SCIENTIFIC ABSTRACT FEDIN, I.V. - FEDINA, A.YE.

RUKAVISHNIKOV, S.V., kand,tekhn.nauk; SHURTYGIN, kand.tekhn.nauk; FEDINP I&V,� insh, I Interchan.geabla working parts for th.a FTK-GPI-38 cutting trench digger. Stroi. i dore mash. 8 no.2tU-12 F t63, . (MIRA 16s3) (Excavating machinery)  NIKOLAYEVP A.F.,, kand.tekhnenauk; FEDIN, I.V., Inzh.; FOLI, L.R., irzh. ......I...................... ....., New macbinery for working frozen soils. Strol. I dor.mash..? no.10:1-2 0 164. (Km l8a)  BAYL?Vb7KIY, D.A., doktor istor.nauk; VOLKOV, N.S., doktor istor.nauk; GMIKINA, Bell., doktor iotor.nauk; KUCHrIN, A.P., doktor istor.nauk; WSTOMY, G.D., prof.; DADYKIN, R.P., kand. Istor.l3auk; ROGACHIVSKATA, L.S., kand.iotor-nauk; SHAIIALIN, Me, kand.istor.nauk; MANONT, I.S.; PIRDGOV, T.Ke, prepodavatell Let's wite the history of our plants and factories; a letter to the editors. Bov.profsoiusy 16 no-7:62-63 AP 160. (KMA 13:4) 1e Sekrotarl Soywa pisateley SSSR (for Fedin). 2. Glavnyy redaktor izd-va I'Moskovskiy rabochly" (for Namontov). (7actories)  24(4) SOV/.51-6-5-26/34 AUTHORS: Zakharfpvskiy, AX. and Fedin, L~k. TIMS Measurement of Double Refraction of Fibres (Izmareniye dvoynogo lucheprelomlentya. volokon) PERIODICA,s Optika I Spektroskopiya, 1959, Vol 6, Nr 5, pp 701-703 (USSR) ABSTPJ-- CT i A polarization microscope suitable for measurement of double raf raction in fibres is shown in Fig 1. A fibre P is placed in a suitable immersion medium between an objective Ob and a condenser K. The other 'Parts of the microscope are s a polarizer P, an analys, jr A, an ocular Oc and a Wollaston prism 71 kplaced in the Image plane). For 0.01-0.02 nvn thick fibres the magnification is .500 X. The system produces linear interference bands at right-angliAs to the fibre. A fibre displaces the bands by an amount,&V which is related to double refraction, defined as the difference between the refractive indices of polarized rays (n~ - n.L), by ihe following, expression a (n, - n.L) A Ahere a Is.the thickness of the fibre and X is the -wavelength of the Card 1/3 light used. Fig 2 sh,yws a mi cro photo rraph taker I n gree'a light  Measurement of Double Refraction of Fibres (546 mjL). The five fibres shown in Fit, 2 are-, (1) caprone, (2) "lavsan", (3) nitron, (4) cupramorlum rayon, (5) viscose rayon. The strongest double refraction occurs in I'lavsan" (fibre 2) and the meakast (it in also of the opposite sign) in cupramonium rayon (fibre 4). In order to ineasure AN precisely it is convenient to use a screw micrometer with its hair-lina in the bLage plane. For tbts purpose the scheme of Fig 1 is replac,ed by one of the two variants shown in Fi g 31 two Wollaston prisms Yll and W2 are used and the micrometer hair-line is placed in the imge plane Q. This idea is due to L.A. Fedin (author's cortificate No. 60472r,/2(3 dated July 25, 195P). Double refraction (nil zxj_) of a unifotTa fibre is now calculated from (nil - n.L) RA (7) M where R in the area k-measured microphotomotrically) bounded by the Card 2/3 curved Interference band in the fibre and the original roctilinear band  Iloaaurament of Voublo Refraction of Fibres .(c.f. Fig 4, part A),' S is the separation between undiaDlaced bands U is the magnification of the microscope and S is the cross-sectlorAl area of the fibre. There are -i figuros and 2 referencos, 1 of Ywhich is Gortuan and I English. SUFMITUD: December 4, 1958 Ca rd 3/3 77777  --AU M-R:----------Fedin,--Lo TITLE: On the app ication of a thin Lummer-Ghereke plate. (0 primenenii tonkoy plastinki Lyummera - Gerke); MIODICAL: As.tronomicheskii Zhurnal, 1957, Vol-34, NO-1, PP-135-138 (USSR) ABSTRACT: *-' It is shown, -u sing a conventional argument (Tolansky (3)),.. that the resolving power of a thin (0.2 mm) Lummer-Ghercke plate as calculated by H. V. Merkvlov (l ) is incorrect. The figure given by him is -16.1 x 107 whereas the correct value is 104 2.43 x This is, of course, of the order of the resolving power of a prism spectrograph. The same applies to the dispersion of the plate. The spectral range of thejlate is only 10 - 15 1 and' there are considerable constru ional difficulties. On balance, the thin Lummer-Ghercke plate is of doubtful value. 1 Figure and 1 Table. 5 references, all Of Which are RUSBian. Reed. Oct. 15, 1.955.  ALEKSANDROV., V.Ya., prof.; BRODSKIY, V.Ya.; BRONSINEY11, A.A.; BRUMBERG, Ye.M.; VAKHTIN, Yu.B.; VITINIKOV, Ya.A.,- GAYTSKHOKIP V.S.;GOROSHCHENKO, Yu.L.; CRJLYAYF;.V, V.A.,- ZHINKINI L.N.; ZAVARZIII, A.A.; ZALUND, S.Ya.i ZBARSKIY~ I.B~; KATSNELISON, Z.S.; KGJSSARC.MK, Ya.Yu.; LEVIN,. S.V.; MARAKHOVA, I.I.; MASHANSKIY, V.F.; MOSMCH, T.B.; NIKOLISKIY, N.N.; PESHKOV, V.A.; POLENOV, A.A.; POINAIISKIY, Yu.I.; ROZENTALI, D.L.; RUMIANTSEV, P.P.; TITOVA, L.K.; KHEYSIDI, Ye.M.; CHERNOGRYADSKAYA, N.A.; TROSHIN,. A.S.j, otv. red,; MEYSELt, M,N,, red.; HIKIIAYD)V, V.P., red.; NEYFAKH, S.A., red.; PARIBOK, V.P.,, red.; POLYANSKIY, Yu.I.; red.; RAYKOV, I.B,, red. [Manual on cytology in two volumes) Rukovodstvo po tsitologii v dvukh tomakh. Moskva,, Nauka, Vol,l. 1965. 571 p. (MIRA 18:2) 1. Akademiya nauk SSSR, Institut tsitologii.  K90KHRYAKOV, V., kand. takhn. nauk; SFAGANSKIY, R., inzh.; Immm, 4., insh.; GRICHEMO, I.; MINP L.; TILYATNIKOV, Ya., akkumulyatorshchik Readeral letters. Avti tranap. 37 no.12:43-44 D 159. (MIRA 13:3) I.Zhigulavokoys passashirskoys avtokhosyayotvo (for Telyatnikov) (Motor vehicles)  .FEIDIN, L.A.1 AGROSKIN, L.S. Television microscope as an example of the use of physical research methods in biology# Biofizika 4 no. 4:476-482 159* (MICROSCOPY) (TELMSION) (MIRA .14:4)  MIN&L.A.t AGROSER, L.S. Microscope with televioionp an example of application of . physical methods,of research in biology. Analele biol 14 no,lal8l-191 Ja4tr 160* 1 I I r ,  FEDW, Leonid Andreyevio4j PAPIYANTS, K.A.p kand. fiziko-4uttem, naukI, r9Ts-i-nkntj-i0-R0I&, NoVey inshop retsenzent; IOM ,GOA* )rod. jTOW I #VON# red. irA-va; ORESHMAj Mop tekhn, red* [Manual on microscopes, their accessories, and- *a] Mikro- skopy, prinadleabnosti k nim i lupyl spravochni Amiga. Pod red* G.Aeloffoo Moskva, Goa, nawbao-tekhn. izd-va Oborongiz, 1961. 251 p. (Microscope) (MIRA W10)  BERESTNEV, V.A.; DUB07A, L.S.; FRUMOVA, T.S.; FEDlN# L.A. Inhomogensity of oriented fibers. ll~sokom. soed. 6 no.7%1302- 1307 n 164 (MIRA IM) Is Nauchno-isaledovatellskiy inatitut shinnoy promplennosti. - -1, ~~ INK, 1-1 !, M-P . I .. : ,-  MIN, M. (gfRostov-na-Donu) .--""w"Owww I Active participation of the population In the improvement of public areas an4 services of the cttys Zhilo-komelthos. 9 no.12%13-14 159. (KORit 13:4) (Rostov-4n4on-Municipal services) 'k  FEDDIJ M. referent City of the Obl. ZhU.-kom.khos. .11 no.60-6 is 161. (KM 14:7) 1, Sovet Mbdotrov RM. (Novonibirakr--Hmicipal services)  SAPUNCY, Petr Yagorovich., zvenlyevoy.. Geroy Sotsialistichookogo 7rida. Prinimali uchastiye: FOIN M.A ., SAIDWHIN, I.I.; SAFRONOV, V.V*; SHELEKENTSLTp L.T. CHELYSID(IN, Yu.G., red.; SERM-EVt V.I., red.; SOKOILVA, N.N., tekbn,red. [Sixty-two centuers of corn per hectare] 62 toentnera zerna kukuruzy a gektara. Moskva, Izd-vo sellkhoz.1it-ry,, zhurnalav i plakatov,, 1962. 77 p. (mm 1524) ,I* Kolkhoz "Krasnoys anaqmm Dmitrovskogo rayona Orlovskoy oblasti (for Sapunov). (Dmitrov Distriot-Cou (Maize))  FEDIN, M,A* (poohtovoye otdeleniye Shatilovop Orlovskoy obl.) Effect of sowing dates on the vu'1nerability of corn by the Swedish ~fly and corn smut. Zaahch.rast,ot vred.i bole 7 no.5x29 1k4 162, (MIRA 15sll) 1. Zamestitelt direktora po nauke Orlovokoy sellskokho.-yayetvennoy opytnoy stantaii. t0rel Province-Corn (Mmize)-Disease and peat resistance) (Frit flies) (&mta)  FEDRI) Farat Alcksandrovich; SLIEPTSOVA, K.., red.; KUZDI, N., tekhn. ~ - '. " _.- [Corn] Kukuruza. Orel, Orlovskoe knizhnor izd-va, 1963. 130 P. (MIRA 16:12) (Corn (Faize))  -.7mit With the aid of local councile. Sov.zdrav. 19 no.lrl7-20 160, (MIRA 13W (HOSPITAL PLONIND AND CONSTRUCTION)  MD. N. Creative vork ou buildlug projocts. Prof.-takh, obr. 11 no.5:22- (KLRA 7:9) 23 Ag 154. 1. Direktor stroitallnoy shkoly fobriobno-sayodskogo obuoheniya. (Grosny--Bmi2ding trades--Study and teaching.)(Building trades- Study and tsa4hlW-Gr(jzmy) W_ A,4  FEDIN, H. room*. Without departmental partitions. Sov. profaoiuz7 6 no.1:36?.-38 Ja 15 8. (MIU 11: 1) 1.Predeedatell Gortkovskogo oblastnogo soveta profsoyuzov. (Trade unions)  1. FEDIN, N.F. 2. JmR, (6oo) 40 Technology 7. Kzyl-Ordin massif of irrigation of the left 3hore,,of the lower reaches of the Syr-Darlia rilger, Alma-Ata Izd. AN Kazakhskoi SSR, 1932. S 9. MontWz List of Russian Accessions, Library of Congress, March,1953.Unclassified.  WSR/Geology - Mineralogy Card 1/1 Pub. 1.23 11/19 .Authors % Fedin, N. P. Cand. of Geologicala-Mineralogical Sciences Title I Determination of water output coefficient of rocks Periodical Vest. AN Kim. SSR 12, 78 - 83, Decomber.1953 Abstract t An experim~ ntal method"forthe determination of the coefficient of water extractionl1rom rocks, is described. Three USSR referencas.(1934-1956). Graphs,, dicgram. jnstitution Acad.- of Sci. -Kazi..SSRi- Alma-Ata Presented by Aca emician K. I. Satpaev  FEDINO N. F. "Problems of Studying the Mineralization of Ground Waters of Irrigated Regionssn Izv. AN KazakhSSR* Sere geol.p No 16, 76-840 1953 The authors considers the laws governing the transposition and accumulation of salts in the ground waters of irrigated regions and of neighborirg territories on 'Ohe example of the left-bank Portion of the Kzyl-Orda land sass being irrigated. On the basis of a processing of the data of more than 250 chemical analyses of water by methods of variational statistics., the author obtains typical analyses for each degree of mineralization of the ground waters and obtains curves showing the dependence of this degree on depth of the water and remoteness from irrigated land* RZhGeol., No ls 1955  Wk~ Cut 1/1 1 Pub, 123 10113 I Pedin A VladimL-ov) No M. No F. T1t1Q 1rchasologicAl finds in tho'region between the Volga and the Ux%l .Pisriodicai Vast* AN Kati SMj 11/2j 75-811 Feb 1934 Abstract -t -%- he rigiow-betw.eah th* Volga -and- the Ural,, - which -is- flooda.d.-in. -the-7.z springtbtet thors is a slightly higher and &ier area in which -rallos of an. andient citilitation were found. A study, of thesej, with a view to detsriining their origin and datep led to the conaluelon thitt the region wa,s inhabited from the Neolithic era up to the middle oJ' the first millenium A. Do Illustrations; map, Institution ~ubaittad t  MnI. IT.F. chemical compooition of underground wAtera. Trudy Lab.gidrogeol.probl. 16:3.55-159 158- (MIRA 12:2) (Water, Underground-Composition)  -_F~D~I~jL--N*F* Some indications of recent movements in the Uzynkargaly Valley I (Trans-Ili Ala-Tau). Uch.sap.Kazakh.un. 37 no.4:101)-112 ~158. (Usynkargaly Valley-Earth movemonts) (MIRA 15t4)  .o ME , H. G. e Isboratory vork-on methodolW In mathematicts. Uch.sap.MGZPI no.3:93-102 159. 1 (MIRA 13:5) (*thsmttos-r5tudy and teaebing) V~  MANTUROV, Oleg Vasillyevich; 'SOLNTSEV Yuriy Konstantinovich; SORKIN., Yuriy Isaakovich; MEN. Nikolq Georgiy PULIKIN, S.P.9 doktor fiz,-mat, nauko retsenzefitf KONDRATIYEV~ V.A.# kand, fizt-mato naukp retsenzent; MISHIN, V.I., kand. ped. nauh, retsenzent; VEYTSMM , I.B.p propodavatel's retsenzent; KREYDLIN, Ye.G., pre- jwdavatell, retsenzent; PYSHKALO, A.M., prepodavatel't kotsengentl DITKIN, V.A,, prof., red.; YAKOVKIN, M.V., red, [Explanatory dictionary of mathematical terms; textbook for teachers] Tolkovyi slovart matematichaskikh te=4nov; posobie dlia uchitelei. Moskva, Prosveshchenie~ 1965. 539 P.' (MIRA 18:7)  FEDIN., Nikolay Yermolayevich; MAKAROVA,, Z.A.v xed. j -SHDRBA, N.b.,, tekbn. red,,--- [Trade-union organisaiion and technological progress] Profsoiuznaia organizataiia i tekbnioheakii progreso, Movkvaq Izd-vo We SPS Profizdato 1961. 77 p. (MIRA 140-1) 1. Predsedatell Gortkovskogo oblastnogo soveta profsoyuzov (for Fe- din)* (Trade unions) (Teohn6logy)  BUKALOV, Valeriy Mikhaylovich; NARUSBAYEV, Aleksandr Abdugaparovich; GERASIMOV, V.N. 9 kand. tekhn. nauk, retsenzent;_FEDIN,-, P.."G.. inzh.p retsenzent; YEGOROV, S.A.,, nauchn. red.; P&OVA, Ye.M., red. [Desir of atomic submarines; from materials in the foreign pressl Proektirovanie atomnykh podvvdIWO lodok; po materia- lam inostrannoi pechati. Leningrad# Sudostroenie, 1964. 287 p. (MIRA 17:7)  SIDORFNXO, G.I.; FEDIN P G VIcarious nienotruations in the form -f pulmonary hemorrhages. Pzobl. endok. i gorm. 10 no.6s53-55 W-D 164. (MIRA 180) 1. Kafedra fakulftetakay terapil Minskogo meditainakogo inatituta i 4-ya klinicheskaya bollnitsa (glavny3f vrach Ye.M.Selldimirova), Minsk.  GALUZEVSKIY, Georgiy Nikolayevich[deceasedlj FEDIN P S red.; SMIRNOVAI R.N., red. lzd-vaj LEUVAYI~,~-TIL.-,-te-M. red. [Accounting in repair and construction orgr,,nizations)Bu- khgalterskii uchet v remontno-stroiteillyW)di organizataiiakh. Moskvap lzd-vo M-va kommm.khos.RSFSFI, 19Q. 182 p. (KMA 1519) (Cone-Umotion industr7-Accounting)  KHMELINITSXAYA, Vera V-Iadimirovna;. ~Ye.,, atv. red.; ZAKHARUTINA, G., red. (Group ayetem of raiaiug dam-#uckled calves in the Maritime Territory) Podsosno-gruppovoo vyrashchivanie molodniaka v Primorskom kraoi Vladivootok, Primorskoe Imizhnoe izd-vo, 1962. 37 P. (MIRA i7:4)  C,',, UIL I VR Z C A T -P G ORLLL' ABS. JOUR. RZKhim., NO, 1959) 1,Tc,. 86,180 AUTHOR :Banateanu, Ch.i 6erbanc-!scu, 'L',; IN'33T. BucharL-st Instl-~4ut-e oi' Petrole-m. and Gas T ITU'r, Rapid Dcteri~,ir,~Lt lot. oi' Phosphoric M'--id in Nola Apat:Lte and Bonc. Nkal by t0he Ketiicd of Copaux. ORIG. ?UB. !Lucrarile InSt. petrol si gazE: BucurLSti, lc'57, 3, 3L6-352 ABSTRACT :For dcterMLnation of. 11205 in apatite and boil use is made uf thu riethod of Capaux (Covaux H.) C. R d---zs Seances de lA,,:ed. des sclences, 1921, 173, P. 656), bus,--d on formatiori of ether-phosphor~olybdic icid cor,-,plex !r an a,:-'die medl-a (ph, 0.45-U.65). The latter, after .1. 1 1 U ct-nt:-.,if-agat ion, is separated from excess ether and water, us a yellow$ oily liquid, the voluiae of which depends on P205 COIntEI-It Of the sample. To tI.e sample being analyzed 1.2 g) arc a,-Wed 10 ml concentrated 1;I*i03 and 50 i.Al concen- ,ratZed J12804, t the mixture is evaporated until 803-f=e-s ~-re evolved cooled 200 ml water are added, heated to a boil, cool--~, dilutZd witY water to 500 ml, ana filtered. CA~U: 1/3 *Vrabiescu, L.; F(din *3-T  COUNTRY Rumania E-2 CAT WORY ABS. JOUR. RUM16 o iiO. 1959, .';o. 86180 AUTHOR TUST. TITLE ORIG. FtJB ABSTRACT Bone meal.is first calcined, P20~ is de- termined in a special test tube into which are'Dlaced 2 ml of the above-stated flitrate, 3 ml wiater 5 nil 15~; hC1 (or 201k H2804)2 4 ml ether (free from C211501d, and 5 El 14~v solution of Na-molybdate, the mixture is thoroughly stirred and centrifu?,ed for 3 minutes. The etlier-phosphomolybdic complex collects in the lower, narrowert graduated part of 0 of the test tube, where its volume can beat,' read off (with an error of up to 0,01 ml). It was ascertained that there is exact proportionality between volume of the liquid and content Of P205; therefore the latter is determined by the Ilethod of' interpolation, using for this purpose the data N-4,M. 2/3  CAT 2 rlJORY ABS. JOUR. RZIMIM., No. 1959, go. 86180 AUTHOR TTTLT .Ll -~' I OR-16. PUB. ABSTRACT obtained with a standard solution of KH2PO4 (L'- 6 g/liter). In accuracy, the method ',-s not inferilor to the gravimetric; duration of determination Is of 15 minutes. 11. Manole CARD: 3/3  3a301- DJ/WE ACC-M;-n4 -9 ~3 1130~111G-! - It AUTHM, sierbaneacu, Ana (Fnxinoer)i Fedin, Unarn (Rnrineer)l Popovicil Tatiana (F,nglneer) ORGs none 60 TITLE, Determination of the total sull4mr content of sorvi Rumnian crude oils from different geological formations SOURG's Petrel sl gazo, V-, 17, no. 2, 1906, Ww,4 TOPIC TAGSs chemical composition, crude pntrolettm, potrolo(-.1 A13STMCT: A report on t1lo determination of tho to-~xl aulphur contents of 19 crude oils from vell-Immm geologic fornations in six different ffivianian potroliferous .structitrose The importance of oUplim, contnntn analynts is discusnod, wyl an attempt is We to correlate the stdphttr contents idtJi tho a," of t1io geological formations* Orig. art. hast 2 figitres, 2 formilas awl 5 tables. fJPks: 36,55_67 'ST113 CODR-t 11, 07 / SUBM DATE4 none / ORIG RRF% 017 1 SOV RP%Ft 005 0111 RKFj 051 /1-Z, C'  R/007/61/4012/W 1/t)03/003 A2~1/A126 AUTHORS: Constantinescu, M., Constantinescu, T. and Fedin, Tamara TIM: Contributions to the study of the catalytic condensing of ethylene with hydrogen sulfide PERIODICAL: Petrol si Gaze, v. 12, no. 1, 1961, 3,,~ - 43 TEXT: The article presents a solution regarding the production of ethyl- mercaptan from ethylene and H2S with the aid of palladious and nickel sulfide ca- talysts. In a previous work: [Ref. 1: Constantinescu, M., and Constantinescu, T.: "Petrol si Gaze"S no. 7, 1959o 298-304], the authors have shown that mercap- tans can be produced by three method groups: i.e. by treating a neutral alkylic monoester (R - S04Na) with Na SH; from alkylic kialogens (R - Cl) with NaS under pressuref and by catalytte methods. The catalysts allow a synthesis starting with reactants such as ethyl alcohol or ethylene., whioh directly lead to ethyl- mercaptan. In the above mentioned work (Ref. 1), the stuthors have studied the synthesis of mercaptans from lower alcohols. 31lice in the near future ethylene will be made from cracking gases or chemical reactions of methane, the study has been extended also on the synthesis of ethylene and hydrogen sulfide: C2H4 + H2S Card 113  RA07/6 1/10 121100 1/t)03/100.3 Contributions to the study ... A231/A126 CASH. According to the technical literati-ire the photosynthesis with ultral. violet~riys has also been studied before beside -the above mentioned three methods. The majority of the publications refer to higher olefines, but not to ethylene. On the basis of the foreign literature, the authors have established that only the photochemical method supplied a higher efficiency (80%) for propylmercaptan at a temperature of OOC. For ethylmercaptan the temperature is lower and the ef- ficiency is negligible. The photochemioal methcd, however, is very difficult 'to be applied ILn engineering, and needs an additionally c&talyst. The only practi- cal method is the catalytic method after having found a catalyst which supplies corresponding results at a temperature as low as possible and at usual pressure. The oldest examinations were carried out by H.R. Duffey in 1934, who used dif- ferent catalysts and obtained a maximum ethylene transformation of 2,3.3% on a nickel catalyst. The task of this work is to find a highly efficient catalyst for the conversion of ethylene into ethylmercaptan. On the basis of the studied literature, the authors could establish that generally the catalysts, which sup- ply a rather weak efficiency for the de3ired reaction, are the catalysts used also in hydrogenation and dehydrogenation reactions. FOr this purpose, this field has also been studied and proved to be the right way.. A.W. Schultzeps pub- lication [Ref. 4: A.W. Schultze, J.P. Lyon, and G.H. Schort: "Ind. Eng. Chemis- Card 2/~  R/'007/16 IA 12/00 1/bO3/tO3 Contribution to the study ... A231/jAI26 try" , Ibid: US 2,392-555; 4o, 12, 19481 clearly shows that no higher mercaptan efficiency (66%) was obtained even in the presence of a catalyst, except in two recirculating stages with different catalysts for every stage and different pres- sures, i,e. 33 and 100 atm, when the reactants were partially in liquid phase. The authors' study was conducted to find a solution usable at ordinary pressure, to avoid technical complications, physical condenattiona, eta. This paper estab- lishes the conditions and main parameters necessary for the transposition to the pilot or industrial scale. There are 5 tables, 1 figure and 9 referenaeal T Soviet-bloo.and 2 non-Soviet-bloo. The referencen to the English-language publi- cations.read as followst Ref. 2: W.F. Vaughan, F.F. Rust, J. Evans: Org.Chem. 7,466,1942, Ref. 41 A.W. Schultze J.P. Lyon, G.H. Schort: Ind. Eng. Chemistry Ibid.: U.S. 2.392-555; 40, 12, 1948. SUBMITTED- August 29, 1960 Z Card -3/.3  BANAISANU, Gh.; CONSIANTINESCU, M.; FEDIN, T. Behavior of Ile bentonitic rocks in contact with watery solutions containing various chemical substances. Pt. 1. Bul Inst Patrol Rum 9: 39-55 163. 8  L 18316-65 Ps S, S -6/Pr-b/Ps,/Pu-4 IJP(c /AFWL A-Iff/W ACCESSION NRs AP4049532 A089,647017/005/0329/0335 AUTHOR. Milljonsbchikov, M. D-i Gverdtaiteli, 1. C1.1 Abramovo A. 0.1 Gorlov, L. V.1 Gubanov Yu. Dot Yefr~_mRxL-&---A-j.LZhukov, V. Pot no V. K-1 lov, ,Va. A-1 Komovskiyo Vo Got: i Ivanov, V. Ye-i Kow*rz R. Ya La&Mlli, So P.1 Herkin. V. 1.1 i Kukhafkcin, N.-Te.1 Kucherov, .1 1 _-;-- blechayev. Yuw A. Pozgnvakov, B - .1 Ponomarn -st'giz, N".1 Samarin, Ye. Not Serov# V. Ya-t Usov. V. A. reding V. 0,1 Yakovlev. V-. Vol Yakutovich, M. V.i Khodakov. V. PITLJ31 The "Romashka!' high-temperature reactor -converter ;Otmcjct-Atomnaya energiya, v. 17, no. 5, 15,64, 32D-33S TOPIC TAGSt nuclear power reactor, reactor feasibility study, re- search reactor* thermoelectric converter/Roinashka ABSTRACTs The authors briefly-dendribe the construction, parameters*, test results, and operating wMerience of the wMmashka" reactor- Card  1. 18316-65 ACCESSION NRs AP4049532 converter unit, which has been in operation at the Kurchatov Atomic Energy Institute 0ince August 1964 The fuel used is uranium di- carbide enriched to 90% U435. Gra;hitXd beryllium are used as reflectors. Electricity 'is gena-rated b silicon-geinanium semicon- ductor thermocouples distributed on the outer surface of the reflec- tor and connected in four groups which can be connected in series ''or in parallel. The temperatures of the active zone and outer Bur- face are 1770 and 100OC, respectively. The power ra,ti~qs are 0.50---~ 0.80 kW electric and 40 kW thermal, the maximum current (parallel connection) is 88 A. the neutron flux is 1013 neut/c,2 sac in the center of the active zone and 7 x 1012 on its bound&ry. The reactor has , negative temperature reactivity coefficient. The equipment has high inherent stability and requires no external. regulator, and little change was observed in the thermocouple properties after 2500 hours of operation. Tests on the equipment parameters are continu- ing and the results are being analyzed for use in future designs. Orig. art. bass 8 figures and I formula. Card 2/3  PoSprilovp G.Ye., doktor teklin. nauk, pror.; irl'zil Consideration c..f the stalle characterl3ticu of 02o loaA In the -iel~,,!tiun of cr-myrnsating dwilci,,s for volt.tige r.- lation In JL % , 1. umier distritrution networls.- Izv. ws. ucheb. zav.; erorg. 9 . no.1:9-14 ja 166. (MIR1, 19:1) 11" ur -.-hf, .3 a . Fii)loi skly politekhn', skl7 Inotiti-t, Pr;.,dtavlm kafedroy tA,!kt"ich-~ski.kh Mstwu _i iiAey. jx.~ii:ary 1, 190.  ACCESSION NR: AP4015146 3/0290/63/000,/003/0143/ol45 AUTHOR: Levinson.,, M. S.; Fedin,_Y,,,jt,_ TITIZ: The different offoot of ultrasonic oscillations on the olectrophoretic movement of protein fractions in human blood plasma SOVACE: AN SSSR. Sib, otd, Izv,, no. 12, Ser, biologo-med. nauko no. 3. 1963s 143-145 TOPIC TAGS: human blood,, blood serum protein fraction,, blood plasma protein fraction, ultrasonic biological actionp protein fraction electrophoretio movement, electrophoregram, 800 Ice ultrasonic fr9quency ABSTRACT: This investigation was carried out to determine whether ultrasonic oscillation acts specifically on Ithe separate protein fractions of vibrated blood serum and vibrated plasm.a. Nondiluted blood serum and plasma samples talcon from different human donors wore vibrated in test tubes at 800 ke at an intensity of' 7.6 w/cra2 for 1 hr at room temperature. Experimental and control samples were analyzed by electrophoresis (EFA-l unit) and electrophoregrams were made, Sts,tistioal processing of findings shows that electrophorotic Card 1/2  ACCESSION NR: AP4015146 distribution shifts of protein fractions for vibrated blood and for vibrated serum are the same. Protein is found to increase in the alphal-,, alpha and beta-globulin fractions of vibrated blood and serum, These increases indicate that during vibration the separate protein fractions change their electrical properties related to their electrophoretio movement rate. The possibility that the splitting of albumin and gamma-globulin molecules with ultrasonic action may also affect the relative increase of alpha- and beta-globulins is not excluded. The mechanism of ultrasonic biological action requires farther investigation. Orig. art. has: Z tables, ASISOCIATION: Krasnoyarskiy gosudarstvenny*y meditsinskiy institut, (Krasnoyarsk Stat~ Medi6al Institute),- Institat'fiziki Sibirakoga otdaleniya AN SSSR, Krasnoyarsk Mysics Institute of the Sibarian D:Lvisio=,AN SSSR) SUBMITTED: 33Aug62 DATE ACQ,- 13Mar64 ENCL: 00 SUB CODE: LS NR REF SOV: olo OTIM-Rt 003 Cord 2/2  ZHIVAYKXN, L.Ya.!_jEj&~SHEVCHUKj M.S.; BIYAKM, I.G. Effect of the concentration of monohydrate on the degrbe of ab- sorption of sulfur trioxide. Rhim.prom. no.7:505-506 J1 163. (MIRA 16:11) 1. Ural'skiy nauchno-isoledovateltakiy kkiimicheskiy institut i Krasnourallskiy madeplivillnyy kombinat.  18.5loo ci.l 0 so 0-2 -10/25 AUTHORS: Bayrakov, V. I., Fed1n _V1._F. TITLE: Investigation of 1,200-mm Reveralng Thtn-Strip Mill With Collers Located in Heating Furna,2e PERIODICAL, Stall, 19601 Nr 2) PP 130-133 (USSR) ABSTRACT: The authors investigated the power parameters of a two-high mill with collers inside the furnaces at Nove-Lipetskly Metallurgical Plant in Lipetsk (Nove-Lipetskly metallurgicheskly zavod.). The following str ips from St.2 and St.3-steel (regular C steel) were rolled; 8.- io - 12: - 16 - 20 X 1,000 mm and 11 x 750 mm in roughing stand; 1.5 - 1.75 - 2.0 - 2.5 - 3.0 x 710 mm, 1.5 - 1.75 - 2.5 - 3.0 x 620 mm, 2.0 - 2.5 - 3.0 - 4.o x 1,000 mm and 1.85 - 2.0 X 900 mm in finishing stand, The followIng mea3tlrements were made In the course of tests: (1) me,;al pressure b on rolls wir6 pickup) and torsional moments during Card 1/6 rolling; 2 current voltage, and number of revolutions ~ ~  Investigation of 1,200-mm Reversing 1761o Thin-Strip Mill With Collevs Located soil/1--3-60-2-10/25 16 HL~-ati6g.,PVrnace of main drive and coller motors; (3) size and temperatures by optical pyrometer of str1p belng rolled; (4) rolling time. As a rule, izietal pressure cn rolls Increased from roughin to fintsl-,Lng passes. Maximum pressure (2,040 tons~ in rollIng X 1,000 MM strip was observed In the seventh pass. Figure I shom the relation between mean presaure and 1:h m ratio in roughing stand, where 1 = length arc of contact, hm = mean height of cross sectlcn of strip being rolled. As thIs ratio impeased, the mea.n specific pressure grew due to a sti%nger effect of external friction, speed of deformation, and lower metal temperature. A comparison between theoretical. and practical data showed good conformity. Theoretical data were cal- culated according to a method advanced by A. 1. Tselikov (Stall, Nr 5, 1958). In rolling 2.0 X 1,000 mm strip, maximum experimental Pre"istive (1,260 "'-ons) was Card 2/6 observed In the second pass.  Investigation of 1,200-mm Reversing Thin-Strip Mill With Coilers Located in Heating Furnace Fig. 1. Mean specific 41 pressure of metal on rolls. v I:hm ratio in roughing stand. '(70610 SOV/133-6o-2-10/25 :.4 U a ( 1 1 0 1. 1 28 2 x 41 1A Card 3/6  Investigation of l,,200-!iun Reversing Thin-Strip Mill With Coilers Located in Heating Furnace Card 4/6 776,io SOV/133-6o-2-10/25 Figure 3 shows the relation between pM and h1:D ratio in finishing stand; as the strip gets thinner, this ratio decreases while pm increases.--- Maximum specific pressure (129 kg/mm2) was achieved/ in rolling 1.5 mm thick strip. A comparison of 'experimental and calculated pressure in finishing stand showed, on the whole, good conformity, although in some cases the difference amounted to 30%. The latter is due to errors In measurements of metal temperatures and reduation per pass. Maximum torsional moments on the main motor shaft of the roughing stand exceed the nominal moment by 1.2-2.5 times and by 1.4-2.0 times in the fini- shing stand, which is within permissable limits. Maximum specific power consumption in roughing stand did not exceed 24 kw/hr/ton in rolling an 8 X 1,000 mm strip from a 120 mm thick slab. Rolling 12 X 1,000 mm strip from the same slab requires a power consumption -6f 10.5-14.0 kw/hr/ton. This  Investigation of' 1,200-mut Revev.,ilrq~ 776Y0 I- Thin-Strip Mill With Coilers Located SOV/133-60-2-10/2..) in Heating Furnace Fig. 3. Mean specific pressure of metal on rolls. h :D ratio In finishing stand. 7J Ij 51 41 d Q A y (d 17 fzu e.-+,. (hl D)) nr-, Oard 5/6  Investigation of 1,200-irun Reversing Thin-Strip Nill With Coilers Located in Heating Furnace ASSOCIATION: 7761o sov/i3,3-6o-2-l0/25 scattering Is primarily due to uneven tempera- ture collditions in rolling. Mctor was over- heated in rolling 10-8 X 1,000 mm (from 2.1 to 2-5) in roughing stand. In rolling thicker or narrower strip the motor has a 10-30% heating margin. With a root-mean-square current In the finishing equalling I r-M-S -2 (o.99-1.14)1 nom' the motor is also overheated during the rolling of 2.5 to 2.0 x x 1,000 mm strip in 5 passes, while working normally in rolling thicker or narrower strip. There are 6 figures; 2 tables; and 1 Soviet reference. VNIIMETMASh Card 6/6  18-5100 78043 SOV/13o-6o-3-12/23 AUTHOR,3t Fedin V. P.) Prilchod 'Jco, 1. F., Gr1t3uk, N. F. TITLE: Concerning Trends in the Development of Guides and Repeaters PERIODICALi Metallurg, 1960A Nr 3, pp 17-22 (USSR) ABSTRACT: Before 1950 rolling mills were equipped with slider- types only. At present roller-type guides are added to the above. Existing guides are classified accordine; to: (1) position in stand;'(2) design of grade units; (3) type of fr_6ctlon between strip and guide elements. Roll pass design has a considerabl(? effeet on the design of entry guide units. Delivery Vuides prevent bending of strip erds and secure correct entry into repeater. In rollingr shapes and rails, slider-type guides are used. This is justified by the zimplicity of such guides. In Soviet as well as foreign practice, roller guides with one pair of rollers (such as entry Card 1/5 boxes with rollers set on flat springs) are popular.  Concerning Trends in the Development of Guides and Repeaters 78o4- SOV/13o-6o-3-.12/23 Similar designs are used at finishing stands of section mills of Magnitogorsk Metallurgical Combine (Ma), Chelyabinskj Makeyevo, Stalino. Krivoy Rog, and "Serp i Molot" Metallurgical Plants (Chelyabinskly, Makeyevskly, Stalinskly, I "Serp I molot" metallurglchukiye zairody),. Advantageot easy aet-up, dependability, low forces in pushing strip through rollers.. For isimple shapes (rounds and squares) funnel-type guides tire recommended, as designed by N. F. Gritsuk (see Fig. 2). Card 2/ 5  Concerning Trends in the INvelopment of' Guides and Repeatero f7* I 1 It (j 7 `0 113 SOV/130-60-3-12/23 .9-// Fig. 2. Receiving funnel; (1) box; (2) funnel; (3) Card 3/5 setting.bar; (it) clamp.  Concerning Trends in the Development of 78043 Guides and Repeaters SOV/13o-60-3-12/23 S. V. Merekin suggested the use of twist rolls which were eventually modernized at Makeyevo Metallurgical Plant upon the proposal of V. F. Lai-anskly and K. V. Kuchevslciy. Roller Btraigtiteners set behind the finishing stands prevent the strip from twisting before delivery to cooler. Th6 life of roller- type guides and repeaters is prolonged by increasing the durability of main parts, I.e., rollers. In thia connection rollers from gray arid alloy cast iron with chilled surface its well as from low and inedium carbon steel with surface hardfaced by Tal-IM, Ts-1, and Ts-2 hard-alloy electj?odes are used. These rollers are reconditioned by repeated hard-facing directly in the shop. Roller-type guides are particularly recommended for in,~exiyiedlate and ffnishing stands of' rolling mills for rollirig nonferrous metals and alloys which are very sensitive toward scratching. Roller-type [Wideo li:3ed Cor small-shape Card )V5 arid rod mills are of lavgor th,an slider-type J!,uAdeB,  Concerning Trends in the Development 78o43 of Guides and Repeatero SOV/130-6o-3-12/23 Therefore, slider-type entry guides are preferred. Their wear resistance is Increased by 7.5 to 13.5 times by chromizing or boronating work surfaces. In this respect, the authors recommend a study of the experience of such advanced countries as the United States and Sweden. There are 6 figures, ASSOCIATION: All-Union Scientific Research Institute of Metallurgical Machinery and MagnitoGorsk Metallurgical Combine (VNELMETMASh) Card 5/5  PRrMD110, I.?.; MIN, T.P.; IVANOT, Tu.G. Wear-resistant materials for the manufacture of roller bearings for the equipment of rolling mill fittings. 140tallurg 5 no*8:27-31 Ag '60- MR& 13s7) 1. VeesoyuzM7 nauchno-issladovatellsidy institut metalloobrabotki i mashinastroyeniA. (Rolling mille)' (Roller bearizge)  5/1?3/61/000/003/009/014 A051VA033 AUTHORS3 Shevchenko, A. A*# Doctor of Technical Sciences; rhayayev.. 0. Candidate of Technical Sciences; Anisiforov, V.-PI, Candidate of Technical Sciences; Arutyunov,, 1. G., Gandidate of Technical Sciences; Yurgelenas, V* A*, Engineer, and Fedin V. P.,, Enel,.A neer TTUE: The performance of two-high reducing mills with individual drive FMIODICALi ~S.talf, no- 3, 1961j 251 - 256 TEXT t When planning three-high reducirgr, millo %thh VRITMASh and, Ukr1r1T1 made a thorough study of the two-high reduction mills witi indivi- dual drive., not supplied with rotation-stabil!Lzers, In order to match the operation of these two types of mills the single deformation values were taken a little higher (mi - 3.5 + 4.2 %) than usual in Soviet plants. The tube dimensions varied between 96 x 3.25 - 3*5; 96 x h - h.5 and 96 x 5 The motor speeds for these'typen of tubes are given in table 2. Before reduction the tubes were hented to IOLO - 108DOC, the MuTber of motor re- volutions was recorded on the switchboard by means of an MM type tachovolt- Card 1/6  S113316110WI00310091OVi The performance of two-high reducing A05blAO33 ..r-ter with a relatively low accuracy (:t 10 rpm). The data compiled for the average chango indw,;M-thickness at the and ard central parts of the tubes rolled in 21 and 17 stand mills are 'given in tables 3 and L. They show that when the tension is increased the wall-ttickneas In the central rart of the tube decretses, while the increase in ~mll_thl&ncss at the tube ends will. reach a maximum only at tensions of 0 - 9-5 %. In all other cases any increase in tension reduces the wall.-thickress at the tube ends. Table 4 shows that, the deviation in wall-thickness in lateral direction. suddenly increases at the ends, irrespectiie of the tension, while it de- creases in the central parts) when the tension is raised. With templates of 96 x h and 96 'N 5 mr, tiffies it was established that the transverne sec- tion remains fairly stable even when no tension A all was ap lied, whereas the 96 x 3.25 rim tubes displayed defects (beads and fractures~ when reduced P I , a torsion of 3.5%, no defecte without tension, by 5A and 7 0. When applykig ware observed in the w-Ils of the 96 x 3.5 ria tubes. The values oP kine- -stand mills aatic tension of 3-5 % in the 21-stand and of 4% in the 17 does not represent tho limit. Fxperiments shDved--that it was possible to increase the kinematic tension md to produce tuber with even thinner walls in the central parts. If the tubes are rolled at Oe right temperature and Q.  S113316iln(OI0031009101h 'Elie performance of two-high reducing... AO5h/ A033 t'-,e roll speed Wusted carefully, the coefficient of tension can be as galeras: Determination high as 0.7 - 0.8 (Ref. 7: G.I. Gul)rayev; V. A. Yurr of Some Basic Technological Parameters of Tube Reduction with Tension. Transactions of the UI-rNrO ChM., 1958, vol- 13). Tests carried out to es- tablish the maximum values of torques and thooe for stabilized opw-'ration show that the torque values characterize the non-urd.forni load of the stands which in the first place depends on the adjustment of the roll-speed. When the tension is increased from 3-5 to h%j the torques of the middle- stand motors decrease uniformly, once the rolling process has been stabi- lized. The tests also provrd that in the expori-,ental reductions the mo- tors were not always loaded to full capacityj while ovc~rloading also occur- ked due to the inaccurate adjustment of the rt?volution of rollst (n). When calculating the reduction of tho mills, iJepend:Lr,%7 or the tension applied, the wall-thickness of-the tube and partial defornation obtained in one stand have to be taken into account. 'the oscillograin of current intensity shows that) at the rate at which thi,, tube proceeds to the next standy the current intensity curve doelinesj -inder tYc effect of the fron- tal tension of the following stand. This step-like character of the de- Card 3/6  311331611000100310091bib The performance of two-high reducing -A-54/AO33 crease in current intensityindicates the momont) w&en the tube enters the next stand. When the tension at the rear (viovied h~om the preceding stand) is taken as constant, the maximwm stretching force irill be proportionate to the difference of the ordinates of the maximtui and irtabill.--ed values of the =,rents The decrease in the general moment trom the Maximwn to stabilized state will be proportionate to the moment actIng on the stand investigated from the next following stand: A M .gen TDr M T -.kA, W I' -~Imax 71stab (3) k - v 3403 ni.r -Dr M -4-iore "'gen general moment, k = -coefficient of proportionality, v vol- Card 4/6  311~316110001003100910lh Thel-performance of two-hiph reducing iOWA033 tare, v) Dr a rolling diameter of the roll rma) ni.17 - velocity of idle run of rolls) rpm., T - stretching fcree, kg" :IT= and I tabL-- currnat in- tensities for maximum and stabilized moments) a. KBSTREPF-RIS NMEt sub- scripts gen. (general) y 2:(rollinga) , i.r. (idle ran), stab. (stabilized) are translations of the originalere, (obA__-_hyy), ,'f (katayushch?(y) 0 xA (kholostoy khod) and)c7(ustanovlenyy)'. Based on these formulas it is possible to calculate the atual stretchine forces end longitudinal stres- ses in the tube on the stand$ when being reduced at, different tnesions and various initial wall-thicknesses. The distribution of forces ard stresses of tension has no regular character; e.g., the maximum value of tension stress is 3~6 kg/sq mm (practically the yield point of the metal processed) uhile at a tension of 3,5% it amounts to 2.6 kg,/sq mm and at h % to 1.8 kg,/sq mm. The may:imum stretching force atta!.rs 2100 kg. The difference in stretching forces for the various stands of the mill are, to a certain extend, caused by the inaccurate adjustment of the rolls. The investiga- tion of roll-speed shows that there is a devLation between the actual and the rated speed of the rolls) both in idle run and in operation. In some cases the speed increases for the subsequent rolls, sometimes, however, a Card 516  S1133161100010031009101h Ther performance of two-high reducing A051VA033 decelaration is observed. The velocity drops on successive rolls affects the reduction process in several aspects; energy consitmption, torques, forces, tension, etc. Therefore the correct adjustmnt of the rara>er of roll revolution in stands with individual drive is of great importance, be- cause variations in the roll speed result in an irregular change of energe- tic parameters~ which unfavourably affects the tube quality. The tube walls will not be of uniform thickness and cracks may occur even at relatively low tensions. There are 5 figures, h tables and 8 references; 7 Soviet, I non-Soviet. Card 6/6  E,/137/61/000/007/020/072 A06O/A101 AUTHOM - Bayrakov, V..I., FedinV. P., Lazutin, A. G. TITLE: Some data from the investigation of the ope:ration of the reversing mill 1200 with reelers in the furnace PERIODICAL: Referativnyy zhurnal, Metallurgiya, no. 7. 1961, 7, abstract 7D38 ("Tr. Konferentaii: Tekhn. progress v takhnol. prokatn. proiz-va". Sverdlovsk, Metallurglzdat, 1960, 572-581) TEXT: Investigatlons were carried out on the rolling of steel sheets mark St. 2 and St. 3 with thickness 1.5 - 2 mm and width 62o - 1,0oo mm. It was established thatil) the metal pressure on the rolls Increases from the first passes to the last ones in the roughing stand and in the! planishing stand - inversely; 2) the average specific preseure Increases with the-ratio of the length of the,gripping are to the mean thickness of the sheet being reduced (for the roughing stand); 3) the average specific pressure increases with decrease in the ratio of the strip thickness after reduction to -the roll diameter (for the planishing stand); 4) the maximum torques'on the shaft of the motor installed are within admissible limits; 5) the maximum specific energy expenditure does Card 1/2  ,9/137/61/000/007/020/072 Some data from the investigation ... A060/A101 not exceed 24 kwh/ton; 6) to avoid motor overheating It is necessary to increase the number of passes. 1~ V. Pospekhov [Abstracter's note: Complete translation] Card 2/2  POLUKHINt P.I.p prof., doktor tekhu.nauk; BAYRAXC!Vt V.I. 9- kand,tekbn.naukl MiNg V.P.9 inzho' *Cbanges-in the mechanical propertles-of-iietals and'&Ubyb'und6r the ikfeof of cold rolling* by V.A. 'Trat'litk6irt N.M. Radchanko. Reviewed b7 P,L-Polukbinn'p V.L Beir ov. T.P. Pedin. Stals 21 no*2:l!50F'61.' (MPA 14:3) (Rolling (Metalw~rk)).(Tr*'ik1akbvj V.A.)K'"id-chenkot N.M.) . .7 - .1  a .-/i33/61/ooq/Oi2/oo2/oo6 A054/A127 AUTHOR: Fedin, V.P. TI11U: Rolling mills with-reelers in the furnace (as a matter for discus- sion) PERIODICALt Stall, no. 12, 1961, 1,o96 i,ioo T M Opinions are divided about the efficiency of reversing rolling mills with reelers in the furnace. Studies were carriod out during a period of years on the "1200" reversing rolling mill (with reelers in the furnace) of the Novolipetakiy metallurgicheskly zavod (Novolipetak Metallurgical Plrnt), which showed that this arrangement has a number of structural and technolbgical drawbacks. Among other things, it was not possible to maintain the temperhture of the Etrip coming from the roughing stand and the heat distribution was not uniform overthi strip cross section. The heat distribution could be improved by redezisaing the pulling rolls In such a.wa~ that the strip end, remaining outside the furnace, could not cool down befbre the pass, When the design of the heating furnace at the finishing stand was improved, the required tempera- ture In the slab could be ensured. The rolling process on the finishing stand Card 1/2  MWGHENKOO A*A,O doktor tekbnoauki OULYAYEV,,G.I., kand tekhn.qauk; ANISIFOROV, V.P., kand.takhn.nauk-' ARUTYUNCV, EG.t kand.tekbn.nauk; YURGELENASl V.A.0 inzb.)FEDINO-V.i,Ij, inzh. Peformance of,a two-high reducti-~n mill with individual drive. Stall 21 no.3:'i5I-256 Mr 161. (MIRA 1. Ukrainskiy pauchno-issledovatellskiy trubrWy institut I, Vaesoy-uznyy, nauchno-issledovatellsk.iy institut metalloobrabotki i mashinostroyeniya. (Rolling mills)  FEDIN., V.P. 14111a witb eollers in the Parnace. St< 21 no.12:1096- 1100 D 161, (MIR& 14 :12 3 I. Vvej-yuznyy nauthno-dooledovatellskiy institut metaUurgicheskogo mashinot, Lroyanin, (Rollingmino-EqLdpment and supplies)  POBEZIN, Ivan Sergeyevich; DROZDp Vladimir Grigorlyevicb. Frinimali uchastiye:.FEDIN, VJ insh * KALININ) V.P., kand. terim. nan ; ASTAKHOV,, I.G.p red.;ig ZA;'V.N., red.izd-va; ISLENTIEVA, P.G.., tekhn. red. I [Production of merchmt sbapes] Proizvodetvo sortavoi stali. Mo- skva, Gos*naucbno-tekhn.izd-vo Ut-ry po cbernoi i tsvetnoi metal- lurgii, 1962. 248 fiolling (Metalwork)) (MIRA 15a)  S/659/62/008/000/022/028 1048/1248 AINHORS.: Panin, V,Yee, Zenkova, E.K,,, Fedin,, V.F;. and Kudryavtoova, L.A. TITLE: The problem of high-tamperatura diffusion transformations in solid solutions SOURI"E: Akademiya nauk SSSR. Institut.metallurgii, Issledovanly-Et po zharoprochnym splavam. v*S,. 1962, 161-168 TEXT: The alloys (Cu + 14.9% Al, Cu + 14.9% Al + 0.025% P, Cu + 14.9% Al, + 0o06;'0' P, all percentages atomic) were homogenous solid solutions up to 1030OCo The electric resis,"Zivity of the alloys (P), mensured at room tenperature, was a function of the quenchin tem- perature (T ), reaching a maximun value of 10.48 and 11,02 micioolgae cm. for Pura and P-contalning alloys respectively at T =400-5000G"' .The P of the alloys quenched in water was higher than hat of the' alloys cooled in air. The hardness (H - T relationship was siml- lar to the Tq one, with -ffv(max)~ U kgo~aqemme for the pure Card 1/3  S/659/62/008/000/021/028 1048/10148 The problem of high-temperature diffusion... alloy quenched from 4500 in viater. This indicates that the Increase in p is not caused by excessiv vacancies in the alloy, and that the P from the P-containing alloys combines with the vacancies reducing their mobility. Both P and Hv in the alloys quenched from 7000C are lower than in non-quenched specimens, indicating the existonce of a highly, ordered structure In the alloys quenched from high- tempernturos. During anroaling, P decreases with time at the an- nealing temperature, the escrease In the pure alloys being much larger than in the P-containing ones, I.e., the stability of the quenched state Is much higher in P-containing alloys* The energy of activation of the diffusion processes increases with the P content of the alloy and reaches 35�3.7 kcal./mole in an alloy containing 0,06% P, which is almost twice the value for the pure Cu-Al alloy;, due to the decreased mobility of vacancies in the P-containing al-, loys. Diagrams show the effect of temperature on the electric re-': sistivity and internal friction in the allo7s,, In the friction Card 2/3  S/659/62/008/000/021/028 3.048/1248 The problem of high-tempernture diffusioneee diagram for pure alloy maxima at 2600C and 5200C are associated with the notion of the constituent atoms, and with stress relaxation on the grain boundnries respootivelye The Internal friction in pure alloy specimens quenched from 700-9000C wid in the alloys containing P is much lower than in the annealed gure'alloy; this proves that the specimens quenched from high temperAtures possess an ordered structure, and that the P from the P-oontaining alloys reduces the mobility of defects within the alloy* There are 3 figures* Card 3/3  FEDIN, V.P.;. rVANOVS Yu.G. lvqwlk~~~ Guide unit cft o.ontinuom binet mais, Metallurg 8 no.5:23-27 My 163, (MIRA 16:7) 1. Voonoyuznyy nauchno-iBeledovatellskiy i proyektno-konstruk- torskiy institut metallurgichookogo'siLahinootroysniya. (Rolling millo-Equipment. and supplies)  170 601~5*0 35910 s/o24/62/000/001/012/013 ul4o/F.435 AUTHOR:~ Fedin, V.T. Jkloscow) TITLE: On the problem of determining the spectral density at the output of a synchronous detector for a iliodulation. type radiometer PERIODICAL: Akademiya nauk SSSR..Izvestiya. Otdeleniye te1chnicheskilich nauk. Energetika i avtomatika. no.i, 1962, ift-i85 TEXT: The author claims that the previous literature on the correlation function at the output of a synchronous detector of a modulation type thermal noise receiver is in, error. This error arises from the assumption that the correlation function component C i(V + 0g =0 (1:2) 2, and constitute6 an'error of the order of 100% in the work where this is used. The author finds that this expression should ba taRen equal to Card 1/2  S/024/62/000/001/012/013 On the problem of determining ... E140/E435 cos v (21 + T) cos v (2f + .T (t) x (t + .1 x, (t) x, (i + -r) sin Yt sin v t +T) (1-5) X, W X" (t + -C) -/- 0 On this basis, he obtains the expression 3 :tk2 + 4 3 2 fl, 2 + (4)3] + 128 Ato + [ T (ff(~2)2 + 4. to 2 ' 2 15 where the subscripts c and W indicate signal and noise, respectively and the remaining notation is evident; IC2 k2 k 2 k 2 6(W) iS delta function. +he error of the previous lorm4ulae increases when the signal level exceeds the intrinsic noise of the radiometer proper noise, and influences the determination of the resolution (threshold sensitivity) of the, instrumont. There are 3 figures. SUBMITTED: April 5, 1960 Card!2/2  S/024/62/000/003/011/011 E140/E463 AUTHOR: Fodin, V.T. (Moscow) TITLE: Certain methods of controlling the output characteristics of low-frequency and ultra-low- frequency noise generators PERIODICAL: Akademiya nauk SSSR. Izvestiya. Otdeleniye tekhnicheskikh nauk. Energetika i avtomatika, no.3, 1962, 208-215 TEXT: The author considers the possibilities for modifying the- output (frequency) characteristics of low-frequency noise generators utilizing nbrmal noise generators and synchronous or square-low frequency changers. He shows that the latter are simpler but,that the formor present richer possibilities of varying the characteristics. There are 8 figures. SUBMITTED: January 3, 1961 Card 1/1  i FEDIN. V.T, I Radiation during the friction of metallic surfaces subject to the I action of dIfferent electric potentials. Ixv. vys. ucheb. Sev.; radiofix. 5 no*0747-750 162. MRA 16:7) 1 (Microwaves)  NIKOLAYEV, Andrey GriRorlyevicht PERTMV. SerReY Viktorovich; PERESLEGIN) S.V., reteenzent; FEDIN V T. retsenzentj KRASOVSKIY ., dokiorhe .-n*-4a-&- elm. red. A,A*# prof Nt" a , nau MASHAROVA, V.G.,, red. [Radar detection of thermal radiation; passive radar) Ra- dioteplolokatsiiaj-15asaivnaia radiolokatsiiiiijoskvap so_ vetskoe radiop 1964. 334 P. RA 17j12)  F-EDIN V.T inzh. -~~Ltzu P-termination or the static chara-v-10tier, of saim induntrial .oads# lzv.w .1s.ticheb.zav.; snerg, 8no.9s82-85 S 165- (KIPA 18110) 1. Belortinskiy politelrbnictieskly I.nntl.tul,. PreeistAvlena kafedroy alckti-iclieskikh sistem i setay.  FEDI,N V.T., inzh.1 GLAZUNOV, A.A., kand.tekhn.nixuk; K:LINIKGV, N.A., -7no tor tekhn.naukl SOLDATKINA, L.A., kand.te)din.nauk; KARFOA1, F.F., kand.tekhn.nauk; ARKHTPOV, N.K., inzh. (ducem-3ad] Efficinecy of load controlling device of 35 and 110 kv. transformers. Elak. sta. 36 no.2s85-88 F 165. (MIRA 18-4)  PTUKHA, T., kand.fiz.-matem.nauki FEEDIN, Ye. (Fedin, B.], kand.fiz.-matem.nauk Researcher in a miracde world. Znan'. ta pratsia no.3:18-19 Mr 163. (MUU 16 s 10)  GWOVp V.V.; FEDIN, Yp,.D. High speed stArao radiography. Zhur. nauch. i pr-lkl. fot. i kin. 10 no.2:124,-131 Mr-Ap '65. (MIRA 18:5) 1, Inatitut fiziki Zamli imspi Shmi.dta AN SSSR.  FEDIN Ye I., inzh.; VNUKOV, F.K., inzh. Moo6nization and automatic control in industry 'to the main road toward reducing labor consuming operations In reinforced concrete shipbuilding. SudoBtroenie 29 no.1:59-61 J& 162. (KMA 16:7) Ships,, Concrete) Mipbuilding-Equipment and supplies)  UTHAKOV? ;.G., 'ennd. tz-An. naukL_F~E_DJ_N Y6J. inah, w1orvio" lifo of shipbullding coterate erposed too :picktl Ing Solutions and brineso Sudontroanie 30 no.1204-37 D 164. (MIRA 18 s 6) tq--~.tw WT  FEDIN Ya.Ya* (Moskva) Immortal legacy of a French atheist: Jean Meslier and his "testa- ment." Priroda 53 no.7s99-102 164. (MM 17:7)  SOMCB: Byulleten' izobret:sniy i tovnmykh anakov, no. 5, 4)65, 52 TOPIC TAGS: x ray, photograpbyt stereoscopic Dhotogranlir. nn;Lt:i-fA ~,T: This Author CertiCioate presents a device fair the hi.gh-speed juleed stereoscopic x-ray- photographing of. rapidly o4m-Arrirg ;x-rzV tubeur puise voltage  14Y"63 EMCM, 01 IRO REP SM 000 oTmmt 000 SM CODSt. 98# op  FEDINA, A. B., 1&-MEDEV, Zff. A. (USSR) eptide-nucler:',de Compound!: in Cr-oi:s and t',,efx "A study of Cortain P posnible role in the Syntiiesis of AlLiminre" Report presented at the 5th International Biochemisti-j Cowrccs, 1,,Iosccw,, 1G-16 August 1961  FEDINA, A.V6 "'t-ratigraphy of the 14murian sediments of the northern Cpe of the Ukrainian ex7at-alline shield. Tti-idy IlYrNIGRI ro-5,0,,~e-72 163. (MIRA 18:3)  1. FED331A,, A. YE. 2. 'USSR (600) 4. Geology and Geograp4y 7. Books on Crimea. Roviewed by A. Ye. Fedina., Sov. Kniga, No. 4, 1952. 9. Report U-3081, 16 Jan 1953, Unclassified.  FEDINJ6 A- YE. Dissertation'. nWerience Gained in the Phyaicogeographical Region&jigation of the Caucasus (In Connection With the Creation of Exhibits for the Geography Museum in Moscow State University)*" Cand Geog Scis Moscow State Up Moscows 1953. (ReferativW Zhulml-Geologiya/Geograftya, Moscow, Aug 54) SOt SO 393t 28 Feb 1955  MINA A Ye. -mlo 000,1,01, 4-00~ Kolkhl"o Geog. v sbkole no.6:16-21 X-D 1453. (MM 6S12) (XoMida-Desoriptiort and travel)  14-57-7-14392 Translation from: Referativnyy zhurnal, Geograftya, 1957, Nr- 7, p 19 (USSR) AUTHORS: Ovozdetskiy, N.A., Fedina, A. TITLE: Physical Geographical Districts in the Caucasus (Fizikc- geografleheakoy6 rayonirovaniye.lCevkaza) PERIODICAL: Vopr- geografii, 1956, 3b 39, PP 130-150 ABSTRACT: This new division was accomplished by analyzing the interaction of all physical and geographical factors. The histotical, or more accurately, the genetic approaches were used whenever possible. Close at tention was paid to the relief. The authors have tried to find the processes or factors which caused the differentiation among the rpgions. Changes caused by human activities were studiqd as far as possible. The authors regard the zones difrerentiated by the ele- vation on mountain slopes merely as one provincial Card 1/7 A K, '~~-Mzn A" 5  14-57-7-14392 Physical Geographical Districts (cont.) or local peculiarity. A map of the physical districts of the Cauca- sus is included. It shows the region to be divided into 46 districto. 1. The western and central Ciscaucasian district. 2A. The western Ciscaucas* subdistrict: 1) the Kuban'-Azov plain; 2) the Kuban' sloping plain; 3) the Kuban'delta; 4) the Taman' Peninsula.~ 1B. The central Ciscaucasian subdistrict: 5) the Stavropol' highland; 6) The northeastern Stavropol' region; 7),the Minerallnyye Vody laccolith region; 8) the Terek-Sunzha highland; 9) the Kabardinskaya, Osetins- kaya and Groznenekaya sloping plains. II. The Caspian lowland die- trict. IIA. The Terek-Kuma lowland subdistrict. 10) the Kuma plain; 11) the,Terek-Kuma sand mass, which includes the adjacent section of the Terek River valley; 12) the deltas of the Terek and Sulak Rivers. III. The Greater Caucasus district. IIIA. The subdistrict on the - northern slope of the Great Caucasus: 13) the Black Sea Caucasus; 14) the Kuban'-Ardon cuesta region; 15) the Ardon-Sulak region; 16) the outer Dagestan region and*the intermountain district of northern Azerbaijan; 17) the limestone karst regio,111 in southeastern Dagestani Card 217  Physical Geographic9l Districts (cont.) 14-57-7-14392 18) theiriterior limestone part of Dagestnn; 19) the Caspian foothill littoral region; 20) the Samur i-Akzybir reglon; 21) the Caspian - , Caucasus. IIIB- The high mountain'Great Caucasus subdistrict: 22) the high mountain region in western and central Caucasus; 23) the high mountain region In the eastern Caucasus *. IIIC. The subdistrict on the eastern slope of the Great Caucasus: 24) the northern Black Sea region; 25) the northern Pontic foothills (Sochi) 26) the southern Pontic foothills (Kolkhida); the limestone karst region; 98) the intermountain region of Georgia and Azerbaijan. IV. The Kolkhida lowland district: 129) The eastern Kolkhida region; 30)-the maritime Kolkhida region. V. The Kura valley district: VA. The Apsheron-Kura subdisirict: 31) the Apsheron-Kobystan region. 32) the Kura-Araks lowland. VB. The Kura Alazahi subdistrict: 33) the,Xura region; 34) the.Sh2.rakskaya (Steppe)-Adzhinour region; 35) the Alazani-Agri- chay region; 36) the Gori"- region. VI. The trans-Caucasian high- land district. VIA. The Little Caucasus subdistrict: 37) the Adzha- ro-Trialetskly region; 38) the Somkhetski3-Murov Dag region; 39) the Karabakhskiy region.. VIB. The Almenian hl.:ghlarid subdistrict; 40) the Dzhavakhetskly region; Card 3/7  14-57-7-14392 Physical.Geographical Districts (cont.) 4fl the Aragats-Karabakhskiy region; 42) the Darslagezskiy region; 43 the central Araks basin. VII. The Girkanskaya district. VIIA. The Talysh-Lenkoran' ',dubdistrict: 44) the Lenkoran' lowland; 45) the Talysh region; 46) the region which forms the incised part of the Talysh and of Diabarskaya Kotlovina (Basird (Zuvand). A bibliogra- phy of 55 titles is included. Card 4/7