specimenmi di-spIw,)kKI a tandelicy 1.0 5, r- 1;1 -,11 e 1r v ero-rosion with respec'! to delta-fenite, 'rile weLd joints olf cardi/3 4 -ih ZY f by general corrosion and those BEAT tanjiurn.Zore qiOre -y of' taij:1 e resistant. In the media. used in the wet recb;R~Y- alj:jAes: r 6 pr0oucPan Y of phthalic anhydride 01(h2IMT, U . 07,Q -0.,99 Mn;,0.115~! U, 17 0. 4414' til s-p-66f- ens an-ef their-'*Aed jait"i s-46 e sifg:A :d 1 h' corrosion although individual pitting occurredin thei Wjj~ets. 4. 43uperf ~-'c ial pitting was observed in the weld joints of lKhIBN9T fiVe KiIBN1211-2,7`~_ OKh2lN6M2T speci-rnens which contain .1. 65% and 2 018111e M~ respectiv 11Y 7RR-aff -Ad ~b---eith' er ~geij~ra qr~:p~ pg c-acdd Lfi-the is-b-Aln, W 1A.T. hydroichlok on i- - - I -t- sistant and OKh23N28M3D,3T remained sol- A- ul aci 64 During the production o, 3- amino- 5- sulfoFialycillic acid K108NII)MUT and OKh21N,6M2T specimens were appreciably attacked by s-d9uric acid, their weld metal having a two-phase structure, In the production of benzi1ithrone, is-zressi corrosion cracking appeared In OKh23N28M3D3T specilaefts afteir weldingi a n,(~ other typea of mechanical working. The steel is appUcable prbvided fintshed I parts are annealed at 950 C for 60 minutes and air cooled to r4ilteve interntal. test- Curd 213 11 ~9754-65 ~~,SION--N -A' a wl g s , ` ~ l - - - . rm"~tu!~-i " -; fi l 1 -- AMOCIATMN~' bTnKh M h - ' . W NR RrF SO'v'r: 000 OTH.Eu. 1~jl 13 -'i IrI H ER M i m-1 1111 110 .- - Acassmu NR: AM018336 S/Ol3T/64/OOO/0Ol/M%AO%, i: ~i souRcE, Rm. metanurgiya., Abs. u538" MMOR: Frolov, N. A.; Belink4j, A. Lo*;- iredozvO~ V., K.;' Zqtrinaj~'Z-, F. TITLE: The properties of new foundr 'corrosion 'restatent-,(stainuss) y stiel" Khl7M2TL and the area of its applicati6n- in, chemical machine building CITED SOURCE: Tro Wes. n..!i. i konativkt in* MSG kihoatr,*j,,Vy*p6 TCF'u TAGS: stainlevi'steel, stainleoc 6teel6astirig. chromium-nickel steelp acid resistant itee'l, corrosion 'resistant ateel TRANSLATION: Steel has higher castini',,Vropertied than Cr-Ni (steel of the austetiiti4'-:~_-, C ass* I Casting shrinkage determined on~sn instrument designed by'Bollshakoy' amounts to 2.12-2.21%. The flovability was determined according to.m sp iral pro (with a pouring tempereture I of 1, 400 'degrees the Aefigt~: of the'aptral is equal, 300 mm; at ly600 degrees), it is equal to 7 40 MM)'i The + inte mal shrinkage, bli e were studied on.conical and cylindrical probes.,. :rn ~ the, foraer, a concen rati. . 0 shrinkage blistetp'forma;- In, the-latter) -there ~ia a, lkrge v miat of ahr increasing as the temperature of pouring rioad Itest' treatment (Mmeauba at! 7 Cardl/2, ACCESSION NR: AR4018136 780 6irees for 2'hours) of steel does not influetice its mechwical. Vroperties and.',. -conducted for the purpose of removing casting strenaen and for m;ierWgt--,. should be propensity for intercrystalline corrosions Steel had good.cOrrosion, resititance, Av. -in 74 boiling acetic acid and. at 78% therke phosphuric aciet tit 100 degreeaj_-,,46~~. Ia,iec nd d- as a oubstituts for Or-ffi-Stedl typa. 184 Coto Mi' 'OD"' At Card 2/2~ .~.ACCESSION M: ~AR4027703 S/0276/64/00/0021=7/4008 SOURCE; RZh. Takhnologip mashinostrorniy&, Abs. 2G38'' AUTHM: Frolov, 9. A.; Belinkiy,, A. L.; Fedoroij V. I.-lot L F. TITLE: High-strength casting of new corrosion-rosisting, (stainless) stools with nickel conient CITM SOURCi: Tr, Vsese n.-to i konstrukto irrit kh1m. aashiwstr,#~ wj*p, 43,' 1963, 88-93 TOPIC TAGS: high-strength casting,'corrosion-r osisting stool'#' low nickel content. heat treatment, inter-crystal corrosion, steel, rddk~l sta;61 TRANSLVION:, Steel WIN5= has satisfactory casting properties enabling sufficiant-ly complex castings of high -strength to bo.producedo. As 4,rssat- at heat treat=ont, the yield point of Uds steel exceeds by 1.-q"2 times that Q; type 18--8 chromium-nickel stools. Its resistance to corrosion in a number at tio Ti 0 > 5 it =adia approaches that of M8N9TL stool. Withi percentage ra is not prono to inter-orystal corrosion. Steol.D17)452L bas good:c"zg 1/2 Card