SCIENTIFIC ABSTRACT YEREMIN, G.V. - YEREMIN, N.I.

RYADNOVA, Irina MildWylovnal doktor oellkhoz. nauk; YERF14II44 j k; KUYINVA, Viktorovich, kand, sellkhoz. nau Gar re [Winter hardineus of fruit trees in the southern U.S.S.R.] Zimostolkost' pl.odovykh der(..vlev na juge SSSR. 14oskva, Kolos) 1964. 206 p. (VIRA 3.7-.12)  (1.1p, VM 7 nts. G-AUvatl-A ?I:! Tap, Ih, '31 TI, Yorimllig iadam in el -jb~)rvy ArT yrry. 2, '72-15 o, ab  RYADNOVA, I.M.; YEREMIN, G.V. Fruit bud development in stone fruit trees in winter and spring. Bot. zhur. 46 no.9:1286-1293 S 161. (MIRA 14:9) 1. Krasnodarskiy kray, stantsiya Krymskaya, Opytno-selektsicnnaya stantsiya. (Krasnodar Territory--Stone fruit) (Plant3--Frost resistance) (Buds) A  y y8tvennykh nauk kand.sellskokhozYa Biological characteristics of vinter-hardY Plum var""" in the Kuban. Agrobiologiia. no, 3..367-37o my-je 161. (MIRA 14:5) 1, Krymskaya plodoovoshchnaya opytno-selektsionnaya stantsi-ya Vsesoyuznogo instituta rasteniyevocistva,, gArymak, (Kuban,-Pjum--VarietieO) (Kuban--Plants-FYost resistance)  1. 08271-67 EWT(d)/LVIP(c)/'~-IIP(v)/EWP(k)/-rwP(h)/EWP(l) IJPW ACC NR: AP602979Z SOURCE CODE: UR/0119/66/000/008/0022/OOZ3 AUTHOR: Bukhalev, V. A. (Engineer); Yeremin, G. V. (Engineer). 23 Yelimov, Y~_.A. (Engine-er) ORG: none TITLE: Digital-code tolerance control SOURCE: Priborostroyeniye, no. 8, 1966, ZZ-?.3 TOPIC TAGS: quality control, digital system, di inistiument 'ABSTRACT: A digital scheme of tolerance (product quality) control is considered.' The measured parameter value Is compared with preset values In two steps: (1) Each measured digit is separately compared with the corresponding preset limits for each digit and (Z) On the basis of this comparison, signals "pass" ori 11reject" are shaped. Boolean formulas for the "pass" signal are set up, and ;Card 1/2 68  L 08971-67 ACC NR: AP6029792 logic diagrams are drawn. The final diagram contains 10 OR-gates, 7 AND- gates, 6 NOT-gates, and 2 emitter followers (before the last.AND-gate). The claimed advantages of the digital quality-control scheme are: (1) The error of i the preset tolerance is one in the lowest digit place., (2) Parameters having the sign + or - are tolerance -controllable; (3) The tolerance is checked.practically instantaneously; (4) The scheme can work in conjunction with any digital measuring instrument. Orig. art. has: 4 figures and 11 formulas. SUB CODE: 13, 09 SUBM DATE: none  ', YU MiN, Ivan , 11-.-.-~ d Counterglaim. Grazhd.av. 18 no./*:3-1 161. (HIRA 14:4) 1. Nachallnik aviatsionno-moteprologichookoy stantaii Irkutskogo aeroporta. (Meteorology in aeronautics) . (Irkutvk-Airports-Traffio control)  YEREMIN, 1. Manufacturing mineral wool by centrifugal means. 3 no.401 Ap 162. 15:9) le Nachallnik tekhnologicheakogo otdala Vsesoyuznogo nauchno- issledovatel'skogo i proyektnogo instituta:po teplotekhnichoskim sooruzheniyam. (Mineral wool) Na strol.hos. (MIRA  VELISOVSKIY, V.N.;.YERk-MIH,_" ; KALIYANOV, N.N.[deceased]; MISHKEp A.V.; RODOV, E.S.; SEREBRYANSUYA, B.I.; GERVIDS, I.A.0kand. tskh~. nauk, red.; GURVICH, 6.A.1 red. izd-va; KONA.ROVSKAYAp L.A.,, tekhns.red. [Mineral wool insulating materials] Mineraloyatnye utep- liteli. [By] V.N.Vellsovskii i dr. MoA6, osstroiizdat, 1963. 196 p. (MIRA 16:5) (Mineral wool)  13ARBARINA, T.M.- BUBYRI, N.F.; WTT, L.N,.; VELISOVSKIY, V.N.; GORLOVY Yu.P.; GiIBAIIOVSYIY) V.G.; DROZDOV, I.Ya.; ZEZIF, V.G.; F.D.; YOCHA.'tOV, E.F.; KOSYREVA, Z.S.,* LEVIN, S.N.; YAKM~IOVICH, A.T.; MERZLYAK, A.N.; RODOVI E.S.; ROZOOV, A.I.; SEREBRYANSKAYA, B.I.; SUKHAM, M.F.; USTENKO, A.A.; KIWENKO, Z.S.1 SIIHIDT, L.M.; ETIN, A.O.; YAKHONTOVA, N.Ye.j KITAYTSEV, Vladimir Andreyevichy prof., dokt6r tekhn. nauk, red.; SKRAIJITAYEV, B.G., glav. red.; TROKHIMOVSKAYA, 1.P.., zam. glav. red.; KRAVCIIENKO~ I.V., red.; KITAYGORODSKIY, I.I., red.; KRZIEMINSKIY, S.A., red.; ROKHVARGER, Ye.L., red.;BALAT'YEV,P.K. red. [Manual on the manufacture of heat insulating and acous- tical materials] Spravochnik po proizvodstvu teploizo- liatsionnykh i akusticheskikh materialov. Moskvaj Strol- izdat., 1964. 524 p. (MIRA 18: 1)  KUKSTN, I.I.: B-TTIRMNY 1.1.; TFRERIN I.A.; ROTHISHTyp M.L.; SIYXARIJLIDZE, V-G.; KARPENRO, COntinuous-aOtion furnaces for the production Of mineral wool from molten blast,-furnace slag. Strois mat. 11 no-4:312-34 Ap 165. Jnatitut (MIRA 18:6) TePloproyekt (for Kuki3inp Biterman, Yeremin, Rotnitskly). 2. Rustavskjy zavod mineralovatnykh izdeli (for Slkharujidze), zavod imeni Lenina (f 3# Krivorozhskiy 'y or Karpenko). mOtallurgicheskiy,  YEREMIN. I.J. Iterative method for Cheb~(shev approximations of incompatible systems of linear inequalities. Dckl. AN SSSR 143 no.6:1254- 1256 Ap f62. (MIRA 15:4) 1. Sverdlovskoye otdeleniye Matematicheskogo institute, im. V. A. Steklova, AN SSSR. Predstavleno akademikom A.H.Kolmogorovym. (Inequalities (Mathematics)) (Sequences (Mathematics))  YEREM I - 1. 1. Generalization of Motskin - Agmon's relaxation methnd. Usp. mz. nauk 20 no.2:183-187 Mr-Ap 165. (MtM 1815)  YEREMIN-,,j,I.-,,,~and. fiz,-mtem. nauk introduction of mathematical calculations into the practice of planning; a congress in Sverdlovsk. Vest. AN SSM 33 no.22:86-87 D 163. MRA 17:1)  -/6-2 A~'FW ~.-025491 UR/0038/6676367652 WO 78 SOURCE CODE: AUTIMR: Yerem~,n I. I.- ORG: Sverdlovsk Branch of the Mathematic.2 I Mt1jut 355R (Sverdlovskoye otdeleniye matematicheskogo instituta AN SSSR) TITLE: Systems of inequalities with convex functions on the left-hand side 8MCE: AN SSSR. Izvestiyat Seriya matematichoakaxv, 30, no. 2,, 1966, 265-278 TOPIC TAGS: function theory, mathematic method 'ABSTRACT: The author considers methods of finding solutions to the syitem of inequalities fj (X) 4 0 (j - Is 29 for the case of the system's compatibility,, as well as methods. of fLndjM .the Chebyshev deviation of the system for the case of incompatij?i1i Here fj(x) are real conv n , ~ty ex functions defined on R orig. art. has: 22 formulas. CJPRS; '36t7751 SUB CODE: 12 / SU114 DATE: 2lDec64 / ORIG REF: 005 OTH REF: 003 Cwd )Aj UDC.-  w - - .6, -~el ' .1 - ~ - - . AUIIIIDRr Tl~raM T. T ILI - - ~~. L - _j , - -   - YEREMN~__L_~. _-, Diagnosis and treatment of pyelonephritis. Trudy Vo--. r--2. ir- 52:59-63 163. Diagnosis of the developmental stages of tumors in the urinary bladder. Ibid.:95-97 (MIWi 19:3)  __)IF2 =. I- T.K". Y-MMIYOVICH, Yu.1. Results of radiotherapy for malignant tu=ora .1- ~;rinary Trudy Vor. med. inst. 52:99-100 163. Results of treating chronic congestive prostatitis in a polyclinic. lbid,:111-113 OMIRA IF:3)  KUSSU". Yu.N.; YEREHIN, I.P. Autmatic synt9m for continuous control of efficiency, Trudy MEI no.49:7-16 163. (MIRA 170)  YMEMIN, I.P. Ivan Petrovich Kotliare7s'37i, 1769-1838. 49 p. (Kotliarevskyi, Ivan, 1769-1838) M, Iskusstvo, 1952. (WRA 8: 4)  YEMIN, I.V., inzhenaV Emulsion thinner for oil paints. Sbor.mat. o noy.tekhn v stroi. 15 no.6: 21-26 #53. (MLRA 6.-3) (Iculs ions ) (Faint)  Petrology and Petrography Dissertationt "Changes of Petrographic Characteristics In the 02idation of Coal Under Conditions of Their Natural Occurrence-" Cand Tech Sci, Ingt of Kineral Fuels, Acad Sci USSR, 6 Apr 54.,(Vachernyaya Moskva Moecow. 25 Mar 54) ,SO: SUM 213, 20 Sep 1954   15-57-3-3462 Translation from: Referativnyy zhurnal, Geologiya, 1957, Nr 3, pp 143-144 (USSR) AUTHORS: Ammosov, I. I., Yeremin, I. V. TITLE: Jointing in the Coals of the Northern Border of the Donbass (Donets Basin) (Treshchinovatost, ugley severnoy okrainy Donbassa) PERIODICAL: Tr. In-ta goryuchikh iskopayemykh AN SSSR, 1955, Nr 6, pp 103-111 ABSTRACT: Data are given on the investigation of endogenetic and exogenetic Jointing in coals of different stages of metamorphism; long-flame, gus, steam-fat, coking, and steam-caking. It was noted that the frequency and appearance of endogenetic fractures are not constant for coals of the same rank, but vary noticeably. The frequency and appearance of exogenetic fractures may also vary sharply in coals of the same rank. Howovert there Is a systematic relationship between the rank of Card 1/2 coal and the averuge amount of the Jointing in it. The W  15-57-3-3462 *-Jointing in the Coals of the Northern Border (Cont.) ,author shows that long-flame and gas coals possess the least joint- 'In~; steam-fat, coking, and steam-caking coals have maximum Jointing. Coals tending to suddenly collapse are characterized by increased endogenetic and, especially, exogenetic Jointing. Card 2/2 L. I. B.   TERM N, I. V. f Photographic characteristics of coals in the zone of oxidation. Trud7 I&b.geol.ugl. no.6:189-201 '56. (MLRA 10:2) 1. Institut goryuchikh iskopayeiffkh Akademii nmk SSSR. (Coal--Testing)  YEMIK, I.Y., kEmdidat takhnicheskikh nauk. '~~--Vnifiad'nozenclaturs in coal petrology (a-Il-Union conference in Moscow). VesteAN SSSR 26 no.7:83 J1 156. (Mm 0:9) (Coal-Analvels)  I i E M-1 V, PITIM, R.N.; YMMIN, IJ.; CEMMKOVA, K.I. Penetrability of Kusnetak Pasin c9als from the rUshno-Abinak deposits. Trudy IGI 7:85-93 157. (KLRA 10W (Kuznetsk Basin-Coal-Testing)  r--C7rv AUTHORS: Ammosov , 1. 1. , Doctor of GeoloGictl and Mwelogical Sgiences Yeremin. I.V., Candidate of Teclinical.Scienceb, Sukhenko, S.I., Candidate of Technical Sciences and Oshurkova, L.S. TITIE: Calculation of Blends for Coking on the Basis of the Petro- graphic Features of Coals (Raschet shikht dlya koksovaniya PERIODICAL Im gaovl gtrqyraff~~jskikhl sobrnq2 u 1 . 1 0 8 mi a fio ~ PP 1W06SA ABSTRACT: . A method of biendink co~ls'f r coking base an petro- graphic analysis is proposed. The method is based on princ- ciples developed in earlier work (Ref.1). On the basis of rank and petrographic composition, some nev7 characteristics of coals were established, namely: leaning index and coking coefficient. The leaning index is the ratio between the amount of leaning components present in a blend to the amount of leaning components necessary for a given blend to obtainopd= ratio between cokable and inert components in the blend. Vitrite, leiptinite and 113 of semi-vitrite are included as cokable components and fusite group arid 213 of semi-vitrite as inert components. The sum of cokable and inert components equals 100016 of the organic part of coal (2 C + 2:1 = 1005j'o); the division of coals according to rank (position in metamorphic Card 1/4  68-12-3/25 Calculation of Blends for Coking on the Basis of the Petrographic Features of Coals. series) based on reflectivity is shown in FiG.l. Optimum ratio between cokable and inert components for coals of various ranks, detertined empirically is shown in Fig.1 (the method of determination is not stated). The amount of leaning components which should be introduced into a blend in order to obtain coke (7 V) is determined from the formula: ICi C2 7- al a2 an wiere :Icl , Z02 ...... 2Cn the sum of cokable components of coals of individual ranks constituting the blend, a, IA2 " a. - optimum ratio between leaning components for corresponding coal ranks. The coking coefficient, characterising cokable components is determined from the formula: Card 2/4  68-12-3/25 Cal'aulation of Blends for Coking on the Basis of the Petrographic Yeatures of Coals. K = 2C, Ki + Z92 Gn Kn C where Kl K2 ..... Kn coking coefficient of corresponding ranks at a given content of leaning components in the blend. Values for K are given in rig.2. From the leaning index and coking coeffic:Lent determined for a given blend, the corres- ondirur coke strength can be determined from the diagram ig.-3~. An example of such calculations is Siven. It is U stated that a very good agreement between the calculated and determined values for coke strength was obtained (correlation coefficient determined for 44 cases was 0.527). It is pointed out that maximum fissuring of coke is obtained when the individual components of a coal blend differ considerably in their rank. It is concluded that the method proposed can be used for calculating the required composition of multi- component blends containing fusenic coals and up to 25016 of Card3/4  68-12-3/25 'alculation of Blends for Cokinc on the Basis of the Petrographic V Features of Coals. gas coals. There are 3 figures, 2 tables and 3 Slavic references. ASSOCIATIONS: IGI AN SSSR and Kuznetsk Metallurgical Combine (KuzndBkiy metallurgicheBkiy kombinat) AVAILABLE: Library of Congress Card 4/4  I.T.; ZYBALOVA, G.P. I eat of petrographic characteristics of coal on the efficiencY of pre-heating in the undergroundganification process. Podzem. gas. ugl. no. 2:59-64 158. (KIRA 11:7) 1. Institut goryuchikh isiopayetVkh im.G.K.Xrxhi2hauovskogo AN SSSR i Vsoooyuznyy nouchno-insledovatell,skiy institut Podssmgsz. (Coal_T~sting) (Coal gasification, Underground)  rMmjXj.X-,-kvnd.tekhn.nauk', PITIN. R.N.# Imnd,tekhn.nauk; CIUULWMVA, K. ParmeabilitY to gas and the fracturing Of some Kuznetsk Basin coals. Podsen.gasougl. no,4tl3-17 059. (MIRA 13#0 1. Inatitut goryuchikh iskopsyeWkh AN SSSR, (coal gasifipation, Undorground)  - -YBUMIN, I.Y. . , -- - ~ -- - - I Petrographic characteristics of coals an related to their utilization in the coke industry. Trudy IGI 8:14-20 '59. (WRA 13:2) (Coal)  AMHOSOV, LL; b-UKHENKO, S-I-VIMMIN, I.T.; OSHMOVA, L.S. Calculating coke charges on the basis of the petrographic characteristics of coals. Truly 101 8:21-30 '59,, (Knu 13:1) (Coke industry) (Coal)  AMMOSOV, Innokentiy Ivanovich; 3jMjVv-Jv&u-Tanjj_!yMt,q_4; BANKVITM, A.L., red,izd-ve; BRUZGULS. V.V., tekhn.red6, CiPracturing of coals] Trashohinovatost' uglai. Noskva6 Izd-vo Akad.nauk SSSR, ig6o. lo8 p. (KIRA 13:12) (Coal geology)  AMOSOV. I.I.; YEMIN; I.Y. Determining the degree of oxidation and estimating the quality of the coal by petrograpbic indications. Trudy IGI 141)-20 160. (MIRA 13:12) (coal geology)  , I.I.; IhFkMN i V.* FAKH, L.M.; HUIM, A.I. 9 Petrograpbic studie-~ and prediction of the coking capacity of coals. Pazved. i okh. nedr 27 no.12:11-16 D '61. (Y1?;. 1.54:3) 1. Institut geologii i razrabotki goryucbikh Iskopayemykh AN SS5R (for Ammosov, Yeremin). 2. Trest Kuzbassuglegeologiyall (for Pakh, Boyev), (Coal) (roke)  LINN', G.D.; ETTINGER , T . f'. Gas composition and capacdlty of ccalo ir the weathcrli~;f zsn,- coal deposits. r-okI. AN ~Sc. 16) J8;2) I. Institut gornogo dela im. A.A. 'cI-kochIn!3kf,)jo i1rintitut geo-10~,iji, i razrabotki 6oryuchikh lskorayemykh Ali SSSR. Submitted July 4, 1964.  AMMOSOVt I - I. ; -YMIN$ I. V. UBINKOVA, N. I. ; GRECHISHNIKOV$ N. P. ; PRIANISM11KOV, V.K.; MUSYAL, S.A.; AMMSOVA, Ya.M.; BORODAVKINY M.G., red. izd-va; YFTIFAKOVA, L.V., tekhn.red. (Petrographic characteristics and properties of coals]Petro- graficheskie osobennosti i svoistva uglei. Moskva, Izd-vo Akad. nauk SSSR, 1963. 379 P. (MIRA 16:1) (Coal)  VESELOVSKIY, Vsev4lod Stefanovich; YEREXIN, I.V.; ELINSON, M.M.j 221AMSKZ, V.L., red. izd-v'-a-; tekhn. red. (Testing of mineral fuels) Ispytanie goriuchikh iskopaerqkh. Moskva, Gosgooltekhizdat, 1963. IaO P. (KVU 16:12) (Fuel--Testing)  AHMSOVP I.I.; YEMMIN, I.V. CharRCterization of coals according to the content of basic groups of microcomponents. Razved. i okh, nedr 27 no.1:7-11 A 161. (MIRA 17:2) 1. Institut geologii i razrabotki goryuchikh iskopayezykh All SSSR.  ETTINGER, L L.j ZWKOV) B. M-1 BAKALDINA, A. P, Sorption properties of various petrographic components of fossil coals. Dokl. AN SSSR 155 no. 2964-367 Mr 164. (MIRA 17:5) 1. Institut gornogo dela im. A. A. Skochinskogo, Moskovskiy geologorazvedochnyy inatitut im. S, Ordzhonikidze i Institut geologii i razrabotki goryuchikh iskopayemykh. Predstavleno akademikom N. V. Mellnikovym. - .J#F :-  YEREI-ITTI, Ivan Vasillyevich; KALINRI, B,P., inzh., nauchn. red. fPresent day technolo&f and orean-7zation of the assembly of the precast structural elements of Industrial build- Ingo) Sovremennaia. tokluiologlia I organizatslia montazha sborrVkh konotruktBil rrmV-qh1owrjkh zdandi. Moskva, Stroilzdat, 1964. 96 p. 41111A 17:10)  P11MOSOVp I.I.; BABASHKIN, B.G.; GRECHISHNIKOV, N.P.; YEREmIN, I.V.; KAIMYNOV, G.S.; PRYPIIISHNIKOV, V.X. (Industrial and genetic classification of U.S.S.R. coals; basis for clasWication] Promyshlenno-genetichaskaia k1as- sifikatslia uglei SSSR; osnovy klassifikataii. Moskva, Nauka., 1964. 174 p. (MIRA 17;12)  GETAID, N.H.. inzh.; yyWpjH, I.Ta., inzh. TP-80 boiler unit with 450 ton-per-hour capacity. Jnergo- mashhoetroenis 4 no.5:1-5 MY 158- OGRA 1119) (Boilers)  SHCHERBANI A.N. (Shcherban' O.N.1, akadmik; TSYRULIN1KOV, A.S. (TSyrullnykov,, A.S.1; YMMINp 1. Ya. [lErtomin, LIAI Method for predicting the gas content of coal and gas pressure it the,face of the seam. Dop.AH URSR no.6t753-758 161. (MM 14:6) 1. Institut toploonergetiki AN USSR. 2. AN USSR (for Shcherban'). (Mine gases)  SHCHMWII) Aeliep (Shah (),N.]~, akadomikj TSWUL VIKOV, A.S-. or (TSYRULINYOV., A.~U)- Y!~IOIIII I Ya CIERIOMIN: I.IA.] Expected ourface temperature of a coal amm and country rock in atopes of coal pits. Dop. All UR8R no.8:1045-1048 161. (MIRA 14:9) 1. Inotitut toploenergetiki AN USSR. 2, AN USSR (for Shcherban'). (Coal minee and mLninngff),  SHCHERBANI, A.N., aka(lomik-,-TSYRULINIKOV, A.S.-S kand.tokhn.nauk; YLREMB-I.Ya.. inzh. Effect of degassing a coal seam on the temperature conditions of the seam and wall rocks. Trudy Sem.po gor.teplotekh no-4: 5-15 162. iKMA 15:8) 1. Institut teploenergetiki AN UkrSSR. 2. AN UkrSSR (for Shcherban'). (Mine gases) 041ne ventilation)  TERESHCHENKOP V.G.J inzh.; YEREMINP I.Ya.p inzh. ------- Study of temperature fields in rock massifs in stops. Trudy Sem.po gor.toplotekh. n0,/+:29-32 162. (14M 15:8) 1. Imstitut teploenergetiki AN UkrSSR. (Mine ventilation)  REZNIK, V.I*, inzh.;-j~9M:QI,.-,I-Ya., inzh.; SUYJIININ, I.A., inzh. Slag removal systems for boilers operating on Baltic shales. Energomashinostroenie 91no.100-10 0 163. (MIRA 16tlO)  TSYRULINIKOV, A.S., dotsent; TEREMIN, LUG inzh, .I- It., - Degasification of coal in the uork zone of a aeam. Ugoll Ukr. 7 no.6:22-24 Je '639 (MIRA 16:8) 1. Institut teploenergetiki AN UkrSSR.  KROPP, L,I,., irzh; KUZNETSOV, N.V.,, doktor tekhn. nauk; lErTR_q,,_ I.Ya.,.inzh.; RODIONOV, V.A., inzh. Study of a vibrational method for oloaning a ocrean-type steam superheater in the TP-17 boiler operating an pul- verized shale. Teploenergetika 10 no.3-102-38 N 163, (MIRA 17:1) nauchno-iseledavatellskiy toplotekhnicbeekiy institut i Turbinno-kotellnyy zavod.  TSYRULINIKOV, A.S.; U1024IN LYn.-DErlornin, 1.1A.]; MIKITCHMIKO, V.F. (Ptrkytchtinko, V.F. I' &tent of the gas drainage zone of coal seams In the vicinity of mine workings. Dop. AN URSR no.109-63 165. (MIRA 18:2) 1. Prodstavleno akademikom AJI Ukr3SR A.N. Shcherbanum (Slicharban', O.N.J.  T:3YIiUl,'NIKOVP (T.S~yrullvvl~,-,v, A.S,l I i .; YERI-14M, I.M. [lEvlc-~mlrl, !.IA.'; ' MIKITCHENKO; V.P. (14ykytcheriko, .F.1 Structure of the working face area of a -.cwil seam. Dop. AN UIRS'R no. 5:605-607 165. (MIRA 18: 5) 1. Institut tekhnicheskoy toploflzlkl AV (1kr,",SR.  v LB w 0 v a a w 6, , 4~ * 4 Geese so* 0 A A L L-j As - j a 1 a A. Q l ate . ERE N,KA- Too :0 _00 90 lr~ 00 *a 4~~, :00 a a :!. - "ll Iron. 9 A. VWkUlm of" of ShIllod sad IPQtt*d Ilow's 1932. No. I .11 A twwwiR, ,Of 00 0 a coo so so 1 - goo as 001 0. 'moo Go 61-%t A JfAL~J~~914L &j?jX4t4.df ~.AWfKAM. g so wee 00 t i~f-.W 00 n All I S I NO a 4 - . . " t, '. * , A , . . . 93 It I ~;40 4 1 14 1 it go of S 9 0 of f 0 0 0 S 0 0 S S 0 S 0 4 4n4 0 S, 0 a 9 a 0 9 0 0 0 0 0 0 a 0 0 0  Y*,ITE,MlN, Rati., Inze, Dealgn of relay PMU-CtIcr, eutcM L Co. control systems for ffrar~nip&j f lez-ric power dis-,-11 network3. Trudy LIF! rm,41.2~2-246 162. 17~6) 1. Leni,-,grairs~tipt kabellatya set'.  1. DZHAVAPIY, G. M.; YEPWIN, K. A.; KLIMVA, N. V. 2. USSR 600 4o Petroleum 7, Exaviination of the electric method of dehydrating petroleum emulsions by impulse tension,, Energ. biuls No,, 1,, 1953. April _1953, Uncl. 9. Monthl List of Russian Accessions, Library of Congress,  8(6)-t Y(2) BOV/91-59-10-14/29 JiL.K.Aww,and Chumichev N.I.2 Engineers AUTHORS: TITLE: Protective Measures for Relays Operating on Alternating Current PERIODICAL: Energetik, 1959, Nr, 10, pp 24-25, (USSR) ABSTRACT: On the basis of experience, it has been established that the weakest link in a relay system operating on alterna- ting current is the saturation transformer., Type TKB-1, working with an open secondary winding. Depending on the intensity of the primary current, the resistance of TKB- 1 attains 10 ohm and more, which causes a non-permissible, large load on the basic protective current transformers. In short-circuits, due to saturation of secondary win- ding cores of transformers feeding the TKB-1, dangerous tension peaks are created, attaining, according to data of the plant "Elektroapparat", 1400 volts. Thus, the initial defects of insulation can cauBe closing of turns not only in.TKB-1 windings, but also in the secondary windings of current tranaformers; as a result, the relay Card 1/2 system goes out of service. In order to remedy the situa-  SOV/91-59-10-14/29 Protective Measures for Relays Operating on Alternating Current tion, the following measures were taken: 1) The satura- tion transformers TKB-1 are operated with closed secon- dary winding; 2) De-shunting the switching-off coil cir- cuit is performed by common relaysq series IT-81 and IT-82, with contacts re-arranged for work on opening. In Fig. 1-a and 1-b, layouts of a maximum current protection, and in Fig. 2 - a maximum directed protection are given. Operation of TKB-1 with closed secondary winding has an advantage in that its impe-dance never exceeds 2 ohms, that is, it is never greater than the protection with direct action relays, Type KAM or RTV. It was experimen- tally established, at current intensity of 50-100 amp. in the primary winding of TKB-1, intensity in the secon- dary winding never exceeds 40 amp.; at that, not over 0.9 amp. is branched into the switching-off coil. Appli- cation of maximum current protection carried out accor- ding to the described method by a number of Leningrad Card 212 sub-atations disclosed no defects. There are 2 diagrams.  YERJO(IN, K.A., inzh. ction system Increase in the time response of a maximal -prote vith a direct action relaY, Energetik 11 no,7:22-25 n 163. (MIRA 16:8) (Electric protection) (Electric awitchgear)  YEOGIT, K.A. Acceleration of maxim= current protection using operational a.c. Trudy LIEI no.51:331-337 164. (MIRA 18:11)  YERNMIN, L., inzhoner. Repairing distributor vacuum regulators. Avt.transp. 32 no.3:26 Mr '5 4. (KLRA 7:13) (Automobiles--Ignition)  - *,,a- Repairing the gear shift mechanism on M-20 automobiles. Ayt.transp. 32 n0-7:28-29 J1 154. OUJU ?:9) (Automobiles--Transmission devices)  YXMV,IN, L,, inzh, Causes of self-disengagement of transmission gears. Avt. tranap. 36 no.9:26-28 S 158. (MIRA 110.10) (Automobiles--Transmission devices)  YEREMVI~ L. I.J. Cand Tcch Sal (dies) -- "Investigation of the effect of production and design factors on the operating qualities and life expectancy e of transmission boxes". Moscow, 19W. 23 PP (Min Higher and Inter Spec Educ RSFSR., Moscow Automobile and Road Inst), 150 copies (KL, No 9, 1960, 124)  ..-TUPIR. L.-._Anih. Wear of couplings In gearboxes. Avt.transp. 38 no.2:34-36 Y '60. (mIRA 13:6) (Motor vehiales--Tranimissigf~'deviceei)  SOV/120-58-4-5/3o AUTHORS: Shorin, K.N., Metallnikov, Yu-11., Bozin, G.M., Yeremin, L.V. TITLE: Using Permalloy-,- Cote -I Instruments,in Making Magnetic Measurements in Accelerators (Primeneniye permal- loyevykh datchikov pri magnitnykh izmereniyakh v uskoritelyakh). PERIODICAL: Pribory I tekhnika eksperimenta, 1958, Nr 4, pp 25-29 (USSR) ABSTRACT: Permalloy elements have large sensitivity in the range 0 to a few hundred oersted. They may be used to c-crastract aj>- paratus having sensitivities In the order of 10-~' to 10-0 oersted or better in the case of static fields, i.e. fields which do not change with time. In 1xieaunr1*1-~,non-uniform magnetic fields which vary with time, a permalloy a.--..*a moving coil Instrument will give rise to an error associated with the hysterisis of permalloy and the dependence of the field, due to transientB in the opre, on the rate of change of the field with time. A method is described in the present paper whereby this error may be eliminated auto- matically. The magnetometer which has been constructed Card 1/2 using may be used  ~')DV/120-53-11-5/~O Using Permlloy Core Instruments.in Making.Magnetic Measurements in kzcelerators measure both static and dynamic magnetic fields in acccle-ra- tors in the ranme 0-60 oersted. The sensitivity of the instrument is (2--3)lO-31nthJsrMiM The instrument can be used to measure distortions in the mean magnetic plane in oynchro- trons. The comDensation circuit which eliminateS the above error is shown in Fig.2 and the cr)-lete electronic aircuit ,used is shown in Fig.6. The mmJngoll-;Intruuiertitneirl3ilustiated in Fi--.3. V.A.Petukhov, 14.S.Rabinovich and V.Ye.Pisarev are thanked for their help. There are 8 figures and 1 English reference. ASSOCIATIOIT: Fizicheskiy institut All SSSR ( Institute of Physics, Academy of Sciences, USSR) SU13MITTED: October 27, 1957. Card 2/2  S/908/62/000/000/001/CM3 B163 3180 AUTHORS: Bozin, G. M., -Yvreminy-k,~.Jj-, Uetalinikov, Yu. 11., Pisarev, V. Ye., Sh6iin, K. 11. TITLE: Magnet and magnetic field characteristics of the 680 liev accelerator SOURCE: Uskoritell elektronov na 680 Mev; abornik statey. Ed. by Z. D. Andreyanko. Moscow, Gosatomizdat, 1962, 5-23 TEXT: The weak-focusing 680 Viev oynchrotron of the Fizicheskiy institut im. P.N. Lebedeva Akademii naul: SSS11 (Physics Institute imeni P.N.Lebedev of the Academy of Sciences USSR) is based on the 100 Mov proton accelerator which was the model for the big Dubna 13 Bev proton-synchrotron accelerator. The electromagnets, poier system and certain other parts were taken from this model. Avera/.e orbit radius in the 4 sectors is 2 tetors-~-the--length-6-f-:--i-ac-h- width,-36---cmi- gap--w- idth- orbit 2 -cm, -and angle of-the ciicubi- sectors 861. The magnetic pulse in the gap is almost triangular In shape, with an amplitude of 11,500 0e (current amplitude 950 a) and build-up time i-___~ard 1/3  3/908/62/000/000/001/008 Uagnet'and magnetic field B163/BleO 0.68 sec. The initial growth rate of the magnetic field strength is 20,900 oe/sec. The following modifications were made to the power aystam for operu~ion with electrona: 1) a demagnetization device wag fitted, creating an opposite current pulue in tho main windings in between the working cycles, to reduce the remanance field to about 2 oe, 2) a magnetizing arrangement was added, to create a negative field of 35 oe in the gap before the beginning of the cycle, (this helps to finish all transition processes in the magnet and the power system before the moment of the injection), 3) a atabilization circuit was added for the initial voltage at the magnet windings, to fix the initial growth rate of the magnetic field with an accuracy of 0.55f2, thus stabilizing the influence of eddy currents.on the magnetic characteristics at the injection. The injeation energy is 600 kev, and the initial field 20 oe on average the fiIeld index is o.66-o.6a. The influence of deviations of the real from the ideal magnetic field on the corresponding orbital deviations from the ideal orbit, is studied by perturbation calculations in a linear approxi- mation, and it in estimated th&t the greatest deviationo from the equili- brium orbit in axial and radial direction are less than 5 cm. Magnetic field distribution was measured on aA improved permalloy pickup for field Card 2/3  S19081621000100010011008 Magnet and magnetic field ... B163/BISO strengths up to 100 oe, and aloo by the induotive-mothod, using a ballistic galvanometer or electron integrator, for field atrengthe above 500 oe. Figures show the magnetic setup, field distribution and equilibrium orbits along the racetrack with and without field compensation, and the distribution of the field index over the radial coordinate for various states of compensation and various field strengths, and the arrangement of compensation coils. The deviations of the magnetic median surface from the middle-gap plane are also compensated by special windings, so as not to exceed 15 mm. There are 9 figures. Card 3/3,  S/906/62/000/000/007/008 B163/B180 &THORS: Dabkin, Bozinj 0. M.# Gagin, Ye. 11.,jeremin, L. V., Dietallnikov, 1u. N., Orlovskiy, G. N., Petukhov, V. A., Pisarev, V. Ye., Sedov, N. G., Shorin, K. H. TITLE: Some starting-up and operatine problems of the 680 Mev synchrotron SOURCE. Ubkoritell elektronov na 660 mov; sbornik statoy. Ed. by Z. D. Andreyenko. Moscouj Gocatomizdato 1962. 64-74 TEEXTT: The momentary particle orbit during the first revolutions is distorted due to a number of unconlrollable deviations from the ideal magnetic field configuration. ~Ihis must be corrected in order to capture a aufficient part of the injectad electrons. Indicating devices measuring deviations help to find 'he initial conditions, e.g., the correct injection angle and timing for %which the free oscillations about the equilibrium orbit become minimal during 'he first revolutions. Similar methods were used to correct foz deviations of 'he median surface of the magnetic field from the geometrical symmetry plane. For these measurements Card 1/3  S/908/62/000/000/007/006 Some stuarting-up and operating B163/B180 ,a chop9er was used, consisting of an electric deflector immediately behind In Ises t le 60 magnetic sector field in thein'Jection line, by 'obich short DU of 1-2 4sec duration could be selected from the injected beam. The signalling deviceD were flags and grids coated with lumineacent paint, sometimes in connection with photomultipliers. In this -nay the orbit deviations could be reduced to 2-3 on in radial in 1-2 om in ve--tical dizection. In the quasibetatron and the synchrotron acceleration stages the envelope of all oscillating orbits Yas measured by movable vanes, three or four in each sector. In the first stage, about 15 A300, the acceleratina field is disconnec-.ed but the magnetic field is growind. When the momentary particle orbit has been reduced, at 0.2 to 0.3 mm per revolution, from the inflector to the central chamber radius, the accelerating electric field is aritched on. Under optimal conditions, the capture coefficient is 2c,',', which corresponds to 2.5'109 electrons per cycle. To avoid undesirable reaonanco effects from the passing electron beam in the resonator during thQ first stage the resonator is detuned, and tho second stage is performed at a snallor orbit radius. 71lion the field is switched off at the end of the accelerating cycle, the magnetic field is still rising and the electrons hit the target, a tungsten vire I mm Card 2/3  3/908j62/000/000/007/008 Somestarting-up and operating ... B163/BIBO --- - - ----- ---- ------ --- leration- b*t---- S-11h t-- -*t of---the7---y---radiation=-------- am, e acoe -or 1 e in ensi. y:- produced was measured in a thick walled graphite ionization chamber. A total y energy per cycle of 2-1P 11tv could'be achieved, and the number of accelerated electrons per cycle ras of the order of 108. There are 6 f igures. Card 3/3  ~*lv-_grfwlRliiAltz5r,~i~L~~-k*qwy4?14RVi&~HV--,Ril- WWW"a-mmm lmm~- P th4apy of inoperable eancer patients. Vop. onk. 6 no*6: Insulin (KIRA 14:3) 48-52 Je 160. (CANCER) (IMULIN)  KRENKELI, E., Geroy Sovetskogo Soyuza; VIqIR4EVETSKIY, F.; TARIVERDIYEV, D., kAnd. tekhn. nauk; V-RAYANIY, V.; TOVMASYAN, L., nauchnyy rabotnik (Yerevan); ROBUL, B.; VOZIIYUK, V.; YERIPM111A N.J. radiolyub-,"21 (Moskva); MATLIN, S., inzh.; BOPll6v6LDK--O ihzh.; GONCH~FT)7, V.; GRIF, A.; MSTISIAVSKIYj A. Works and needs of radio amateurs. Radio no.7:1-3 164. 0,11RA 1P - 1) 1. Predsedatell prozidlunvi Federatsli radiosporta SS6R (for Krenkell). 2. Ilavnyy redaktor zhurnala "Radio" (for ViBhnevetakiy). 3. Ch-lon Bakinskogo radio-kluba (for Tariverdiyev). 4. Prednedatoll Llvovakoy- oblactnoy sektsii radiouporta.(for Karayaniy). 5. Vachallnik Donotskoy shkoly radioelaktroniki (for Robul). 6. Prodoodatell soveta Novo- sibirskogo oblastnogo radiokluba, (for Voznyuk). 7. Spetfiiallny-y korrespondent "Pravdy" (for Goncharov). 8. Spetsiallnyye korr-espondenty- zhurnala "Radio" (for Grif, Mstislavskiy).  1. N. IM"LIN, Eng., 11. SARTAKUV. 2. USSR (600) 4. Agricultural Machinery 7. Device for repairing tilling machinery. UMS 12 no, 11. 1952. 9. Monthl List of Russian Accessions, Library of Congress, April -1953, Uncl.   YEREMIN N.I- Booklets on the innovators in wool cloth manufacture. Tekst, prom* 21 no. 4:83-84-Ap 161* (MIRA 14:7) (Bibliograpby-Woolon and worsted manufacture-Labor productivity)  SIMATOT, A.D.9 redqj V redaktirovanii prinimali uchastlye: "MA OV, I.K.; Y=ROVA, N.A.; OVCHINMEOV, A.I.; SIZOVA, A.I.; SIMMI. M.G.; KARMM=. A.Y.; IWLIGHKIN, JL.V.; NIXOLAMAI Z.A.; STIPINOVA# V.P.; RMOVA, V.K.; KUMIKOVA, Y,N.. MMMIN, red.; XH~XH , Ya.M., tekhn.red. [Economy of Ullyanovsk Province; a concise statistical manual) Narodnoe khosiaistvo U111anovskol obla'sti; kratkil statistichaskii abornik. Ullianovskoe knizhnoe izd-vo. 1958- 199 P- (KIM 12:p 1. Ulyanovsk (Province). Oblastnoye statist icheskoye upravlenlye. 2. Nachallnik Statistichaskogo upraylaniya Ullyanovskoy oblasti (for Skaratov). (Ullyanovsk Province--Statistics)  Vo 0 SO 6 -0, -e-e a 0 0 41 9 it Ar W hr- AMA -x. a .0 01 a ILI 00 A jW mtol -00 ism$ 440 01*01*14% 0.6to thl ft-11 Of BU4001 a MMMkq3.KdjbjWxft 1. Emudn'-(Metal Iowa -soy set Henild, Rwwi*, IM, va 17, 13; No. 2, Jan., pp. 104-108). (In Runisa). The autbor b" developed a now, 10* niagnetle me4hod for in stmetuft at lawl in fek" =.M. tpwiments aso euried out on, to the hanlening 60-4 tubes of a stc4 omialmV of iu6mo, 043% of dwmWuto and. 610 '1 *0 A of.molAdocumIl Two sots of measuremsts are describode In one the characteristics of the current induced in tire coils =00 000 one containing a s"l* of the steel to be oxanin*d and the *0 oLhor a standard aocsistbK or a samplo of the same stool In 0 0 In the annealed state. connected In opposition and onorgised Is, 004 by the ism alternating current, wire deterainod as a tunction of tims by mass of an os*illopoph and analysed by means of Is 0 a harmonlo malywo, VA* second sesorromenta were obtained r4 0 by a ballistic methodlo the growth sad decline of an oaf In- wee, 11 duced In a oaU containing & core of the some stool to be X** :1 tested being Iletormf od* The Osaillograph curves are charact- erlstlo.49r the difference between the hysteresis loops of the a too ,as "TAILL10"CA LIT184thill CLASUPKA1100 I 1"n7 Poo 17'3.xv; _2 0 $41low .410 aft* 44( ofI Sol 4d 4-1 111 -7kb u a Aw jo a 6 a q I _W 4 _31 f -4.0 IN a 0 : '": 0 0 111 44010 0 111 44 0 0- 0 0 0 0 0 0 111 064 0 so so 0 0 0 so* 000  6 0 0 Is 0 0 00 0 0 0 0 0 0 00 0 0 0 00 0 0 0 00 0 00 0 0 0 00 0 0 0 00 00 0 0 00 00 .00 so . I;. saxple andthe standard# The wiplitudes and phases or the 00 00 41frorent hormovies are related to the shape of the loops 00 00 VA# cosrolvity and oth*r"alli*d properties@ Mwso charact- 00 00 orlatios are "ry sensitive to structural changes, particul- 00 0 0 arly when martensitio structures are involveds The simplitude 00 00 of the third harsonlos which depends on the difference betvrvon 00 00 the maxim= lmductions, Jr*r*&vZs ;trSnCly Asn the quoisching 00 go teMerature Ii raised frcm 760 o 60 C., and to thus closely 00 related to the quantity of martessito in the omplee The con- 00 struation of apparatus for automatic, structural analysis by 00 this wAthod Is projocteds 00 00 00 *4. 00 00 0 0 00 00 00 so 00 00 04 00 so 00 00 00 00 00 00 s' 00 0 0 a 060990000000000e000000000 000e 0 -0-0-0 0 0 *-,e 0 0 0 0 0 0 0 0 0 0 Wo 0 0 0 0 a 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 4 P  -43 4 M Pi #a 0 0 0 00 0 Of 15-1-1- .. . . loll 0 1, - - V-1 - - Ii! tit 4 00A. .00 -00 MACIM10-rew lu P. MI. 000 21.141L F . TIn. for 11CATI tfetla". t4, 1, ftv atitlit 1 %*9 I Scientific PUIZOW and 400 Industry. A UJ3.8-R. an Russian. Ih stud6 of niod of a tboroug is 4 'Xistina doe Ar ftesulta flult inrtbO~ ,f the Ou" rn mag" ding thO Tclul" *01111 *Orlt too ed.1 is, inclu Urne ftleaVh'sluable Con' goo thOr I ':J"-w be 0 VCM "of d1tcc"O" 00, is bellev to the Means rticuiarlY in woe tributlr,,g dcfects-j',',j. r.0 0 00'a Of inte ctures. 00.3 welded stFu SOO 00 -AV 0 u0s woo 04 9 14 5 rw 0 14 1 66 see* n 900660 9 * 000 it a 00 0 0 0 0 0 0 * 0 0 9 00 g 0 0 00 t 0 0 0 0 00 0 00 00000 o 0 i-0  -16, 631.3 952,1 NLRA 60) (Ci 47'R*'*90110296 053)' An attempt to improve old methods by finding a sensitive magnetic colloid and studying ricrostructure (see Yeremin "Yagnetic Powder Defectoscopy" 14agnitzinya Poroshkovaya Defektoskopiya., Mashgiz., 1947). Finds that structures under electron microscope show inhomogenous distribution of magnetic and weak magnetic phases., as revealed by magnetic method, Indebted to N. A. Reshetkins and N. 1. Lebedyanskaya. 251T26   YEMIN,N.I.; KRINCHIN.G.S. Zffect of elastic stresses on the longitudinal and transverse inversion. Uch. zap. Hook. un. no.162:131-137 152. (Yerromagnstism) (KLIRA 8:7)  112-3-6375 Translation from: Referativnyy Zhurnal, Elektrotekhnika, 1957, Nr 3, p. 184 (USSR) AUTHOR: Yeremin, N.I. TITLE: Modern Methods of Magnetic Powder InspectLon. (Sovi,emennyye metody magnitnoy poroshkovoy defektoskopii) PERIODICAL: In Sbornik: Sovrem, metody ispytani~ materialov v mashinostroyenii, Moscow, Mashgiz, 1956, pp. 250-263 ABSTRACT: Bibliographic entry. Card 1/1 I  A/' J- ~PHASZ I BOOK EXPDDITATION .Tsentrallnvy nauchno-issledovatellskiy institut tekhnologii i mashinostroyeniya 269 Fiziko-khimicheskiye issledovaniya austenitn kh splavov (Physical and Chemical Studies of Austenitic AlloysT Moscow, Mashgiz, 1957. 258 p. (Its: [Trudy] kh. 84) 4,600-copies printed. Edi: Yeremin N.I. Candidate of Physical and Mathematical Sciences; Tee_h_--_M--P_ ~d~ova, A.F.- Ndnaging Ed. for literature on heavy machine building (MASHGIZJ; Golovin, S. Ya., Engineer. PURPOSE: This book is*intended primarily for scientific and engineering personnel engaged in research on heat-resistant austenit'ic alloys, but may also be useful to laboratory workers in the metallurgical and metal-processing industries. COVE-RAGE: The articles in this volume, written by various authors, the results of experimetnal investigations of phase composition and structure of austenitic alloys, conducted with the use of modern phyeico-chemical methods. For authors, Card 1/10  'Physical and Chemical Studies of Austenitic Alloys 269 references, and additional coverage, see Table of Contents. TABLF. OF CONTENTS: Likina, A.F., Engineer; Borcheva, T.A., Engineer; Nude, L.A. Engineer. Electrochemical Nethod of Studying the Phase Composition'6k Austenitic Steels 3 The authors discuss differential analysis of carbide phases and methods for determining nitrogen.niobium, tungsten, and other elements. There are five Soviet references. Shmelev, B.A., Candidate of Technical Sciences. Hydrogen in Steel 22 The following topics are treated*, (1) mechanism of formation of hydrogen occlusions in steel; (2) methods of determining hydrogen in ferrous metals: evolution of gas from metal on mechanical destruction of specimensolution of metal in a reagent, combustion in oxygen, ionic Card 2/10  Physical and Chemical Studies of Austenitic Alloys 269 bombardment, determination of the most mobile part of the hydrogen at room temperature or with moderate heating, heating in vacuo, and melting the specimen in vacuo; (3) preparation of Btandard specimens with hydrogen content predetermined by an electrolytic method of saturation; (4) sam ling and preservation of steel specimens for hydrogen;, (5)p effect of hydrogen on certain mechanical properties of high-alloy steel. There are 35 references of which 21 are Soviet, 6 English, 6 Oerman, and 2 French. Cheburkova,, Ye. Ye., Candidate of Technical Sciences. Nonmetallic Inclusions in Austenitic Chrome-Niokel-Cobalt Steel with Niobium Content. 41 There are 7 Soviet references. Yeremin' N.I., Candidate of Physical and Mathematical iii investigation of -t :~_*cK2. Phase Transformations in the Aging of Austenitic Chroie-Nickel Steels 53 Card 3/10  Physical and Chemical Studies of Austenitic Alloys 269 There are 16 references, of which 9 are Soviet, 5 English, 1 German, and 1 French. Lashko, N.F., Candidate of Technical Sciences. Phase Transitions in Diffusion Processes in Alloys 69 There are 2 Soviet references Yeremin N.I.; Lebedyanskaya,, N.I., Engineer. A UN-e-s-titatidn of the Phase Transformations and S;ip a' by the Magnetic Microstructure Method 75 There are 15 references, of which 6 are Soviet and 9 English. Sigolayev, S. Ya., Candidate of Technical Sciences (deceased). Some Properties of the Alpha-Phase in Austenitic Steela . 87 The author concludes that in steel Khl8N11B the alpha- phase may.be of dual origin -- "mechanical" in the case of cold hardening, and "thermal" in the case of aging. Card 4/10  Physical and Chemical Studies of Austenitic Alloys 269 There are 4 Soviet references. Yeremin, N.I.; Lashko, N.F.; Lebedyanskaya, N.I. -V_ha_s_e7Ti-MWormations Occurring During Cold Plastic. Deformation of Austenitic Steels 91 The author concludes that analysis of the magnetic microstructure can be widely used for studying the mechanism-of plastic deformation, phase hardening of austenitic steels in cold working, and in estimating the stability of solid solutions on the basis of their dissociation during mechanical polishin There are 18 references, of which 14 are Soviet and t'English. Entin, S.D., Candidate of Technical Sciences. The Effect of Plastic-Deformation on the Aging of Austenitic Alloys. 107 There are 5 Soviet references. Card 5/10  Physical and Chemical Studies of Austenitic Alloys 269 Entin, S.D. Formation of the Alpha-Phase in Plastic Deformation of Austenitic Alloys n6 An investigation is made of the effect of the original structurd'on the stability of austenite during deformation, formation of the alpha-phase as affected ,by the degree of deformation, effect of deformation at elevated temperatures on the dissociation of austenite, and the formation of the alpha-phase immediately upon deformation. There are 5 Soviet references. Lashko, N.F. Effect of Manganese and Nickel on the, Phase Composition of Certain Austenitic Steels 126 Xer4pin_, N.I.; Lashko, N.F. Concerning the Vistribu__tlo~n of Nitrogen Between Solid Solutions and Second Phases in Austenitic Steels 131 There are 3 Soviet references Card 6110  Physical and Chemical Studies of Austenitic Alloys 269 -I.; LaBhkOj N.F.$ Lebedyanskaya, N.I. Phase Yeremin, N lace During Forging Tha ~jes'in V,1572 Steel Taking F The authors discuss the peculiarities of structural Changes in cast steel during heating for forging,, Phase changes during forging and cooling, aging, and the effect of niobium. and titanium on structure. Sigola ev, S. Ya. The Effect of Repeated Heating on Phase ~Orm8tion in Austenitic Alloys 37 0 There are 2 Soviet references of Technical Lashko, W.F.; Tseytlin, V.Z-' Candidate Sciences. some Peculiarities of Medium-Carbon Chrome molybdenum Pearlitic Steel 67 There are 2 Soviet references Yeremin, N.J. Structural Changes in the Surface Layer _;~ ~~ing High-Temperature oxidation 172 Card 7/10  Physical and Chemical Studies of Austenitic Alloys 269 Temperature Oxidation 172 There are 7 references, of which 3 are Soviet, 3 English, and 1 German. Komarovskiyo A.G., Candidate of Technical Sciences. Local Spectral Analysis 184 The potentialities of spectral analysis as a means of determining local chbmical composition of metal, particularly of welded seams, are investigated. There are 3 Soviet references. Komarovskiy, A.G. A Rapid Method of Spectral Analysis of Austenitic Steels 199 The author outlines his method for the rapid quantitative ana-lysis of high-alloy steels and heat-stable alloys for silicon, manganese, chromium, nickel, molybdenum, tungsten, titanium, vanadium, cobalt, aluminum, boron, and niobium. There are 26 references, of which 20 are'Soviet, 2 English, 2 German, I Italian, and I Scandanavian. Card 8/10  Physical and Chemical Studies of Austenitic Alloys 269 Shmelev, B.A. General-purpose Unit for the Determination of Gases in Steel 226 The author describes the unit and themethod, which consists in the vacuum melting and degassing of the specimen in a graphite crucible, the gases being drawn off by a system of pumps and then determined by ordinary methods of chemical gas analysis. Yelchin, P.M. Determination of Ferrite in Austenitic Steels by Means of a Magnetic Balance 241 Sigolayev, S.Ya. A Device for the Thermomagnetic Analysis of Austenitic Steels 245 The author-states that this electromagnetic device and the thermomagnetic method of analysis have made it possible to obtain new information in these processes., not ascertainable by ordinary methods. Entin,, S.D. An-.In5trument-for Measuring the Magnetic__ Susceptibility of Austenitic Alloys 251 Card 9/10