SCIENTIFIC ABSTRACT SAMOKHINA, A.K. - SAMOKHVALOV, A.A.

TIMOKBINA, M.A., dotsent, kand. med. nauk; BROD.13KIY, R.F., kand. med. nauk; SAMOKHRIA, Dynamics of abortions in women working at a melange combine anti ways for their reduction* Sbore naucb, trude Ivan. goe. med. inst. no. 28:323-326 1 63. (MIRA 19%1) 1. Iz kafedry akusherstva i ginekologii (IspolnyayuBbchiy obya- zennootl zav. kafedroy - dotsent M.A. Timokhina) Ivanovskogo gosudarstvennogo meditsinskogo instituta (rektor - dotsent Ya. M. Romanov)o 2, Zhveduyus'@ haya zhenskoy konsulltatsiyey Melanzhevskogo kombinata ( for, Samokhina).  r i f*'@ovetskaya -elorussJ ta L2. 0 ;ci, Inslk tate @4.2al in3t. 54 3 j; Cand I-Icd @4 Auc7 19@14  ZIKUAIMN. Kh.Ta.,, kandidat selQ skokhozy&ystvennvkh nauk; W.01444 kandidat sellskokhozyaystvannykh nauk. Obtaining soil specimens with Inclisturbed structure with a Nskrasov sampler. Dok-I.Akad.sel0khoz. 22 no.1:29-30 '57. (MM 10:2) 1. Taroslavskaya gosudaretvennaya selektsionmya atantslya. Predstav- lana, akademikom I.I.Samoylovym. (Soil--Analysis)  KONSTANTINOV, A.R..; PUSEKMV, V.F.; SAMOMINA, K- P. %-am" ---- J. 1,111.1- Characteristics of evaporation regime in agricultural fields in reclaimed 'virgin and'waste lands. Trudy GGI no.48:5-21 155. (MIaA 9:7) (11vaporation)    J-42,905-66 DIT (I)IFAIT (m)/EVIP (J)/EWP (t)/ET IIJP(C) JD/JG/Rff ACC NRj AP6018452 SOURCE CODE: UR/0051/66/020/006/1081/ALU 7@" AUTHOR: Briskina, Ch. M.; Samokhina, M._A Zolln, V.;F. On: none TITLE: Sensitizing luminescence of Eu3+ and Tb3+ ions by organic #Zeal SOURCE: Optika I spektroskopiya, v. 20, no. 6, 1966, 1081-1083 TOPIC TAGS: luminescence, luminescent material, sensitivity Increase, rare earth, fluorescence ABSTRACT: A solution of europiyn carbonate in 85% orthophosphoric acid at 2200C wasl used. The concentration of Eu3 in the solution was I wt % while that of fluorescine was 0.02 wt %. The specimens of other sensitizers were similarly prepared,. fluores!@- cine, titanium yellow-and primulin were used to sensitize europium, while Th3 was sensitized by esculln, titanium yellow and primulin (the dyes are mentioned in order of effectiveness). The addition of fluorescine increased the luminescence of europi- um by an order of magnitude. An increase in temperature caused a rise in luminescence duelto europium and a decrease due to fluorescine. The authors conclude that (as in@r the caselof aldehydes and ketones) energy transfer to the rare earth ions proceeds from the'metastable levels of the dyes and is a function of the diffusion velocity, Orig. art- has: '4 figures. SUB CODE 7/ SUBM DATE' O9Nov65/ OTH REF: 004 Card 1/1 'jX IMP -- 5111 - ILL7'.  SAMOKRIMA, M.D. Congenital strangulated hernia of the umbilical cord in a premature baby girl. Akush. i gin. 35 no.1:107 Ja-F t59. (MMA 12: 2) 1. Is rodillnogo doma (ispolny9yushchty ob7azannosti glavnogo vracha A.K. Korovnikova)Severourallsks, Sverdlovskoy oblaBti. (HEMIA) (U]MBIMCUS--DISEMBS)  GERMAN, N.Ye., inzh..; SAMOKHINA, N.A.; ZARUBIN, A.G., inzh., red. [Catalog of parts for ZII,164A biaxia-I trucks, ZIL-164AP tractor trucks, ZIL424Z-585L and ZIINMZ-5851U'd=#,#Ucks, ZIL-157K triaxial trucks, ZIL-WZ-164AN and ZIL-157KV tractor trucks with saddle-type hitching atrangements] Ka, talog detalei dvukhosnogo avtomobilia ZIL-164A, avtomobilia- tiagacha ZIL-164AP, avtomobil;'i-samosvalov ZII,401Z-585L i ZIL-NMZ-585M, trakhoanog6'amtomobilia i s.edellnykh tiagachei ZIL-WZ-164AN i ZIL 24 -157KV. ashgiz) 1964. 451 P. .(MIRA 17:6) 1. Moskovskiy avtomobil@nyy zavod.  SAMOXHINA, N.M. Outstanding vomen in the textile industry*. Tekst.prom. 15 no.3:6-7 Mr 155. (M1PA 8:4) (Textile workers)  SHVARTSMAII S.Ya. - TARUSEUUNA-, G.A.@ SAMOLUNA, N.M. t;@- 1. ;.. #,-, - , , Heroes of socialist laboi rank first in productiom, Tekst.prom. 20- no-7:55-0 J1. 160. (MM 13:7) I . @ @@- o.. , - , - 1. Predsedatell fabrichno o komiteta profsoyuza tekstil'shchikov. (Textile workers5  VINOGRADOV., Ya.; SAMOMINA Masuring and planning labor productivity on the basis of labor involved in basic-chemistry. Biul.nauch.infoxm.: trud i zar.plata 4 no.6:14-15 161. (MLU 14 16) (Chemical indu tries-Labor productivity)  NIKIFOROV, I.A.,, kand. tekhn. nauk; NOSKOV-, S.K., kand. tekhn. nauk;-�MPXW34- -l--A1...,,inzh. Experience in using reinforced roo;-jp. prom. strol. 43 no.9:12-13 165. .. (MMA 18:9)  4 BLIBERT, B.1a, professor, zasJushennyy deyatell nauki; RUBIRSHTBYN, I.S.. dotsent; SAKQVICH, A.O., dotsent; VILENCHIK G.Tu., kandidat medttalhekikh nail ; GUREVICH, G.TS, kandidat maditolmakikh nauk; IZRAITLBLI, N.A., kandidat meditsinskikh nauk; KNIGA, A.A., kandidat meditsinskikh nauk; IKVIKA, P.I., kandidat meditsinskikh nauk; MARCEIENKO.L.O., kandidat meditainakikh nauk; RABIKOVICH, Ye.M., kandidat meditainskikh nauk; RUBINSHTEYN, B.B, kandidat meditsinskikh nauk; SDIOKHINA, Z.F., kandidat meditsinskikh nauk; KRASILINIKOV: A.F.-,-Va-HdI"a meditsinskikh nauk; ZMUSHKD. L.S.. wauchnvy sotrudnik; NISERkAUM, I.M.. nauchny7 sotrudnik; SOIDVITAITCHIK,S.I., nauchnyy sotrudnik; SUSLOVA, M.N., nauchVy "otrudnik;-POLISKIT. S.. redaktor; KUYTINA, P., tekhilchaskiy redaktor; KALECHITS, G., tekhacheskiy redaktor. [Practical manual ox medical microbiology and bacteriological methods of sanitation researchj Frakticheskoe posobis' po medi- tainskoi mikrobiologii i itanitarno-baktoriologichookim metodam issledovanii. Minsk, Gos.izd-vo BSSRI Rsdaktniia natichno-tekhn. lit-ry, 1957. 356 P. (mLRA io-.6) (MICROBIOU)GT)  NOSKOV2 S.K.g kand. tekhn. nauk; SAMOKHINA. T.M.9 Inzh, - -11----1'-1'."'.- 11 Selecting the type and the composition of waterproofing elemnnts. From, stroi, 42 no,1.OiI,2-46 0 164. (MMA 179111,  AGOONOVA, Z,Ya., kand. biolog. nauk; STRUKOV, A.V.; S=IQ_Ik&,_V.FI.; KIRSANOV, N., inzh.; PILYUGIN, II.V.; TSVETKOVA, N.N. Responses to our articles. Zashch. rast. ot vred. i bol. 9 no.2:12-16 t64. (MIRA 17:6) 1. Zaveduyashchaya laboratoriyey zashchity rasteniy Kurskoy opytnoy stantsii (for Agafonova). 2. Direktor Pskovskoy gosudarstvennoy sellskokhozyaystvennoy opytnoy stantsii (for Strukov). 3. Zaveduyushchaya otdelom zashchity rauteniy Pskovskoy gosudarstvemoy sel'skokhozyaystvennoy opy-tnoy stantsii (for Samokhina). 4. Glavnyy agronom mekhaniziro- vannogo otryada Yaroslavskoy stantsii zashchity rasteniy (for Pilyugin). 5. Glavnyy agronom Tatarskoy stantsii zash- chity rasteniy (for TSvetkova).  V. KUPCHENKO, V.A., inzh.1 SAMEMB Ta.F inzh. Design of multiple'machining attachments. Mashinostroonie no.6:6-9 N-D 162. (NMA l6j2) 1. Ukrainskiy gosudaretvenn57-proyektno-tekhnologicheakiy I eksperimentallnyy institut-stankostroitellnoy i instrumentall- noy pronVehlermosti. (Kharkov-Machine tools-4ttachments)  SAMOKHLEB, Ya.P.J. inzh. Universal hardening machine. Hashinostroenie no.6:13-15 N-.;.T) 163. (MIRA 16:12)  ALEKSEM, Georgiy Yevgenlyevich; VOILHONOK, Joir Izraillyevich; SP1,110KHODKIN, I,H... red.; LOBANOV, Yehl... red. izd-vaj 1@h_AYAj IPV*.q telft, red, (Wages in inland water transportation for members of'the crew and operational enterprises] Oplata truda na rechnom transporte rabotnikov plavaiushchego sostava i ekspluatatsionrUkh prec@- priiatii. Moskva, Izd-vo "Recbnoi transport,,tl 1961. 172 p. (NIU 15: 1) (Wages-Inland water transportation)  I SAMQ KHODKIN3 V. D. Lt. Col., Vet. Corps "Feeding Horses with Fallen Leaves "(III) "Bolezni Loshadey" (Equine Diseases), Sbornik Rabot (Collection of Work), Ogiz-SeltkhozgJ 1947, Chapter V - Tests and Practice, p 242 Compiled by A. Yu. Branzburg and A. Ya. Shapiro, under Editorship of A. M. Laktionova,- State Press for Agric. Literature. A collection of works on epizootology, szwger-y, therapy and 2aboratory and clinical practice in treatment of equine diseases. In majority of cases, articles previously published in the journal Veterinar or in one of the manuals issued by the Vet. Admin. of the Armed Forces USSR. -W-9922.- 1 'lay 1950 p 5 m  LUKOMSKAYA, A.I.; ORDOVSKIY, P.N.j- MEREZRAEM, S.B.; STUKALOVA, A.F.; Prinimali uchastiye: SAMOKHODKINA2_@.G.; KALINOVA, L.T.; GORINA, A.K.; STULWOVA@ V.T. Effect of the surface-to-vol:ume ratio of a test piece in the e.valuation of the processing qualities of rubber blends, Much. i rez. 20 no. 4:36-42 Ap 16le (MIRA 14:5) 1. Nauchno-issledovateliskiy institut shinnoy promyshlennosti (for Lukomakaya., Orlovskiyp Merezhannyy, Stukalova). (Rubber, Testing)  VOSTRIKOV, Hikolay Andreyevich; TASIKOVSKIY, S.Ye.; ITAYOT# N.A*; :;AKOKHODSKAYA, I.I.; PASh-MO, L-T.: KXIU OT, Y.L.. red.; GURSTICH. N.M., tekhn.red. [Combined mechanized crews of corn cultivation] Zvenlia komplekonoi issihanizateii vozdelyvaniis kukarusy. Koakwa, Goo.izd-vo sellkhoz.llt-ry, 1960, ill p. (KIRA 14:1) (corn (maize)) (Agricultural machinery)  VOSIMIKOV, N.A... inzh.;. Skf-jQLHgLDqKAYA, I.I.1, 1nzh. Organize grain harvesting properly. Zemledelie 27 no.7:11-21 JI 165. (MA 18:7) 1. 'Uosudarstvennyy nauchno-issledovatellskiy tekhnologicheskiy instit-ut remonta i ekspluatatsii rashinno-traktornogo'parka.  VOSTRIKOV, N.A., inzh.;_SAMOKHODSKAYA, I.I., inzh. Postharvest processing of.grain. Zeml.ede-Ue 27 r-o.8: 65-77 Ag 165. (WRA 18:11) 1. Gosudarstvennyy nauchno-issledovatellskiy tekhnologicheskiy institut remonta i ekspluatatsii mashinno-traktornogo parka.  TOSTRIKOV, Nikolay Andreyevich;,TASIKOVSKIY, S.Ye.; ITANOT. N.A.; iWOKHOD'WAYA, I.I.;. PASEMO, L.T.; KRYUKOT, T.L.. red.; (Over-all mechanized crown in corn cultivation] Zvenlis. kompleksnoi mokhanizateii voxdolyvaniis kukurusy.' xoskv@. Goa. izd-vo sallkhoz.lit-ry, 1960. ill p. (MIRA 14:3) (Corn (maize)) (Farm mechan12SUOU)  VOSTRIKOV, N.A., inzh.; SAMDXHODSKAYk,-I-I., inzh. - I - Utilize effieiently plowing units, Zemledelle 25 no.8t86- 90 Ag 163. (MIRA 16slO) (Plowing)  KONEYRY, N.I., dokfor tekhn. nauk,prof., red.; SKWAREV, I.G., kand. tekhn. nauk, dots.,red.; ipzh.,red.; HOROZOVA, P.B.0 izd. red.; ROMIN. Ir.-P..'-tskbn. red. [Pressure working of alloys) Obrabotka splavov davlenism; abornik statei. Moskva, Gos. tzd-vo obor. -promyshl., 1958. 141 p. (MM 11:12) (Alloys) (Metalwork)  SAMDKH3DSKIY, N.Ye. Packing vibrators made by the Stalino Machine Plant for macaroni products. Khleb. i kond. prom. 1 no.4:37-39 Ap '57. (HLRA 10:5) 1. TSentralluays, naucbno-issledovatellskaya laboratorlya makaronnoy pronVehlonnosti. (macaroni) (Packaging machinery)  SAMOKHODSKIT, N.Te. Spreader for loading M-10 and M-20 dryers. Xhleb.1 kond.prom. I no.6:16-18 Je '57. (KLBA 10:8) I.TSentralInaya nanchno-Issledovatel'skaya laboratoriya makaronnoy promyshlennosti. (Drying apparatus)  m&RTIRosov, A.; SHER, AL.; SAMDKHOTKIN, 1. Contribution of harbor efficienc-7 promoters. Mor. flot 19 no.7:27-30 Jl '59- (MIRA 12:10) l.Nachallnik otdela portov Glavports. Ministerstva morskogo flota (for Martirosov). 2.Starshir inzhener Otdela truda i zarplaty Minis tore tva morskoge flota (for Sher). 3.Starshly instruktor Otdela truda i zarplab3r TSentrallnogo komiteta profsoyuza rabochikh morskogo i rechnogo f lota (for Samokhotkin). (Harbors) (Loading and unloading)  GABINSKIY., Viktor Isaakovich; MNAKOV9 Serafim Fedorovich; OKOLINIKOV, A.S., retsenzent; OKHOTKIII, I.M. red.; WI, P.M., red. izd- va; BODROVA, V.A., tekhn. re . [Organization of wages at machinery man, acturing shipbuilding and ship-repairing enterprises] Organizatsiia zarabotnoi platy na. predpriiatiiakh mashinostroeniia, sudostroeniia i mudoremonta. Moskva, Izd-vo "Rechnoi transport,," 1962. 2-26 p. (MIRA 15:6) (Wages--Machinery industry) (Wages-Shipbuilding)  SAMOKHOTOY, A.Y. Lowering construction costs of plants producing refractory materials. Ogneupory 25 no-7:296-298 160. (14IRA 13:8) 1. VsesoyuzW institut ogneuporov. (Refractories industry-Equipment and supplies) (Gonstruction industry@-Costs)  GURIN, Fedor Vasillyevicb,, kand. tekbn. naukj P14ANIYEV,, Nikolay Vasillyevich; SAMOKHOTSKHA@ E.A., ved. red. [Overhead freigbt-carrying and freight-pusbing conveyors used in the machinery industry) Podvesnye gruzonesushchie i gruzotolkaiushchie konveiery v masbinostroenii. Moskva, Gos. nauchno-isal. in-t naucbn. i tekhn. informataii, 1964. 37 P. (Mekhanizatsiia i avtomatizatsiia tekbnolo- gicheskikh protsessov; materialy zavodskogo opytal no.10) (MIRA 180)  GURIN, Fedor Vasillyevich, kazpd. teOwn. naukj.ANAN'YEV, Nikolay Vasiltyevich; SRIOKHOTSKAYA, B.A., ved. red. [Nonserial ground-type conveyors used in the instrument and machinery industries] NeserArWe napollnye konveiery, primeniaemye priborostraitellnoi i mashinostroitellnoi pron7shlennostiami. Moskva., Gos.nauchn.-isal. in-t nauchn. i tekhn. informatsii, 1964. 39 P. (Mekhanizatsiia i avtomatizatsiia tekhnologicheskikh protsessov; materialy zavodskogo cpyta, no.6) (MIRA 17:12)  XHARL&IOV, Vyacheslav Nikolayevich; SAMOKHOTSKAYA, E.A.p ved. red. [Automatic unloading of loose freight from railroad cars) Avtomati2irovannaia vygru2k& sypuchikh gruzov is shaleno- dorozhnykh vagonov. Moskva,, OOSINTI, 1964. 39 p, (Makha- nizatsiia i avtomatizataiia. tokhtiologichesItikh proteadsov; materialy zavodskogo opyta, no.12) (MI" 1822)  KHARIAM)V@ Vyacheslav Nikolayevich; SAMOKHOTSKAYA, E.A., ved. red. (Mechanized and centralized storage depots of industrial districts] Mekhanizirovannye tsentralizovannye skladskie khoziaistva promyshlenrWkh raionov. Moskva, Gos.nauchno- issl. in-t nauchn. i tekhn. infomatsii,, 1964. 41 P. (Mekhanizatsiia i avtomatizatsila tekhnologicheskikh pro- tsessov; materialy zavodskogo opytal no.11) (MIRA 18:2)  DANILEVSKIY, Vladimir Viktorovich., dots., Prinimal uchastiye POLUBDISKIY, V.I.,yurist- SAMOKHOTSKIY, A.I retsenzent; HHOLIN, V.A., re- tsenzent; STANnX.V.L%jn, Y.U., :L ig.., retsenzent; SHIENOV, B.V., nauchnyy red.; SAMSONUVA, H.T.., red.izd-va; YEZROVA, L.L., tekhn. red. (Manual for technicians in machinery manufacture) Spravochnik tekh- nika-mashinostroitelia. Moskva, "Vysshaia shkola," 1962. 644 P. (KMA 15:6) 1. Chlery predmetnoy komisaii Moskovskogo Eashinostroitellnogo tekhnikuma im. Dzerzhinskogo (for Sqmokhotskiy Kholin, Stankevich). (Mechanical engineering@  9 a W V A I L S A-t __Jk__Jk_L_-L_L 4-IL -F 4 L lot go Go 00 00 00 Ozifts in NUdW MWL A. P. Bludov and A. 1. Samok"y. - I" t 4 J1 M i U . ^ da ,@ opri;aa ( tnaWi (McAsiorr Mad Ind.). 1911. K Ult, 94- W 0* I. f fit Ituagan.1 7 Addition of up to 4 xino to varkma tin-bronzm t1ith h N m h4ml ountrut dore not *ffmt Ilm-ir te" Ptn"Wh, bvit the Mnl- ijta* at low trmpvrntun%*. With increft" in trmperature. the hatnInna; thosinished low than that at bronses aWaLignotitw. Zine has little affi-vt o o rise the rate of wear. but increases t t t impact strength. In Ony* with 10- 11 12 0 lead. zinc exerts a small beneficial influence.-D. X. atTALLURGICAL WROATLOSt CLAsUPKA11019 4"T aft 6 U U No IS to a it , ; &Goose* 66446940001 100 two 4 OP'Lit 4e is, An L j a rw 0 W 0 1 of -3 a a 31 4 WAO a I *0 a 00000 0 a a 0 000 4P  'o 000900 0 go see pose-w- WAI FEW I ,01941? ? f P ? P P P t I w f I I I I 1 .0 ;-;a mr N---* Aa r,.& L-"ffj"1Q-v-w .- f 4 A 00 A 00 00 *0 so Xhw@' A. 1. 8amnlLbotaki 0 9 IT ATM haim" and A. P. flikWorl 1eA1mikJtek1kpvmUWrw"i( .17 lbw&iL] The Polubility of zinc in O-bw I h so I&OW in irwrtvwd by additaw of copper, tron. antimony, armek. :r"stol .00 dertrAmml by owtudum, atsminfuml- kwd. and mcfeum-T). N. S. so -E so j =00 so 00.3 so- 09 A woo ILIM-ILA OCIALLUNCICALLITIRATUOECLAlUPiCATOON L. a.. Gas flow NOW01 woo alksAl COK a.. AIL u Is AV 10 1.5 .1 a, in It it wo A I a 0 rw (j 14 8 A3 0 o ; ID 4 9Awn 0f i@ -ol I- 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 g 0-0 :10 a 000 0 a 0 0;0 0 so* 0 0 00 0 0 0 * 0*0 66060060004800  - W 0 W a a 0 Iff 0 a a a a &10-10@&:;ff a a a a a a a a a 0 a a a Is a - I 1 1 06 11 11 it toI U 16 111 a 11 U it a is v 11 0 a] a 41 0alto f Ik A I 1 .9 V L-1-Y-LAA HU 90 t1j I k. A.I,i.,0 0 0 8 -I,IIj 4 "1 1,0--um t 64 '-00 @=Uovt of alundattan oxide for polishing metallo- pkk N,-', Cs@ omkil. @fawd)kayu Lab. 6. l:Xj A a In HKCI, for 11) min. and then In boiling HtD for 24 hrs. Fine-grained AIA, suitable for polishing metal surfam, is thus ob. oe all tained. B. C. P. A. 00 A S a - S L AETALLURrKAL LITEPIAINOE CLASSIFICATIC10, (P.. G.c K, 00,10 0 0 :ro.",Go coo 2SOO, roe 00 Iso 0 LZ@7@1 No* W3.0. A MCI il-11, -dK Q.- SO 0 I I- , 1. An I I a 04 0 P1 R I if 84 5 a a 3 1 ana! oie 0 0 0 Of* 0 0 : : 0* 0 :1  of A sea *a O.E piii -(Ved-A. gs"m) The introduction of; dardisdion He# b, 96 in TbL manpam bronse with two move star 59. zino 37. m&nXuww and aluminimn 0-25%, SIN Zpxj..m Not with 2-3-,, beryllitum-N. A. lit Al. - 5 L A MCTALLURGKAL LITIENATWE cLAS$VKATM ) SNIMSIVIIIIST. -- - - ----- IDGM "piny , T 143000 *A, dwr Get NVAIJI Get Off M lb U 5 AV 00 At 'a ZA An A I It Old 0 0 a I ff If I a a 3 11 v ; , ; * , , " ; " ; Up j 0 : 0 0 0 * 0 0 1000 000-00 1: see nos coo lee  11 9 4 we 13 it I 11, 11, IT4 "I 0 1 a A'v 11 v u A114 0114 A 0 If I A d A W a 1. el U 0 a 41 U 41 66 ope I 1 4 - 4 1 0 0 0 A I !! A -C-AL Il . , I ! o o ee ", ' [ Efiect Of hardening and drawing fiemporaturefe an Struc- 00 z finite and Ffe""Ies of high-Spited tool.olf-fil IRK.S. !-so 00 a 1 - 1 7 P Fe!"1111th Aloehillolln"". kt-, A. N. R., @ 1 , N I 1 t'll - 1 4.11) 4.13 Cr. 17,111.1,1.14.111 ;L. V, 522 C-1 AM 411) 0.70 C. 4.24-4.UO Lt. [7-tid- IM.12 Il%'. I ta% A%%.I.N 01111 IAN)' 01111 1111,11WOk 111 Me% W, 0114 00 E It i *It% 1141114111rel lit 1-40% ltbkl' and I;Ukl' n,f 1 l- d l no 0 t"Wil to , :4111 a olul 111W. The Nimples terver.. so a Of It 1% cmu-Itided that the hr" hant"tinig Icuip. lit all cau - Sil' 0. III i 1 . t%v lit 1 . .1. jr-tioll, flee fin4frim'. mr .4 t es m"I of alkt flee. , 1141,1d, I IV@W- ittv jtq@qw#tv deemerile- A.-I. Ifio 1-- .11,4eirtilic art, J_'Ie In,. of '00 -vo , 141.,lif.1111 millself lit 1141.1114@* 611111 it 16fillotoll Imem-11 000 00 4 .11VATe"ove onitifini. .&feel a 1.1.,Ik I Ot tril-mon M 4111411 00 491hilh 06 -00 AO a S L A aCTALLUR41CAL LITIES&II've o'.siso'bC.Two. vs* 13 We l . vr*14 CW If i An L I 4- If 01 &V NJ Al PC is IT If m "11a ;11eI 4 4649090 one. 00 0 0 a 00 66 o 0 0 0 0 oil 0 0 0 0 0 0 a 0 0 0 0 0 0 0 010 0 0 0 0 0 0 0 0 0 0 0 0 0 0  W 11 V W W W 11 W 11 W 1 11 0 J!o A A L LLI L L! L L x 9 A - - - 00 -L-1. Al at 4 0 j h p A 1. -00 n!,M#fmh7w *(,but mrs for the themul treat- Sb.W t to it. to", No. - . : Go Val imis lvjw*,4 Jim. S. oll will g-fre. (1111wes: " .00 00 . =00 9.00 00 60 .00 Go ae 0 00 00 has oo j t DO .%..ILA mf?ALLU*GICAL LIT144@4illf CLaS"fKATION oo $*,Om-j 138C t oo -,04 z 3 0 0 0 0 o 0 0 0 0 0 a 0 0 0 0 0 0 0 0 0 *40009000600600 0 oooooioe*0 06 0000- 60 40090060000@ 0 ego 0 0 0 of 0 a 0 0 4 0 0 0 0 G;  i s *xil 'IJUDIS " ;I 21 17 a A A J6 v A to it 11 AD IS so- b u A, 0 41 .1 $1 I U I -L- AA N CC W "@j 11 r . "!;0 6 ,ff "I'liplit, p %--, ._&, 00 -C -00 '-00 !-a* fre, tront oxidstion., .-So N. A. Smimovu. .4ri@lpemy,h1emmost 1939. . 00 -4. -The illetal 61 3- Chrm. Zellift- 1930, 1. 3413 N-,N@-T6 ow t , ro@icctrtl with m"lixt. of ati-I Surface p C'(),. A lay r of 'Ump J."'Irivir i, -crittered -m ' l I 00 e lo Atit re het let hviling (if file Islidd I or,jrr 00 a the Inellf, a hollow mittight AnA 0 0 -I fini-hell it i@ ttl-'t itilifielliairly after the heat -IMItintrut i 00 intntirutirr"r0il- In lhl@wav "cleat' @Ilfracc isohtaill@l 00 having an mititle film which iA at mmt '" in I hick llc,@ Still 0 can Fradslir 1W by 1-Ijithing@ In order to twotect 0 it i" A If.c Inalctrial 1W partially tic wholls, brilleddetl . in 11 cavings in the -anic turninK, ft..Ilk r 00 -r: annmling tilme 3-4 hm). 00 f :0 of s j five .00 00 too 00 O's .100 too Too ilsill, Z. C', A Tt AT Aft A 1 8 CIW 0 9 - I V 11 K It 49 Cr 0 0 0 0 0 0 a 0 0 11: - ioe rA,. 'to 0 04 q AD 3 0 0 0 0 0 0 04 0 0 0 0 0 0 0 0 0 0 0 * 0 0 0 * 0 0 0 0 0 0 * 0 6 0 0 0 9 0 0 0 ; 0 0 0 0 0 0 0 A* 0 a 9 0 0 0  4 IIt 1 10 It u Is JAL- N ?_AL_ T u I V iff %-I d A #sect$M &so POW61,11 @"19 The Influence of the Suftoahng tempmemew an the we -I I S kb W f -a *m- j f4 S wire. A..J_- chanical Properflov of O " Irntr I(CM Ckmw 311 W 74 k 11"1 18 - . 0prvm. . ClImIl _ l ' , 1960, U, 717@-The mech. properties of steel wife COMS. C 0,91-0.0R, Mn O..re-D.A21. Si 0.19-0.27 and P (),(M- ' A t, and having client% of 0..%. 1. LA and 2 mm. w"r OAXIII ' Iletcl. after an annealing at tenit". hetween tW a",l 4041 It was found that the tenOr -Itength IxTan to Jecreav of ' * 0 . while the bend-tem no. dr. ,S an annemling temp. of 2 Thedif- f325* had Imen reached te d h 0 . er& mose & rnp.o ten-nee Wwren the, tensile strengths of the wim of vary- ?W)' t f 2 d li see . an emp. o inot dlarn. wu% Kfeat"t at an annea ng t- st-it 12 17 kjr.j'!jq. mm. jn the linan"Calml =60 0 condition. M. Nfmwr ago 000 OOV 'Too oom I *0 goo =00 it so 0 s Z* 0 AIJI-ILA OITALLUIGKAL UTIMATIO11 CLAUVICATION stop" SIVINIII. No* troo It Qmv 4369 831111 (kit 4" M V--a *1 K, a, -lot it mi U, Fm a' WITIZA" _h",aad a 01 It IN 9 a a a I T 0000000000000900 9000060060606000:::00 0 0 01  /V@ /0 1. Th, Aripog if ferm" and Non-himus Mdals. Itn I'.- - 11). 33-'. 1939. AOKVW Skid lAllillMAI: 0Wtt4lgjL rMll I*itl*.) @ 1#1 1@ W v  A&-.f a A i-fL-" is is 11 is w is 14 it w of a if hl xa a-h 'ViTIVII A N P. 4 A1-1-0 -Y t-A-1-L-AA 0 CC 09 tIb RD us jov ]INV to 42" 414CO C I A @00 -00 00 2 .00 as a .00 o em atiire of hardening and temperinf upon Fff t@ft r o: e d frz@tfio th of wteel. A. 1. 14 ktLqqLit. esmik t l Jfrmlloprv.,@. 19. No. 4. 67-9(1031 -Speciriams of sucl 0 contg. C 1.04, Nin 0.22, Si 0.27. P 0.031 and S 0.017,% Q al werequeothed at 700, 740,77O,W)avdAW and tempert-d,/ at.10r), SM and 7,00% Regardlem of the quenching te zoo an increase in the tempering temp. cmdually decrmsed the : @p. vol. in cotnpaji@on with the quenched cmditi-m. I_ a fly increasing the quenching temp. the sp. vol- incrmied. D. Z. KAinkh g .0 0 t:o 0 A%G-SLA SETALLU*GOCAL LITIVATWE CLASSIFICATION Is, too UIS AT so is! I Ow o "An .1 1 Ir IN .3 a aI V IT Fe P Zv a 0 * 0 0 0 9 0 9 0 0 41 0 0 0 0 0 0 0 0 0 0 lie 9 0 9!0 00 9 * 0 8 0 0 0 0 0 0 0 4 * 0 0  d , h. L TAc fuligut #17 ffltmuu@j Pp. *A). limo.qml= asid L*nijigmd: Obonmgit- ICA  a It 11 :1 v a 34. is a v al 19 @ 10 it v u u a so 11 0 IF tj e 41 a) so at I., to r Gil S v I LAS 01 CC M " 41, j 4 0 1 1 -to$ I to ------- The resistance of a nittolded boyer of steel to corrosiom. 00 '11141 M. .4 -00 of laver tit sr"I too v:to,.di* tco, I.-Ord vtlih 60 3-mia. Ifilck 41cri iN,P. :.it) c It, Its. mts u.4h. -00 Cr 11.111 410 Sk I P, I:o',, I ho 94111 1 were Ittronrul. rxli,hed and drorreasovil in besi,moo and itivii of niirl-lo of in v%*, of *%I Is nt -00 30, fus, 00, W10. INI a,"I UIAI min. Niiii,lins tit 'I.. .' stool 1.1-h1tv a In"t AevItel Itimt t1w. r"m . at oo:.@ Ou m4%- il Alkitit 11 m' titill. in IN) tuill., Witilr the O%v tt-1 depth tit at)(Alt, O.W runt. its obtained in olso tuin. at Ztsoo-. The anticorrmhv properties of the nittO,A feet were 09 d0d, in runninot Ynter. lu-ilittic water and 10c, N.&CI 0 1, -In. The i;wrimvi" were I-r-A I-01 14--w and after vir Orel Itiod C-1 I. P.1 I tit. not g..h.tl coo mil too rismobtot vorjil,t olmiiig lot oft" Mt, v I day its Ifir ' 101@ Nat l ..W. it .11-rd Ille "I'ttte Karniell 00 COO zoo 9 0 2100 so floe 00 A % 8FIALLUUtobLool, 6.11foo.71st ct-Wric-TIC. f I o 09 of Woo 9 1 %% so .1 it _7 so 1 1 r , 1 too, IF *N An so ot I or so -W is 11 1 0 1 is . It 101 of 4 . ", 1; 1, 'r . , 0000 0 0 o 0 0 0 1111 0 0 0 0 00 000 1") a I to Is 0 O's 0 0 ***go 0 99411190 0 014 0 0 0 * 0 0 0 0 0 0 0 0 0 0 0 09'  A T. Substitnift for Smam in Repairing untIanatilit. A. fAriali"P.,vA en". (.164vim 1. CAr,e,. /emir.. 1012. M. (1), %W; V. .1&,,. IM3. 3' . It. L., Tlw f4h0vaim: 1werLnir martAls are swit"t.-d li@ mill-tilitf- [..I Ill'! in@n ; the Alailmini"u) nlhlw- All r it h-. l-,,I I. r. a- tjl@ lmd-barl'ilre 111-S :h, sitil 0'73, r :11 .1 .:1 i.h .... im ilia ar.,it bmire IlrAZis U-4 %ilia to 11' Old " -t r. tile flit-l-i'moming for""Fr, (1'1*@.% 3 ".Ill - I'll, jelm., .3 1"', dri'l tile r,@t '-pift-T -. Alld Ill.. LKS '41-3 P', ropi-r, 3.5 :t 111, mi.tvii. 3-A i 1**,, 1,vi n f rim-, "I I" elf 111,4a. alloys 1wrfilmat f'. if s ir U.. 112- 0, mA -to sre, pill pit.  SAYGOOT-SHY, A. 1. and 1. N. U-GUNTSOV. Tekhnologiia termicheskol obrabotki. Dop v kacbestve uchebnika dlia mashinostroit. tecbnikumov UVZ Min. av-tomobil'nol i traktornol promyshl. SSSR. Moskv2, Mp-sbgiz, 1950. 376 p. illus. (Technology of heat treatment.) DLC: TN672-53 So: Manufacturing and Mechanical Engineering in the Soviet Union, Library of Congress, 1953.  SAMOKHOTSM., A. 1. Y/5-- -- 615. 15 Sl Meta.Uovedeniye (MeataUography, By) A. I. Samokhotakiy I M. N. Kuny- avskiy. Moskva, Mashgiz, 1952. 366 P. Diagrs., Tables.  SAMOKHOTSKIY, A.I., inzhener; KURYAVSKIY, M.N.,@O'kandidat tekhnicheskikh nauk; - ' tekhnichaskiy redaktor. 4. [The science of metals] Metallovedenis. Izd. 2-e perer. i dop. Moskva, . Gos.nauchno-tekhn.izd-vo mashinostroit. i sudostroit. lit-ry, 1954. 448 p. (MLEA 7:11) (metals) -  KUffAVSKIY, M.N.; SAMOKHOTSKIY, A.I.; ASSONOV, A.D., kandidat tekhni- cheakikh nefflEMIMIT"JUTMOT premii, retsonsent: MMIN. T.V.. inzhenar, redaktor; KOLLI, A.Ya., redaktor: MATTNITA, Te.K., tokhnicheskiy redaktor. [Principles of metallography and heat treatment] Osnovy metallo- vedeniia i termicheskol obrabotki. Moskva, Goo.nauchno-tolkhn. Izd-vo mashinostroitellnot lit-ry,1955-371 P. (MI-RA 8:12) (Metals--Heat treatment) (Metallogrepby)  MALYSIW. Anatoliy Ivanovich; RAKOVSKIr, Valentin Sergeyevich; TILIS, Mikhail Yakovlevich; XHIMUSHIN, Yedor Fedorovich; SJK - OTSKIY, A.I., insh., red.; LOSIVA, G.Y., red.izd-va; ZUDAIIIf, I.M..-NT VMr (Technology of metals and materials for airplane constrUctionj Takhnologiia natallov i avistsionnye materieljv.@ Moskjo, Goo. Isd-vo' obor. promyshl., 1957. 358 P. (MIRA 11:3) (He ta llurgy) (Wood) (Plastics) i  MIKHAYLOVA, Tamara Ivanovna; SHTRYMOV, Aleksey Ivanovich; ALIBERT, Mark Aleksandrovich; SAMOKHOTSKIY, A.I., inzh., ved. red.; SOROKINA, T.M., tekliji. red. (New type of forging rolls. Automatic loading and unloading of ingots into and out of soaking pits]Kovochnye valitsy no- voi konstruktsii. Avtomatizatsiia zagruzki i vygruzki zagoto- vok iz nagrevatelInykh pechei. [By]M.A.Allbert. Moskva, Filial Vses. in-ta nauchn. i tekhn. informatsii, 1958. 11 p. (Peredo- voi nauchno-tekhnicheskii i proizvodstvennyi opyt. Tema 5. No-M-58-154/7) (MIRA 16:2) (Forging machinery) (Materials handling)  BLINNIK, Lazar' Borisovich; KOZWV,. Vladimir Vasillyevichl TUCHINSKIY, Naum Vladimirovich; RAGAZINA, M.F., insh., ved. red.; SATMO-TSK@_Y, inzh., red.; SOROKINA, T.M., tekhn. red. [Efficient conditions fov the aging of cast Iron]RatsionalInye re- zhimy stareniia chugunnykh otlivok. Moskvap Filial Vses. in-ta, nauchn.i tekhn. informatsii, 1958. 12 p. (Peredovoi nauchno- tekbnicheskii i proizvodstvennyy opyt. Tema 3. No.M-58-112/5) (MIRA 16:2) (Cast iorn-Hardening)  SMOKHOTSKIY, Alek&qy_1Y&noyjch-KUNYAVSKIY. Mikhail Naumovich [deceased]; inzh., red.: KALYSM, A.Z., insh., retsenzent; RZHAVINSKIY, V.V., insh., red.; KOMI, B.I., tekhn.red. (Laboratory research on metals] Laboratornye raboty po metallo- vedeniiu. Pod red. T.V.Rybina. Moskva, Gos.uauchno-tekhn.izd-vo mashinostr.lit-ry, 1959. 275 p. (MIRA 12:10) (Metals--Testing) (Ketallography)  SA@-@nKHOTS@i:T". A.! Lf), , kan z. nauk; FRID; L. -^'KIND, V_@4_ rue,". -,zh@ reed. ,ET ,T 1T'e:Jmo1cU of the he-at treatmero, ;:.-l tem!@!Iieskoi obrabotki metallov. ZP 2 7 p . (Mim (Metals-Heat treatment)  TRUBITSYN, Nikolay Alekseyevich, inzh.; SAVEYKO, Vladislay Nikolayevich, kand. tekhn. nauk; BIDULYA, Pavel Nikolayevich.. doktor tekhn. nauk; SAMOKHOTSKIY A I inzh., red.; SHVETSOV, G.V.,, tekhn. red. [Hot crack resistance in carbon steel castings)Goriachaia treshchi- noustoichivost' litoi uglerodistoi stall. Moskva, Filial Vses. in-ta nauchn. i tekhn. informatsii, 1958. 13 P. (Peredovoi nauchno- tekhnicheskii i proizvodstvennyl opyt. Tema 1. NO.M-58-207/4) (MIRA 16:3) (Steel castings-Defects) (Thermal stresses)  MAKEYEV, Igor' Mikhaylovich; SAMQLHU!SX1X,-&,1.,_1nzh., ved. red.; GOFMARp L.M., red.; SOROKINA, T.M., tekhn. red. [Improved design of steel pouring -l&d1Am4Uaovershenatvovan1& kdnstruktsii stalerazlivochnykh kovshei. Moskva, Filial Wes. in-ta-nauchn. i tekhn. informatsii, 1958. 27 p. (Peredovoi nauchno-tekhniche.3kii i proizvodstvennyi opyt. Tema 1, No.M-58- 263/5) (MIRA 19:3) (Open-hearth furnaces-Equipment and supplies)  SAYKINA, Vera Nikolayevna, inzh.; KALYANOVA, Yhript Pavlovna, inzh.,- TRYASUNOVA, Ye.V., inzh., ved. red.; SAMOKHOTSKa__A,.I., Inzh., red.; SOROKINA, T.H., tekhn. red. (Chemical and heat treatment of friatiox surfaees instead of hpning]Khimiko-termicheakaia obrabotka poverkhnostei trenila vzamen dovodki. Moskva, Filial Vaes.'in-ta nauchn. i tekhn. informatsii, 1958. 7 p. (Peredovoi nauchno-tekhnicheakii i proizvodstyennyi opyt. Tema 3. No-M-58-246/8) (MIRA 16:2) (Surfaces (Technology))  SOKOLOVY Nikolay Leonidovich; SAMOKHOT-%IY, A.I., inzh., ved. red.,- LIVOV, D.S., kand. tekhn. nauk, red.; SOROKINA, T.M., tekhn. red. (Economy of die steel in drop forging with mechanical forg- ing presses] Ekonomiia shtampovoi sUll.pd shtAmpovke na krivashipnykh kovochno-shtampovochnykh pressakh. Moskva,, Filial Wes. in-ta nauchn. i tekhn. informataiip 1958. 11 p. (Peredovoi nauchno-tekhnicheskii i proizvodstvennyi opyt. Tema 5. No-M-58-202/11) (Forging) (MIRA 16:3) (Dies (Metalwo.rking))--Maintenance and repair)  PALITSYN, Vladimir Andreyevick,, inzh.1 SPMOR, Moisey Isaakovich,inzh.; OSKOLKOV, kleksey Ivanovich, inzh.j,5AM0KHOTSKIY, AJ.,, inzh.0 ved. red.; TfWSOV, L.P., kand. tekhn-.-n-a-uk-7Fe- d-.r-SUR9KIff.,- T.M... tekhn. red. [High-temperature double-chamber electrie- furnace for heating stamping billets] Vysokotemperaturnaia dvukhkamermaia elektri- cheskaia pech' dlia nagreva zagotovok pod shtampovka. Moskva, Filial Vses. in-ta nauchn. i tekhn. informatsii, 1958. 11 p. (Peredovoi nauchno-tekhnicheskii i proizvodetvennyi opyt. Tema 5. No.M-58-206/j2) WRA 16:3) (Blectrie furnaces)  BAKSHEYEV, Sergey Mikhaylovich, kand. tekhn. nauk; SAMOKHOTSKIY, ---A I inzh., ved. red.; SHOR, E.R., kand. tekhn.nauk, =-*I reT.-; SOROKINA, T.M., tekhn. red. (Deformability of structural carbon stool] Deforairnemost' konstruktsionnoi uglerodistoi stali. Moskva, Filial Voss. in-ta nauchn. i tekhn. informataii, 1958. 15 P. (Peredovoi nauchno-tekhnicheskii i proizvodstvennyi opyt. Tema 5. No.M-58-247/13) (MIU 16: (Steel, Structural-Testing) (Deformations (Mechanics))  MALYSHEV., A.I.; NIKOLAYEV, O.N.; SHUVALOV, Yu.A.; *jMQjHQZU1X A. I' red.; VOLKOVA, N.A., red.; VORONINA, R.K., tekhn. -ree [Technology of metals and building materials] Tekhnologiia metallov i konstruktsionnye materialy. Moskva, Vysshaia shkola, 1963. 429 P. (MIRA 16:7) (Metalwork) (Building materials)  DAVIDOVSKAYA, Yelena Aleksandrovna, kand. tekhn. nauk; KESTELI, Lyubov' Prokoflyevnat inzh.; URYUPINA,. Yekaterina Ivanovna, kand. tekhn. nauk; RAGAZINA, M.F., insh.,, ved. red.; A.I._, inzh., red.; PONOMAREV, V.A., tekhn.red. �AMOMW (Effect of heat treatment on the tendency in stainless steel toward intercrystalline corrosion] Vliianie termicheakoi ob- rabotki na sklonnost' nerzhaveiushchikh stalei k mezhkristal- litnoi korrozii. Moskva, Filial Voes. in-ta nauchn. i tekhn. informatsii, 1958. 11 p. (Peredovoi nauchno-tekhnicheakii i proizvodstvennyi opyt. Tema 13. No-M-58-15A) (MIRA 1613) (Steel, Stainless-Corrosion) (Metals, Effect of temperature on)  BELKOV, Georgiy Mikhaylovich; LITENKO, Nikolay Tikhonovich; ZHURAVLEV, Yuriy Arsenlyevich; SAMOKWTSKIY, A.I.,, lnzh., ved. red.; OLISHANSKAYA,-I-.-V.-,-I-n-zh-.-,--r-e-a.-i SOROKINA, T.M., tekhn. red. (Effect of heating conditions on the p W tic properties of 9KhF steel at forging tempera@ures. Skid ho per for metal feed from the furnace to the forging bamner@ Vliianie re- zhima nagreva na plaaticheskie svoistva stali 9KhF pri ko- vochnykh temperaturakh. Metallopodavatell ot peaU k ko- vochnomu molatu. [By) D.A.Zhuravlev. Moskva, Filial Vses. In-ta nauchn. i tekhn. informateii, 1958. 14 p. (Peredo- voi nauchno-tekhnicheakil i proizvodstvennyi opyt. Tama 5. No.M-58-252/14) (MIRA 16:3) (Metals, Effect of temperature on) (Forge shops-Equipment and supplies)  LEYKIN, Abrarn Yefimovich; POROTSKIY, Efroim Solomonovich; RODIN, inzh.p retsenzent; Boris Tosifovich; W940TSY= ZOLINIKOVA, N.K.j inzh.p retsentent; ROMADIN, X.P.p kand. tekhn. nauk, red. (Aircraft materialsl Aviatsionnoe materialovedenie. Mo- skva, Mashinostroenie, 1964. 458 p. (MIRA 17:12)  C: GD/jD L 00650-67 EWT(M)/T/EWP1,A)/ET1 IJP(')_ ACC NR, AM16346 -BOURCE.CODE: UR/0000/65/000/000/0104/0109 AUTHORS: Kunin, N. F.; Zhilik, K. K.; Vor2RM 'V �v&_A. I.; Samokhval V. ORG: Belorussian State University im. V.- I*- Lenin@ (Belorusakiy gosudaretvenzW 'universitet) et TITLE: Thermal treatment of silvery -q2RRert andAbLvacuum condensates SOURCE: AN UkrSSR. Podvizbnost' atomov v kristallicheskoy reshetke (k6bility of ai6md@ in crystal lattice). Kievi Izd-vo Naukova. dumka, 19651 104-109 TOPIC TAGS: *ki= metal film, silver, copper, tin, metal he-at treatme Int, activation,: energy ABSTRACT: The laws for stabilizingthe properties of silver, tin, -andlcopperl.thih...'@ -Catj - 'in their films are investigated in order to remove the data a er properties caus;X@7@ Py the method of film preparation and to study theinature of the defects present i IXL the freshly deposited films. The,films were deposited on a-glass.substrate at'room temperature in a lo-4 mm 1@g vacu=.. Aftei.deposition, the metal filmswere spon e- ously aged at room temperature for 50 hra during which time the -ir.resistance ddc're*a*sad_, gradually. The heat treatment for tin was made at in hydrogen as'well as in aiYf"' without an irreversible change in its resistance. The.heat-treatment,.for silver.was at 70--120C and for copper at 150-200C. The-results are shown on graphs and tables.@.,:, Plots are given of resistance versus time"relative change in.film resistance-versus Card 1/2   nfereme Cf Y0,1ng -nt-ICIS in SC4p t,he Field of Me.1juration and Hydraulic Engineering] Naterialy rib"edinermul. nau@hl -tekWAcheskoi konferentsii molodykh ria- uctmykh rabotnihov -,r oblasti melloratsii i gidrotekhniki. Kiev, Urczlnai. Nos. I - 2. 1964- (YRU 18:3) 1. Obl'yedinennaya konferentsiya molodykh nauahnykh rabotniko@i v obltistt melioratsil i gidrotaklmiki, Kiev, 1963. 2. Men- korresponvient AN Ukr.SSR (fcr Tyulenev).  SAMOKHVAWV, A. A. and FAKIDOV, I. G. "Testing the properties and characteristics of a gama defect detector with an ionization counter",, appearing in the "Detection of defects in Metals by Gamma - Collection of Papers",, (Gamma Defektoskopiya Metallov - Sbornik Statei), published by the Academy of Sciences USSR,, p 109p 1955.  SAMOKErVALOV,A. _ ''1 1 Primary, trade-union organizations need help and attention. Sov. profsoiuzY 7 no.6:13-14 Kr '59. (MIRA 12:6) l.Predoedatell Chelyabinskoge oblastnoge soveta profsoymov. (Chelyabinsk Province-4rade unions)  r . . . . . . . . . . . racut @is '41ther xclxitala@@ i0i IONT"-TIOX,UETHODS FOR DETERMINATION. OF DE- '-R(; -- - -- j.- - - STAL. ljk_aAKMA_ ed counter. . An Inv6stlj FmIs OF -I-rUCx#gCT10KSOF@K MeetiAgs of the Division $easloo of :,the Paramuters of the x6o,metrid@zk%e -&6 0-Ulke Ina"MP!c Lho academy of Sciences of the U,S.SR. ou the Peiiecral, :7 AtnMLQXWX4T__Jgly 1-5, 1935. Uoscow, Publish- 011193SCM31tivitY. An optimum lastrumaxit. was selec.fied th* basM of experiments In w a changes were man, Ill I in tba Lag House of the Academy of Sciences of the UA.S.R.. 1955. - 339P. (In Russian) @cntainer, the channel diameter ot thd container, the size of the counter screca. the dlamePar of A description is given of work cc cted with making - - nue the coun@.-r screen-windo7rand the relative positiousi of the ionization gamma Instrumanti for tcstlax thick metal oarta.@ the part being tested ind the counter. TheUmblem. the advautages of the use of counters in Samma defectos. ao"ce, of the coi-respondatme bokimon. the size of iutuw 6(ets copy are: higher sensitivity, higher test spied, the --- - -7 --- -- -7 ---- - -. . jr;@-: and the heights 4 the pake da t6 dufwt*ams ragiste a cut in . I . @- I I __ ___iLW possibility of cons!ant rontrol of a moving part, th .:- .1.1 no ional-, by seK-recordluz patcat oria rx was ffibd. cost due to-the fact thut X-ray film and other photographic itivity of the instrument dependi; on tho% control con 'Itions materials are not used- The Instrument consists of the In the rare of parts with A small difference of wall ihickneas.' following main parts: a gamma radiation direction device, a mechanical and electric-power - rUon for. moving the the sensitivity may reach a !ractiod of at percent. iWith Po respect to parts of thickness up to 300 Mm. Bud cf;**o@,_ gamma-ray beam system with respect to the Part being - - -I the senattly ity form wt% a large dUfore"a of wsll@ thialmeas. tested, and the recording portico. The me ,at convenient of an, lantrumeat with- .a actf-exti rfgutshlng counter pf-Foilts gamma source for testing parts of thlcknces 250 to 300 mm locatton'd defects up! to, 3% in'th a c-iec 01 a slightly active- In the Co-60 fsotaM For thicknesses of steel from TO to source (1.5 curier). An i3minlin elit ., with a eLftullimon 100 mm; wic may be -nade of isotope Ir-134 or ir-102, count" ha ,a k acnAtivity 2 to @ tined L-Qatcr The though the latter is I w. 4 convenient benuse of its small coatral zpcvd In EUT i=c of comple)-forra parts V#Ith a half life of 2.5 monLh7s. The gamma counter In the Instru- ;o1PRA to 20 C in @Tbo largo difforence ofwall L%@c :7 q  j@ -777M Cie With puts, . "ntrol eyead waa@ be-ii " a" d af tho "kn@vs;- !!@q . po isIbLI ty.of uolm W a nave detector te at @@itiiii otliw- @.Pmra4ira, Adon (a c do jpho@@-63) li also ioj6rWd,@- tWn! datjo@to @,jr@ m6jdjcd J4 o Is tPry-': Ouw: qd  VO Category USSR/Solid State Physi 13 - Structure of Deformable Materials Abs Jour Ref Zhur - Fizika, No 2, 1957 No 3949 Author Fakidov, I.G., Samokhvalov Gamma Defectosc_opewVzt@ Title b Sciz@ @tion Counter. Orig Pub Zavod. laboratoriya, 1956, 22, No 6, 673-677 Abstract The use of scintillation counters in gamm defectoscopy has many advantages both compared with the photography method.of recording the radiation, and cmpared with defect;oscopes' -with Geig'er-Mueller counters in that it has a higher sensitivity@and_speieid. of contr61-and that con- tinuous control of a-moving object'-is'po6sible. -A defectoscope was designed for the control of articles with 6 thickness up to 250 -- 300 mm. The defectoscope is quite stable and its indications are readily reproducible. The sensitivity of the instrument is 2 -_ 2.5%. Card 1/1  FAKIDOV. I.G.; S"OXHVALOY A.A. Characteristics of the scintillation counter and its technical applications. Zav.lab. 22 no.6:678-682 '56. (VFRA 9:8) 1. Institut fiziki metallov Urallskogo filiala Akademii nauk SM. (Scintillation counters) (Gamma rays--Industrial applications)  L SAMOKEF140V) A. A. and FAIaDOV, I. G. itData on a Simple Scintillation Counter, Its Characteristics and its Application in /-type Flaw Detection." A conference on Electron and Photo-Electron Multiplier; Radiotekhnika i Elektronika, 1957, Vol. II, No. 12, pp. 1552-1557 (USSR) Abst: A conference took place in Moscow during February 28 and March 6, 1957 and was attended by scientists And engineers from Moscow, Leningrad, Kiev and other centres of the Soviet Union. Altogether, 28 papers were read and discussed.  AUTHORS: Samok-hvalov, A. A. and I. G. Fakidov. 126-2-11/30 TITLE: The Hall effect and the influence of a magnetic field on the resistance of magnetite. (Effekt Kholla i vliyaniye magnitnogo polya na soprotivleniye magnetita). PERIODICAL: "Fizika Metallov i Metallovedeniyell (Physics of Metals and Metallurgy), Vol.IV, No.2, 1957, pp. 249-256. (U.S.S.R.) ABSTRACT:Measurement of the galvanomagnetic effects was carried out on two specimens of magnetite. Specimen No.1 was poly- crystalline and was in the form of a parallelepiped 6 x 12 x 52 mm. Specimen No.2 was cut from an octahedral monocrystalline specimen (parallel to a face in the Ill plane) and was in the form of a plate 9.1 x 18.2 mm and 2.8 mm. thick. The method of measurement is indicated in Fig.l. The resistivity of specimen No.1 was 1.63 Ohm.cm., and the resistivity of specimen No.2 was 1.27 Ohm.cm. The conductivity was found to be electronic (from the sign of thermal e.m.f.). Results indicate that the Hall e.m.f. may be described by the usual formula for ferromagnetic metals; Card 1/3 Ex = Ro(Hi + 4-1(mM)jb where R Hall constant for the "ordinary" part of the  The Hall effect and the influence of a magnetic field on the resistance of magnetite. (Cont.) 126-2-3-1/30 It is shown that (eq-7) Ex R H [1 N 1) 41Y% (IL - Tb 0 e IiN N + 4 Ir 'pN - N + 4 where H is the external field, N the dem etisation factor 9nd @t = B/H.. Using this formula, R 0 and m can be determined fr6m experimental curves of Ex = f (H Since for a thin plate N is known Tb e to be approximately equal to 4'W. The values obtained Carc@V are given in Table 1. There are 3 tables, 8 f igures and 6 references, 4 of which are Slavic. SUBLITTED: October 5, 1956. ASSOCIATION: Institute of Metal Physics, Ural Branch, Ac.Sc.,USSR. (Institut Fiziki Metallov Urallskogo Filiala AN SSSR). AVAILABLE:  tn I h. 1,: 1 1@ I copies printed. . - I ZOTAM. , ' apong@:-',v rSr.R. Gla"eye upravloal7a po Ispol ato4-.y @ncrZll, and k"deulya nauk SSM 141%orW board of S.ti V.I. DikuDhin, Acadealco.in (Rasp. td.), N.M. ftua.ilovokly (Dtputy Reap. Rd.), To. 3. Zeal evskly (Deputy Reap tochenkop B.I. Verknovakly, S.T. Mazarov, L.I. T rA.)t L.X. O and N.C. Z I vinakaya (Socrot"7). : 4. or,_EuAk_1!LijrjS_Lo?!_oi P.M. Belyaulal Tech. Zd.1 T.P. folonova. - PVRPOS11 This book to Inteni#d ror chin* And In8trulatnt manufacture who use radioactive Isotopes In the study of nateriLls and processes. COVERAall This cOllOctlon of paper~ aces" a very wide field of the Utilization of tracer methods In Industrial research and control techniques. The topic of this volume Is the use or radioisotopes in the usehine-find Instrument- manufacturing industry. TUe indi- vidual papers discuss the applications of raftoleatepe techniques In the study of metals and alloys, probiams ortriction and lubrl- cation# metal cutting$ engine performance, and defeat* In motale. Several papers are devoted to the use of radioisotopes In the sets- sAtiOn or Industrial processes, recording and measuring dovLose, Quality control, flowmaters, level gauges, Wety devices, radio- tloa counteraj eta. Theme papers represent contributions or war. lous Soviet Institute& and laboratories. They were published 'transactions of the Ail-union conference on the use or Radio tlvo and 3table Isotopes And Radiation In the National Roma :;: 1957. No personalities a" mntlon and 3cience, April 4-12, ad 1.._narorencobare given at the and of most of the papers. Vedernikov, A.W. (Kazanakly avlatalonnyy Lnotitut . K&zjLn6Avja. - on 'Instit t I uTej. certain Problems In the Preparation of beta Emittors for the Zlimination of Iloctrogtstle Charges 292 Medv@daVjL._XLX. and I.S. RoytqnANoakovskly, Inotitut khImichegim- go-matildnostroyenlya*- Kosaov@xnaltute for Choulcal Machinery). Use of Radioactive Isotopes in Safety pr%atice 293 RGYzOr, L& (Noskovskiy lnmtltut khlxlcbeokogo n"hinogtroy- only& - Moscow institute for Chemical Xacj&lzary). Production of Piston for charge Neutralization' .AbrAmovx-T4V. (Wift-411tarstvo ov7azl SM @ UM Ministry or Cos. municationoj. Determination of Looks In the 1464 Aheath or coa- sunication Cables 2" 11janotmov, V.I. (Inatitut "balchoskoy fix%= Ak"mil nauk SM- Institute of Physical Chemistry, Academy of Sclencmm, MU), Determination of Points or Cos Lealcoge F. Underground Pipe. lines 301 TWO0 (Instltat motallovedenl7a I f--Xlkl motialat 1 -' qk t - TmNIIch !& U tut9 or N%talloaraphy arA the Physics or metals TYNXIChX). Ionlastinn Method of Gamme Dervotoncopy 304 - FakIdov -0 ;,A,A-ffiW)0YA1cv, X.I. -10, and M M km I I V% % % r s ast tu 8 . rW y .Y t lj@ urgil Central 3olon-Ific Remearah Institute of Ps Metallurgy). use or 3ciatIllation Counters In betatron Dorectc_- ampy 310 Arkh-PLX!f)dy#-A,A- and 0,P,_DAtMLhav (janingradskly Insfiltut ^inxh*nerov zhelexpodarothno o trans - ZonlA orta rSd R il d . a roa p g S Ynginsers In6tItut*). Una of Scintillation Counters In the pro. duct Quality cootrol 314 .TajgcAoAka,;-K V 3 To Y, andjj&K. L-It-Rhov (xmsti%%% t ficr ll d fi ll a ove .o a on4ya, I s m ta ov T altute or metal- losrapkLT and th Physics or xstaljTsvp;@A a gL. p44&9poc9jg Cam-.., tral or welded Seems In Ferrous MatellmW 3W 4 p" .T. (Momkovskaye v"lLhoys tokhmIcUskors uchlllab@M , Dion Z.Bousank - Mosoov Rioer T@GkAjo&l@ SQkQol Imenj .Z. W sauman) . Radiography of Volded Pipe J01001  240) SOV/126-7-2-29/39 AUTHORS: Vasillyeva, I. N., Novogrudskiy, V. N., @pmokhvalov,A.A. and Fakidov, I. G. TITLE: The Hall Effect in the Mn-Sb System (Effekt Kholla v sisteme Mn-Sb) PERIODICAL: Fizika Metallov i Metallovedeniye, 1959, Vol 7, Nr 21) pp 304-305 (USSR) ABSTRACT: Electrical and magnetic properties of alloys are often used when the state (phase) diagram is constructed. Although galvanomagnetic properties are more structure- sensitive than electrical and magnetic properties, the former are rarely used in -the construction of phase diagrams. The present paper reports measuremeits of the Hall effect in the two-phase system Mn-Sb as a function of composition. According to the phase diagram (Refs 1,2) the Mn-Sb alloys are a two-phase system in the region of h1n concentrations from 0 to 50 atomic %; this two-phase system consists of ferromagnetic MnSb and free antimony. These components form a eutectic at approximately 20 at.% Mn. Samples of Mn-Sb alloys were prepared by melting together fine, well-mixed powders of Un (99.8% purityy Card 1/3 and Sb (99.88% purity) in evacuated quartz ampoules.  The Hall Effect in the Mn-Sb System SOV/126-7-2-29/39 The authors studied alloys containing 15.2. 20.21 28.01 31-71 44.0 and 49.6 at.% of Un. The phase composition of samples was checked by metallographic examination. It was found that the phase composition of the alloys produced by the authors is identical with the phase composition of the alloys described by Murakami and Hatta (Ref 2). Measurements of the Hall effect were made, using Dtisselhorst's com: ensator and a galvanometer with a sensitivity of 4 x 10-9V per division. Fig 1 shows the dependence of the Hall e.m.f. on the applied magnetic field intensity for samples of alloys of compositions listed above (curves 2-7) and of pure antimony (curve 1). Fig 1 shows that the Hall effect curves have the usual form for ferromagnetics. With increase of the amount of antimony in the alloy, the Hall e.m.f. increases and the curves shown in Fig 1 become more linear. Dependences of the "ordinary" component of the Hall constant Ro (which is proportional to the magnetic field intensity) and of the Hall constant Rf Card 2/3 of the ferromagnetic phase (which is proportional to  The Hall Effect in the Mn-Sb System SOV/126-7-2-29/39 magnetization of the sample) on composition are shown in Fig 2. R is seen to depend linearly on the amount of mangane .se0except in the region of the eutectic composition, where it has a minimum. The other Hall constant, Rf increases with increase of the manganese content following a near-quadratic law. From the experimental data reported in the present paper, it is concluded that the Hall constant R 0 is a sensitive indicator of the eutectic point in the Sb-MnSb system. Measurements of the magnetic (Ref 3) and electrical properties of the Un-Sb alloys and of changes of electrical resistance in a magnetic field did not show any peculiarities at the eutuectic point. This means that the Hall constant R 0 is a more sensitive indicator of the phase composition than the properties just listed. There are 2 figures and 3 references, 2 of which are German and 1 Japanese. (Note: This is an abridged translation) ASSOCIATION: Institut fiziki metallov AN SSSR (Institute of Uetal Physics, Ac.Sc. 7 USSR) SUD41ITTED: October 28, 1957 Card 3/3  67728 .2 0 0 96 SOV/126-7-3-35/44 AUTHORS: Samokhvalov, A. A. and Fakidov, I. G. TITLE: Thermoelectric Froverties"of a Monocrystal of Magnetite in the Low Temperature@Vransformabion Range (Termo- elektricheakiye svoystva monokristalla magnetita v oblasti' nizkotemperaturnogo prevrashcheniya) PERIODICAL: Fizika metallov i metallovedeniye, Vol 7, Nr 3, pp 465-467 (USSR) ABSTRACT: Magnetite undergoes a transformation at approximately 1140K the nature of which is not yet clear. At this temperature anomalies in thermal (ReJ�.l, 2), magnetic (Reib-3, 4), electrical (Ref.4), galvanomagnetic (Refs.41 5) and other properties (Refs.6, 7) are observed. The aim of the present work was to study the temperature dependence of the thermoelectric properties of magnetite in the low temperature transformation range, as well as at higher temperatures up to 4000K. The thermo-e.m.fe of magnetite was measured on six monocrystal specimens of natural magnetite. The specimens lp 3, 4 and 6 were out out from one octahedral magnetite monocrystal, and the specimens 2 and 5 from two Card 1/4 other magnetite monoorystals. All specimens had the shape  67728 SOV/126-7-3-35/44 Thermoelectric Properties of a Monocrystal of Magnetite in the Low Temperature Transformation Range of plate$, 8.15 x 5.60 x 2.15 mm (specimen A),-and 9,20 x 7.00 x 2.10 mm (specimen 6). The other specimens had approximately the same dimensions. The measurements were carried out at temperatures ranging from that of liquid nitrogen to 4000K in a cryostat simi@ar to that described by Zavaritskiy (Ref.12). A thermal gradient was created in the specimens by a furnace on a copper block to which the specimens were welded. The temperature of the joints was measured by a copper-constantan thermocouple by a compensation method. The result of thermo-e.m.f. measurement in theo magnetite monocrystal (specimen 1) in the 'range 90 - 400 K is shown in Fig.l. In this range the thermo-eem.fo has a negative sign which is due to eleetronio conductivity in the magnetite. Fig.2 shows the results of parallel thermo- e.m.f. and electrical resistance measurement of magnetite (specimen 6) in the low temperature transformation range in relation to temperature. Along the ordinate axis x and LnO are plotted as a function of (107/T)* The results obtained for the temperature dependence,of the thermo-e.m.f. Card 2/4 coefficient cannot be explained on the basis of the zone  Thermoelectric Properties of a Monocrystal Temperature Transformation Range 67728 SOV/126-7-3-35/44 of Magnetite in the Low theory for semiconductors because of the low mobility of the electric current carriers (Ref.11) and of the mechanism of electroconduetivity of magnetite (Ref.8) which is different from that of the usual semiconducturs. The authors arrived at the following conclusions:. 1, The temperature dependence of the thermo-e.m.f. eoeffieient@ of magnetite has a maximum in the low temperature transform- ation range at a temperature of 95 t0*501. 2. The position of the maximurn of the thermo-e,m.f. coefficient coincides with the deviation at B of the curve Ln f(l/T) on entering the range below the transformation range* 3. These results, as well as those obtained by other workers (Refs.1-10) show that the low temperature transformation in a magnetite monocrystal which is associated with electron ordering, occurs over a considerable temperature range. There are 2 figures and 12 references, of which 3 are Soviet, Card 3/4 7 English, 1 Japanese and I German. . q@@  67728 SOV/126-7-3-35/44 Thermoelectric Properties of a Monocrystal of Magaetite in the Low Temperature Transformation Range ASBOCFAMCN: Institut f Wki metallov AN SSSR (Institute of Metal Phvsioa2 Ac. So-, USSR) SUBMITTED: May 21, 1958  67756 SOV/126-8-5-8/29 AUTHORS: _Samokhyaloy4_A_A,2 and Fakidov, I.G TITLE: Thermoelectric Propertieslof Magnetite in the 8o-)+oo Ox 7emperature Range PERIODICAL: Fizika metallov i metallovedeniye, Vol 87 1959, Nr 5, pp 694-699 (USSR) ABSTRACT: The present work is part of a series on the electrical properties of magnetite. It gives results of an investigationlof the thermoelectric properties with the object of getting certain data on the energy spectrum of the conduction electrons and the low-temperature transformation in magnetite known (Refs 20,4,617,9) to lead0 to changes in many physical properties at about 118 K. The thermo-e.m.f. was measured for six specimens of a natural-magnetite single crystal, Nrs 17 3; 1+ and 6 being cilt from' one large octahedral,and Nrs 2 and 5 from two other sin le crystals, and for a polyarystalline specimen (Nr 7@. All specimens were in Card the form of plates. For temperatures of 300-400 OK a 1/4 thermostat was used; at and above the boiling temperature of liquid nitrogen a modification of the cryostat described by Zavaritskiy (Ref 15) was used  67756 SOV/126-8-5-8/29 Thermoelectric Properties of Magnetite in the 80-400 OK Temperature Range (Fig 1). A more detailed view of the apparatus is shown in Fig 2; the single-crystal magnetite specimens were soldered to a copper block around which a heater (to produce the temperature difference) was wound, the whole then being placed in the gap in the top part of the cryostat tube. Junction temperatures were measured with copper-constantan couples. The relatively long polycrystalline specimen had the heater wound directly on it and was enclosed in a second heater which enabled the overall temperature to be adjusted. Temperature and thermo-e.m.f. were.measured with a low-resistance potentiometer by-the compensating method7 preliminary experiments having shown (Fig 3) that the therm -o e.m.f. coefficient was independent of temperature difference when this exceeded 10G. The electrical resistance was al@so measured and' forsome specimens7 the temperature dependence of the initial magnetite permeability. The Card temperature coefficient of the thermo-e.m.f for specimen 2/1+ Nr 1 was found to be relatively'constant from 1+00 OK down to about 120 OK, reach a maximum at 95 t 2 OK, and falV  67756 SOV/126-8-5-8/29 Thermoelectric Properties of Magnetite in the 8o-4oo ox Temperature Range sharply at still lower temperatures (Fig Fig 5 shows plots (specimen Nr 6) of the temperature co.,Pfficient and logarithm of resistivity against !&@'/absolute temperatures the position of the maximum temperature-coefficient (950K) corresponds to a break in the logarithm curve, a further break occurring at 114 t 2 OK. Similar correlations were obtained for the other specimens and the greatest change in their magnetic permeability was found at 109 t 2 OK. The corresponding curves for the polycrystalline specimen (Nr 7) are shown in Fig 6. The logarithmic curve shown a break and not a jump, and the temperature- coefficient curve has no maximum or sudden change corresponding to the transformation. For all *specimens the temperature coefficient fell sharply on cooling below the transformation temperature range. The rise in Card the value at the transformation temperature isattributed 3/1+ by the authors to deviations of the magnetite from stoichiometric composition. The authors use the relation between the temperature coefficient of the  67756 BOV/126-8-5-8/29 Thermoelectric Properties of Magnetite in the 80-400 OX Temperature Range thermo-e.m.f. and 'entropy (Refs 1, 110 to try to obtain data on the chemical potential (Fermi level) of the conduction electrons. A graphical (Ref 13) solution of the equation showed that above 200 OK the chemical potential is positive, decreasing below this temperature and becoming negative at the low-temperature transforma- tion temperature. These results confirm the authors' conclusions from studies of the Hall effect (Refs 12,16). Comparison of temperature-coefficient values with those of parallel resistivity determinations indicates that the anomalies associated with the low-temperature transformation persist at 1L@-150 below this temperature2 which is confirmed by the authors' (Ref 17) work on the Card Nernst-Ettinghausen effect in magnetite. 4A There are 6 figures and 17 references, of.which 7 are Soviet, 7 English, I French, 1 Japanese and I in Acta Crystallographica. ASSOCIATION: Institut fiziki, metallov AN SSSR (Institute of -Physics of Metals, Academy of Sciences USS_ Y1 SUBMITTED: May 15, 1959