SCIENTIFIC ABSTRACT FEYGINSON, N.I. - FEYNBERG, S.M.

LYSENKO. T.D.; OLISHANSKIT, M.A.; SINYAGIN. I.1.; GLUSHCHENKO, I.Te.: VARJUTSTAN, I.S.; FREZRNT, I.I.; SHCHF.MINOVSKIT, U.S.; BHUMV, V.I.: TEVS'P'LGNFTEV, S.N.,- BOCTWER, A.M.; LIVIN, T.M.; TATKOVAl A.T.: PODVOYSKIY, I.I.: SAKS. Yn.I.; KHALIRWN, I.A.; MONSON, S HClr,4GLOVA, Tu.H.; DLUGACH. G.V.; STERNIN, R.A.-."TTMUM, O.V.; GUBI'7A, T.I.; RUMOTLID, M.I.: TSVETATRVA, Te.M.; PAF=- MUNKO, Te.*r.; NEYMAN, N.Y. Sofia IAkowlevna Voitinakaia; an obituary. Agrobiologila no.4:121 JI-Ag 158. (KRA, 11:9) (Voitinakaia. Snfilia Iakovlevna. 1898-1958)  --ZuaLN.S.~x N. I. "r,-- t4c=4 L~ 1.4. %, A good mannal ("Course of lectures on the gegOtics of farm animls" by &.S. Velakikh. Reviewed by N.I. Feigin'son). Agrobiologiia ro.5:157' S-0- 1 58. (MIRA 11:11) Pomestic animals) (Genetics) (Votakikh, A.S.)  FRYGIMON. N.1., kand. sel'skokhoz. nauk No tre-3do in the biological science. Biol. v shkole no.4:75-82 J:L-Ag '59. k14IRA 12-11) 1,14omkovskiy goeudaretvenrj7 universitet imeni N.V. Lomonosova. Wenetics) k5cience-Philosophy)  FZYGI14SON, H.1, Lararek, Darwin and Heackel and the prosent state of the problem concerning the inheritance of acquired properties. Agrobiologiia no.5:722-732 S-0 '59. (MIP". 13:2) 1. KeXedra genetiki i selektaii Moskovskogo goandarstvennogo univorsiteta. (Lanarck, Joan Baptiste Pierre Antoine De Monot De, 1744-1829) (,,'Parwin, Charles Robert, 1809-1882) laockol, Irnot Heinrich Philipp August, 1834-1919)  FEYGINSON, II.I., kand.eellskokhoz.nauk "~Nwluvummw Darwin and modern times. Dokl.Akad.selikhoz. 24 no-10:3-8 159. (MIRA 13:2) 1. Kafedra genettki i W,%Ictsii Moskovokogo gonudarstvannogo universiteta imeni N.V.Lomonosova. (Darwin, Charles Robert. 1809-1862) (Biology)  FZYGIIISON, N.I. Concerning A. Durrant's and H. Tyson's article. Agrobiologiia no.4*57-558 Jl-Ag 160. (IfIRA 13:8) 1. Mookovskiy gosudarstvannyy universitat im. M.V.Lononosovs, kafadre genetiki i selaktaii. Oflax breading) (Genetics)  460. More about ek b~rranti.0 works. Agrobiologiia no.6:830-Sn " ) (KM 13-.12 1, I~bskov*jy gosudaretvemlyy universitet iMOni M*V*LOWUO8ilMt kafedra genstj4 i selektaiio (n= breeding)  FXMINSON, N.I. I Analysis of the negative results of some experiments In vegetative Wi5riiization, Boto zhur. 45 no.10-1476-1487 0 160. (MIRA 13:11) 1. Mookovskiy gDoudaratvennyy universitet. (Grafting)  FUIDwj Alek3ey Yevgenlyevichi FET91PSON, N.I.v otv. red.; P%IALENIKHA O*Ts j redo; YEPJWOVj 14~Se t tekhno i-o-d. [Origin and for*tion of the dialectic conception of developnent in biology] Voonilmovenis iformirovanis dialekticheakoi konteeptaii raisvitiia v biologii. Mo-skvaq Izd-vo Mook. univ.v 1961. 282 (MIU 24985 (Biology-7~hilosoplW)  OLISHAESKIY; LYSENKO; NJVARENKO; AVABM: VARUIMYAN; GLUSHCH7-,lrfO; PR.:-,r--IiT; VA'-RE;'.IITSA; RALYUld; OZIRSKIY; TOMASHEVICH; SIULIN; T'AaWISHY; TRETIYAKOV; NOVIKOV; ~~ TELYATNIKOV; XULIMAN; KONSTANTINOVA; SUMIOV; VOINOV; STEPIU101r- SHOSTAK; BA14BMI; CIIUBASOVA; TKUCHUK Timofei Ignatlevich Belash. Agrobiologiia no. 3:447-448 My-Je 161. (MIRA 14:5) (Belashy Timofei Ignatlevich, 1901-1961)  FE.YGINSON,,- N..~:-- Problem of the exceptional genetic role of deoxyribonucleic acid. Agrobiologiia no-3:454-472 My-Je 162. (MIRA 151lO) 1. MO!3kovskiy gosudarstvennyy universJtet imenl Lomonosova. (NUCLEEC AC1DS) (GENETICS)  FEYGINSONI N.I.1, kand.oellakokhozMstvennykh nauk For -vatorl Al 4 atio - biolog7a *ol.v. shkole- no.fis,71-79 N-D 162.. (MMA .16 12) 1. Moskovskiy gosudaratvinnyy uni~erpitet imeni Lomonosova. '(Genetics)  FEYGINSON. Noy-~�J.Q ~-GLUSHCHENKO, Lye., akademik, red.; TETYUREVA,I,V., red., DHEVA, V,M,, tekhn. red. (Corpuscular genetical Korpuskuliarnaia gonetika; kritiche- skil ob2or. Moskva, Sellkhozizdat, 1963. 542 p. (MIRA 16:6) 1. Vsesoyuznaya akademiya seltskokhozya~stvennykh nauk imeni V.I.Lenina (for Glushchenko). (Genetics)  KOMMONER B ' Caumoner, B.], prof. fiziologii rasteniy;jTYGINSON, N.I. (tran!ilatori In del'ense of biology. Agrobiologiia no-3:351-358 YW-Je 163. (MIRA 16:7) 1. Prodsedatell Komiteta po molekulyarnoy biologii Vashingtonskogo universiteta, Sent-Luis, Missuri, SShA. I (Biolog-Y-P14-2-osophy)  FEYGINSON, N.I. Collection on molecular genetics. Agrobiologiia no.6:931-945 N-D 165. (INaRA 18:12)  L 2471-'4-65 OeIT(P.)/EWA(d)/T/biP(t)/EWP(kY/EWP(b,I Pf AFDC (b /T;r-,"APdT-/ !;~-,,'(p JT /HW AR,'000587 N M N ~L.'--kovslc ~y, V. M. yaloyfets, k1aborator,.' vacuum furnace with manipulator CITED SOURCE: Sb, Proiz-vo trub, v-rkp. 12. M-, Metallurg'7a, !964, 74 - 7 7 TOPIC TAGS: vaomm furnaoej vaouum chamber, hef.,t tj,eiitlme,~t, 7 011 A horizontal resistance fu-rnace w.1' a and n vacuum chamber was des rnid an ".0 r~asearca Pipe Institute for -.ha 3 f paramate7s and vorifi ions (~n t~'~e "3 of pipes under different degroes or a c .,,'7 TN Ina fiu-nxr~e body consisted of' ;DTo -;f atain'Lass steel rol'.ed lnt,- t,,,3 end. On tie cover of thu oody were ~)Iace,-' 7,11C U c co,c  L 2013-65 ACCESSION NR: AP-5000587 torn, 3 heaters, a handle for the door of the furnace, and an arran'-e-ment for In5erting a thermocouple. The heater, made )-P molybcientim or a Nichrome type alloy, was placed In tho arnu'la-r ;7,ap '_,',7 1wr) korrak.9 cylinders. These c7l ~.n~~ers -,4er,~ tWQ face flanges of the same material. The ffront 11 an for inserting the samples into the s -D',ume 3(-) rmn -'-n diamoter, PT-1(~ I --1T---'nr is cl)sed by a door with a !3Lot for -i-v'- of the d)cr passes outside of the axtarr-,F~'- out th. -ough a soal in tt-.o roof o', reating )affles made of stain-loss 3noelu 3!' e,,' a-r- f I - - '- ~) n Ga face clamp3 of the baffles and e-re cen*--or~- six scr)WS. The covering, of a cta~ r, tne opeiingn of tho external baMos 's:~-een there are led two copper condtic tr4- . Oaiings, ~.onneoted to the hnqtor wil. q g made of copper and Jla located .1r. C ~3 ,!'no man.pulator is in the form of a 'low ihaft of the maniptilator -~a- of tt~ i ft=aoA bod7 and moves  L 2013-65 A S S 7 0 ZI IjR AR5()00587 the vacuum chamber, Feeding of current to the heat-or is ca-rried out an rLutomat--d transformer and a reducing, trar~~,-rmor, '-f the oatLng up to the dosl~ror' on an, off the autom8tic P-n aut( mat ic type PSR-1 po -'stIt3i-noiybdenuri thermocouple. The degree of is measure( with a LT-2 thermocouple and a,-. conjunctiOT. With a VNT-1 vacuum motor, A -.onoral of Ine heating apparatus is given, along with a do-icription of furna0e, Tte prooedure for producing a vacl;ur. Is ~a3-rllbod. SUB CODE: 14M ENGL: 00 Card 3/3  L3 -- -- P(z)AWP(b)/EWA(G JD/W 995-66 E(IT(.m)/~YIA(d)/t/E~F(t)/E(IP(k)/tW. .-,ACCESSION NR: At5O22786,- UR/3164/64/000/014/0084/0089 44, AUMOM P'UMX B. A. (Ragtc~ TankovskL V. M. (Candidate of technical me " sciences); Shkrenio. A. AT 1U.91" a S. Ya. n&Lnear)l Vaslienko A. Y (Engineer) 'Otella, V. , (Engineer) ff's VY, TITLEs Vactsum electrical resistance unit for host treatment of tubes Muiptiletrovsk. Vessoy"M nauchno-IssladovatellskLy i kdnsttuktorsko- takhnologLdiaskly Institut trubacy promyshleanosti. Prolavodetvo trub, no. 14, 1964. Sborvik statay po teorii J praktike trubnogo proLayodstva (Collection of articles on tho theory and practice of pipe production), 84-69 TOPIC TAGSt steel tube, alloy tube, heat tvalstant steel, host resistant alloy, 11 tuba, heat tteatment, vacuum beat treatment! A~SNCr: An electrical resistance furnace for host treatmeda heat-resLstant" stealland alloy tubeaftham been built by the Ukrainian Scientific Research Institute=- 7- ---- 0 for Tubes*.,-%,Ne- furnac consists of a vacu-mi-Wain-Fe-r. a vacuum system, a movabI t a r& , 'a "U~ "ad a rack puULai mechanism. : 'Me vacuum chamber is a cylinder, 500-mm t L inside diameter and 3000 M Ica with fte find and me movable and closuret I -48.9ads of as awat"Itic st"l.wTbe vacuum system Is capable of preduciag and -, maintalaing a vicamim of 3#IW-0 20M.RS... tabe reek em bold one or several tubes  W"t L 3995-" 1ACCESSION 111tj 05022796 jup to 40 me outside dismater and 300-2000 sm long. with a wall thickness of 0.5 to 11.3 me. or a coniainer filled with small-49smater tubes. In the former case the ;tubes are hesited directly by passing electric current; to the lattercaso the curren is passed througli the entaic*r. The power Is supplied by two single-phaset trans- formen with a viecondary voltap rangs of 14-160 If- The mit Insures a temperature ,of 2000-IMIC wd beat t"ats up to 121 tub" par'shift, &pmdial oo I,* and material. OAS. art. hemal .4 figarea. ASSOCIATION1 SU1M17T1Ds,. MCLI 00 SO OOM 2 Is NOq vM111 WO An nus s go 11ir 50TI - 01 Card,/ W VVE" .3 MVTU Wall. S 7 VTT V.  A 528 SOURCE CODE: UR/0276/65/000/012/BO39/BO39 Kheyfets, G. N.; Yankovskiy, V. M.; Kadinova, A. S.; Shkurenko, A. A.; AUTHOR: Feyglin,,,Y,.-,I(.,;,,Tikhonyuk, A. N._ TITLE: Determining the basic parameters for cooling of gas cylinders during jet annealing SOURCE: Ref. zh. Tekhnologiya mashinostroyeniya, Abs. 12B294 REF SOURCE: Sb. Proiz-vo trub. Vyp. 15. M., Metallurgiya, 1965, 72-79 TOPIC TAGS: liquid gas container,annealing, cooling ~ABSTRACT: A methcd is proposed for studying the process of jet annealing of thick- walled gas cylinders to obtain data necessary for designing jet ing devices. An experimental laboratory installation is designed and manufactured for individual and simultaneous water-cooling of the outer and inner surfaces of a gas cylinder while it is rapidly rotated to equalize cooling along the perimeter. The schematic diagram and technical characteriatics of the experimental installation are given. Practical curves are plotted for cooling along the cross section of the cylinder wall, the rate of flow of the coolant is determined and a method is found for cooling the cylinder wall at the required rate. Heat treatment conditions are established for cylinders made of 4OKh steel. The workpiece is heated to the prequenchine temperature of 8700C Card 3.12  L 04154-67 IAtC NRI AR6oi6528 in a batch-type furnace, held at this temperature for 40 minutes, cooled in a bilater-I al (inside and outside) jet cooling device, annealed at a temperature of 5000C and held at this temperature for 2 hours. It is shown that bilateral cooling gives the cylinder practically identical mechanical properties with respect to length and cross section and that theve properties satisfy technical specifications. Schematic dia- ,grams are developed for cooling devices to be used in annealing high-capacity gas cylinders. 6 illustrations, 1 table, bibliography of 3 titles. [Translation of abstract] l SUB CODE: 13 Card 2/2  HEYETS, G.N., kand. toklin. naiik; Y11IiKO'11z'FJY, V.I.%, kand. Tukin. nauk; SMKIN, I.I.,, Icand. tokhri. nauk; NDINOVA, A.S.t Iii,,-,h.; [laggli, 1~,N.) inzh.; TIKHONYUK, 1i.14., inzh.; A.A., lnzh.; Y,HO,',IENKO, A.G.., inzh. Steam hardening of high-capvtclty cylindors. Stall 25 iio.8:8,/9- 852 S 165. (MIRA 18:9)  L 4951-66 EViT~ 1)11'-Vi V(e)/EPA(s)-2/&JT (b) ACC NR: AP5025717' SOURCE CODE: UR/0286/65/(XYj/0.L8/uojj)/Ou7j j: AUTHORSs Aslanovaq Me S.;1 Syritskaya, Z. Me; IF2ykner, S. ya.". V OR02 none TITLEt Glass* Claiss 32, No. 174779 -armounced by Stato Scientific Research IInstitute of Glass ':Gopudarstvennyy nauchno-issladovatollskiy institut steklaY 0 4j SOURCE: B it yulletenizobieteniy i tovarnykh onakov,.no. 100 19651 70-71 TOPIC TAGS1 glase.,kielectric permeabilii, the .rmal stability, chemical stability ABSTRACT/ ~ This Aut,2or Certificate presents a method for obtaining a glass of high :.Lk(FT~I\Ind chemicaL stability, high dielectric pormeability, and low teruperature of cooking. The cozponents making up the glass are taken in the following pr ortione (in wt %)i P205--30-40i TiO2-51-6% si02-3-6, and loss than 2% of N275, 'jub uuj)rjt MT/ SUBM DATE* O2Nov6h 01 666.U2.92 t546.18 --I 0 7'0 1 /-C-.r7  35922-66 EfiT(m)/EWF(e) i0111 H ACC N AP6012132 (A) SOURCE CODEI UR/0413/66/oOO/007/0051/0051 IMNTOR: Aslanova, M, S,; Syritskaya, Z. M.; _Eeykners,, . 3 , Ya. Zak, A. F.; Khomutov, A. 1. ORG: none TITLE: Glass. Class 32, No. 18o-i17 Za-nnounced by All-Union GInso Fiber lesearch Institute (Vg3esoyuznyy nauchno-issledovatellskiy inaUtut steklyannogo vT1 SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znalci, no. 7,-1966, 51. TOPIC TAGS: glass, glass composition , OL.195:n; rloe'e- /2,eopeprr ABSTRACT: An Author Certificate has been issued describing the composition of glass containing P205,, Sio Ti j A12()~' MgO, which is intended for the manufacture of g1 ss Kber~ To pr duce a fiber with high absorption properties, the following wt. (%) of the above components are stggested: P205, 40.0-55.0; S102, 32.0-43-0; TiO 0-6.0; A1203, 3.0-8,0; MgOj > 1.0; and CaO, 3.0-5.0. YLD) anslation o~ abatTact 7 MMOB, CODE: - ll/ SUBM DATE: 12Feb65 1  _J,2063M�, E(fT.(n)/EWP(e) WHJWW ACC NR, AP601!~Z SOURCE CODE -.-UATONf376-6706(Y[606fO76'627mi527 INVVITOR: Aslano,ra, M. S.; Syritskaya, Z. M.; Feykners, S. Ya. 77= ORG: none TITLE: Chemical- and heat-resi 3L ut+lass7*~Class 32 No. 179885. [announced by All-Union Scier..-ific Rdfmkrcir Insti u0 lass Fiber (Vsesoyuznyy' nauchno- 077 issledovat~l-sk7iy--inst-it-u-t--Steklyannogo v SOURCE: Izobreteaiya, promyshlennyye obraztsy, tovarnyye znaki, no. 6, 1966, 62 TOPIC TAGS: chemically resistant glass, heat resistant glass, glass fiber ABSTF*T: An Author Certificate has been ~Itd for chemical- and heat-resistant glassPfor the marrifacture of glass fiberA6istant to aluudnum phosphate binder. The glass has the following '1111 17l 0,, 22-32%; Ti022 64---88%; sio2, 1-4%- Nb242 not over 2%. In addition to these ingredients the glass contains: Cr203: 1-4 ; W03, not over 1%. [BO) SUB CODE: 1l/ SUBM DATE: 19Feb65/ ATD PRESS: q-L'26 10 ~ Card 111'e'e" uDc: 666.112.92:546.18128'T8'821882  Uniog semiconductor the,~mtstors with resistance thermometers in measuring and reeullatl-4- trmpereturcs in diea, lZM. tekh. vc.~: 56-58 MY-JO '57. (MURA 10- 8) (Thermom- try' ) (Thermt ijt,,)rs) (Die caojtlrg)  YBYLER, G.O., inshener; TILIK&N, B.P., Inshener. --- - - --- --- W, Wear rasistance of disk br&lces built Into electric motors. Yest.elektroprou. 27 no.11:60-" N 156. (WRA 9: 12) 1. ZaviA "Dinano.0 (Blectric motors) (Brakes)  F'15! YZ ER!, Raw hi U- m! js to H gg; '5 9~; Ou I i '31 to 8 left 0 al 114 ~. t Aull 51 1 1 Ali I A- ME . 1 ~4 A, 311i - oil WS; H  AUTHOR: Feyler G.O. Engineer 110-58-5-1/25 TITM:-_Th~ Resistance to Wear of the Contacts of Dire--,t-current Contactors and Controllers (Iznosoustoychivost' kontaktov kontaktorov i kontrollerov postoyannogo toka) ]PERIODICAL: Vestnik ElektroprOMYBhlennosti, 1958, Vol 09, Nr 5, pp 1 - 4 (USSR). ABSTRACT: During the last two years, the apparatus laboratory of the Dinanio Works has tested the resistance to wear of different contact materials. The tests were made on direct- current contactors; the main technical data are in Table 1. The followirtg materials were tested: a) Contacts based on silver; silver (S) silver with cadmium oxide (OK or SOK), silver with nickel (SN5; b) Contacts based on c0 'per: copper (M), oxygen-free cop er (MB), cadmium copper (M ' copper with cadmium oxide (OK-M3, copper with cadmium oxide and added silver (S-OK-M), copper with iron (Zh.-M), copper with tungsten (V-M). The tests sb.owed that the main factors governing the wear are: the current, the intensity of magnetic blow-out, the time that the are is on the contacts and the vibration of the contacts. If the voltage is above 50 - 100 V, it has little effect on Cardl/5 wear and so the tests were made at the minimum standard voltage  1]0-58 5-1/25 The Resistance to 'Near of the Contacts of Direct-current Contactots and Controllers of 100 - 120 V. If magnetic blow-out is used, load inductance has little influence on contact wear when coniacts are opened. However, when a d.c. circuit is closed the lower the inductance the greatex the rate of rise of the current to its final value and, therefore, the greater the wear. Tests on contact materials are best made on the actual apparatus. This has the additional advantage that simultaneous tests can be made on other parts o., the equipment but the inductance and voltage of the circ.it must then be of normal value. Contact wear is best estiuiated by loss of weight or volume for one opening and closing of the circuit. This value is called the specific wear. The relative resistance to wear of a material is defined as the ratio of the specific wear of that material to the specific wear of the reference base material, silver or copper. Wear resistance is,, of course, not the only important factor in selecting contact material; in particular. the contact resistance should be low and stable. The material 6hould also possess high resistance to contact welding. Card2/5 The results of wear-resiatance determination on contact materials  110- 58-5-1/25 The Resistance to Wear of the Contacts of Direct-current Contactors and Controllers using a contactor type ICPD-103 are given in Table 2. The tests were conducted by Engineer S.A. Shterenberg and Engineer I.S. Gorchakova. The contactor made and broke a current of 150 A at 220 V; the circuit inductance was 25 mH. 11he operating rate was 400 pEr hour and the arc remained on the contacts for 2 - 5 millisecs. From the results, it is concluded that contacts SOK have the highest resistance to wear and are six times better than copper. Silver contacts wear almost twice as much -as SOK contacts. Cadmium-copper contacts are the best among those based on copper. Table 3 gives wear test results on contact materials using different types of contactor. In all cases t~e temperature of the contacts during the tests was 70 - 80 C. Table 4 gives the results of tests on the same materials operating under tho following different conditions: a) making and breaking a current of 150 A; b) making a current of 375 A and breaking 150 A. The are was on the contacts for 2 - 5 milliseconds. From the results it is concluded that: a) when making 2.5 times rated current contact wear C~)rd3/5 increases by about 300161. With different contactors, the  110- 58-15-1/25 The Resistance to Wear of the Contacts of Direct-current Contactors and Controllers specific wear of contacts ranges from 17 - 30 ~tg, hence good design may double contact life. Contacts OK-15 are worse than contacts SOK. A graph of the relationship between the specific wear of contacts and the contactor current is shown in Fig.l. In this case rated current is niade and broken; different types of contactor were used for the lower and higher points on the curves. Table 5 gives the results of tests of contact materials on the direct-current controller type NP-150. It will be seen from this table that the resistance to wear of the controller contacts is much worse than that of the contactor contacts. In order to verify the stability of operation of contacts, after every 50 000 operations, determinations were made of the temperature rise and contact resistance when rated current is passed for 6 hours. Heating-test results on contactor type KPD-103 are given in Figure 2. Contact resistance at the end of heating tests are given in Table 6. The contacts were not clean. The heating of worn contacts was of the same order in copper and silver contacts. Card4/5 Contacts with a high content of tungsten have very high  110-58- 5-1/25 The Resistance to Wear of the Contacts of Direct-current Contactors and Controllers I contact resistance and they heat excessively after repeated short-time operation. There are 2 figures and 6 tables. ASSOCIATION: Zavod "Dinamo" (Dinamo Works) SUBMITTED: Aulpst 28, 1957 CEird 5/5  LILINKIN, Vladimir Sergeyevich:_YXjWj ___Gqprgiy OBkorovich; SIRAYSEIY, N.M., red.; EMIR, B.T., tekhn.red.; BdR~O*-, N.I., tekhn.red. [Hoisting electromagnets) Gruzopod"emnye elektromagnity. Koskva, Goa.energ.izd-vo, 1960. 31 P. (KM 14:1) (Hoisting machinery) (Blectromagnate)  KAI.INKIN, Vladimir Sergeyevickt-f&XLER,-Geargiy-Qak-&-rD-Yich-_TAYTS, A.A., red.; VAGIN, A.A., red. izd-va; ISLENTIYEVA, P.G., tekhn. red. [Electromagnets for electric cranes]Podnemnye elektromagnity. Moskva, Metallurgizdat, 1962. 87 p. (MIRA 1612) (Electric cranes) (Electromagnets)  BELENIKIY~ G.*-:.; LREYTER, I-I.Ye.; IVANOVO VJI.; KALRIKIN, V.S.; KOZHU3HYEVICH, V.G.; FMAKCfVSKIY, V.M.; RABITIOVICH, A.A.; RUBINSKIY, I.A.; SINAYSKIY, M.M.; MILER, ~G.O.; KHOROSHILIUN, L.L.; KOMAR, M.A., red.; BULIDYAYEV, N.A.) tekhn. red. [Electrical equipment of cranes] Elektricheskoe oborudova- nie kvanov. Moskva, Gosonergoizdat, 1963. 399 P. (NIRA 16:12) 1. Kollektiv inzhenerov moskovskogo zavocla "Dinaroll imeni S.M.Kirova (for all exopt Koriar, bulldycqov). (Cranes, derricks, otc.-Electric equipment)  FEEYM,AH. I. I- 23373 17, IElorli Razvitiya Otechn8tvnnnoy llnypnoy Promyshlenriosti. Tekstil. Prom-W, 1.94. No. 6, c. 6-7. SO: LETOPIS NO- 31, 191:9  TRMNt 1. 1. PRYMAN, I.I.; ZNRUOVA, Ye.I. Processing rants fiber on flax spinning equipment. Taket.pron. 14 no.6:26-29 Js 154. (KLRA 7:7) 1. Doteent Kostromskogo toketilinago instituta (for Feyman) 2. ZavedAnwhchays, pryadillnoy fabrikoy linokombinata in. Ie- nina (for Zernova) (Ramle) (Spinning machinery)  FAYMAN,I.I.. dots-ant; ZYMOV,B.L.; ZFMOYA,Ye.l., inzhener Hemp processing on flax-spinning machinery. Tskst.prom.15 no-7:14- 16 J1155- (MIRA 8:11) 1. WTI (fDr 1'eyman) 29 Zaveduyushchiy TSentrallno-nauchnoy issledo- vatel'skoy laboratorli Glavl'na (for Zernov) 3. Xostromakiy l1no- kombinat imelti Lenina (for Zernova). (Hemp)  731W, I.I., kand. tekhn. muk, dots. --wwo"Tl'~tion of yarn diameter to its nuiffber and tvist. Izv. v7s. uchab. zav.; tekh. takit. prom. no.1:27-34 158. (KIRk 11:3) 1. Kostramskoy tekstillnyy insti-tut. (Yarn--Tables, calculations, ate.)  FEYMAN, I.I.,:kand.takhn.nauk; GRUBOV, A.F.; GAGOROCHKINA, M.K.,studentkA; KYAWINOVA, N.V..otudentka Chooning optimum waft twists for burlap fAbrice. Taket.prom. 18 no.5.170-71 My 158. (MIRA 11:5) 1. Glnvnyy inshener Narvekoy llno-dzhutovoy fabriki- (for Grubov). 2. Koatromekoy teketilInyy institut, (for GngarochkiiA, Mysenikova). (Burlap)  GINZBURG. Lev Natenovich, prof.; DVMITSKIY. Iosif Relentlyevich, inth.; TARM-07, S.T., retsenzent; aMSKOV, I.K.9 retsenzent; FEWAN, I,I*, retsenzent; LYASHMOV, I.K., retsenzent; '-*dteenzent; GORDZYCHIK, G.K.. red.; SOULOVA, V,ye., red.; MVIMHII, L.Ta., tekhn.red. (Spinning of bast fibers and the manufacture of twisted products] Priadenle lubianykh volokon I proizvodstvo kruchanykh izdelli. Mosivra, Goo.nauchno-tekhn.izd-vo lit-ry po legkoi promyshl., 1959. 5 49 p. (KIRA 12:8) 1. Welra pryadeniya 11na XTI (for Slutskov, Feyman, Lyashenkov, Volgin). (Bast) (Cordage)  FEMN, I.I., dcateent Functicnal relation of ntrengtb Indican, mimber and degree of twist for linen yarn. Isvevye.ucheb.zav.; tekh.teket.prom. no.l: 41-50 159. (MIRA 12:6) 1. Kostromakoy tekstillrqy institut. (Yarn-Teating) (Linen)  SALI)CIN, Setten Illich; LMWN,D.I.. reteenzent; ZUBMANIVOT.T.T., re- tsenzeat; FZYKAN I.I#v retsenzent; KOPBUCTICH.Te.I., red.; SHAJ,TNEOTj;.TX.7%ikhn. red. Munving and design of flax-spinning factories] Proektiro- vanle llnopriadilinykh fabrik. Pod red. D.I.Libermana. Ko- skvu, Izd-vo nauchno-tekhn.lit-ry RSFSR, 1960. 315 P. (MIRA 14: W Max) (Textile footories)  FAMUN, I. I. Problens in yarn construction. Izv.vya.ucheb.zav*; tekh.tekst. prom. ito.6:149-151 160. (mm 14: 1) 1. M:osi;romakov tekstilinyy institut. (Yarn)  I -FEYMAN, I. I. - ----- --- Relationahip betwoon the clamping length and strength of yarn. Jzv. vys. uchob. zav.; tekh. teks. prom. no. 2:17-23 161. (MIRA 14:5) 1. KostTomskoy tekstilinyy institut. (Yarn-TeBting)  FEYMAN, I. I. ng machinery of Dos-igzdjlg the fittings of preparatory and cardi the flax, hemp, and jute indtstry. Izv.vys.uchob.zav.; tekh. tekst.pom. no.3;50-56 161. (MIRA 14:7) 1. Kos, .~rbmskoy*tekstillnyy institut. (Textile machinery)  FEIM) Debmiable p"bleme in the rothoda of caloulating the tanBile etrergl% of products made vith fibrous materiRls. Izv. vya. ucbeb, savo; tekb, takst. prom. rio.4126-31 162. (MIRk 15,10) 1. Imtromakoy tookbaologickeekly inatitut. (rarn)  FEY14AN I. L Comp,u-ioon analysis of formulas proposed for the strength calculatirn of ra~,on cordo Izvoria.ucheb.zavo; tekh.tekat.prom no.1:27-33 163. ifURA 163*4) 1. betromskoy tekhnologicheokiy inatitut. (Rayon apiwiing) (Tire fabrics)  FE=-I, I. I. Comparison analysis of the formulas proposed for the calcula- tion of the strength of acetate and viscose yarns. Izv. vyS. ucheb, zav.; tekh. tekst. prom. no.6:18-21 163 (MIRA 17t8) 1. Kontromskoy tekhnologicheskiy institut.  TIMOKHOV, Ye.11.; FEYMI, M.G. Weatbijrometer for rapid teaIting for light and weather fastneBB. LakoRraa.mat.i ikh prim. no.6:45-86 162. (19RA 161l) (Paiixt-Te sting)  Feyman, Ye. A. "All-[~-ircdan S-,je;,Cog,, (-r,,: iri~titlition!7, Ortober IQ-, NO 0, D. 60-84 SO: U-30500, 10 J%11Y 53, (Latopis 'Zhurrial St~--tey, No. 6, 1~-9)-  Ti~-, al Y C. ". I . - # IlAt the Con:erence of 131ology Teachers of Moscow -~rcvince,ll Est. v Shkole, i,,o.4, 1952.  IFEYMAN, Ta.A. AItthe republic *Pedagogical loctures." Biol.v shkola no.2:93-95 Mr-Ap 157. (Biology-Study and teaching) (MLRA 10:5)  064 09 sea :0 a 04 008 000 00 0 V I" 0*0004046000 off UU isill low alt*41A I_ j J_ The affacation 41 falm ttaluta in gWW Manufacture. v view v p tion of Nag.1,% to glam tnanuf. Ibid. No. 2. W-4 1. Vie phys. Anti client. prowrt " of Na.SA). In the SIW InW. facilitate anti accclente the boiling pror". Under inimlve ot fit end of I be boiling firmem a complete decolmizatitm of " lic glasslis potAlble In the presence of mitliang agents at (I NRCI anti at N)w cumitti. of Fe in the sand, under unlionry conditionis alm"tallots ul (he itta" i% ditrKult. Sulfate improtres the ImAlingiantl wMkinji jqxver. ties of the Xtaisq with high c&tcnts of SKh and alk. m"h o0ks. Since the viulfate lyr anti dermim. prMucts of So. dm-ompow m4ractnry bvick%. Special milfatc-"'t- ing refractory bricks must tic usal in tAnks for N)i1inig the wilate mixts. 32 references. W. K, I I..." ILA 06114JANSIC&L L"COATMI CLASSWICAT1611 RL-A ! - U IS AV 10 a 0 11 0 0 . A, It W a 00*00 0*e*00ee6O$OOsG so 0 * 0 0 0 A 0 0 0 0 a 41 0 * 0 0 0 40 40 0 0 0 ?sI Oe 000 0 1, , 1, 0" . . . A JG-LLI ILA" _L.18_11 P ai, 000006400006190*000 0 0 0 0 111111 0 a 0 0 0 0 * & 0 9 0 0 0 I a I *00 a** P coo see COO 11111114D 1900 "Oe be*  0 * j I ~ ) # I # I 1 0 0 11 1; 11 Is I) loll am 144 119111too ago 4 '1 -111-1. -a -1sk-A-4, 00 4 IQ 2,14111- FO ka'A -46 :0 MecMalcal st~b of Glass. (in Ru"WO L V. 00 Afans'ev and Yu. L Fein. Sickormay, i Kfru,,Ii- to is cAe#kaNG And Cerlimic in. dustry), V. 4. Now. 1947, p. 16-20. 0- The strenrth of glass la compared with that of 0: metals. T e various fa tors Involved are thur. oughly discussed, 0 P. 4i see gel I L A &I T#LLLQfiIC4L LIT(*AIU*t CLASUPICATION ji L! -7 ~-!Ack, I ~Gw- !1108~ it 049 all IOM341i -0 U a Aw to Isle " 11M 9 114 1, K ff 0 0 0 0 0 0 0 0 It 0 0 0 0 0 0 0 0 a 4 0 0 0 ~2 .0 0000 0,00 'goes 0 0 00 0 0 0 0." \j Ila a w 0 Ir of 9 a a -2 0 0 010 0 40 0 0 0 0 0 0 0 0 0 0 0 41 0 0141 000000 so&  YM, yu.m. Raw materials. supplies and the preparation of batches in glass manufacture. Leg-Prom. 7 no.8:29-32 AC 147. (MIJ?A 6:11) (Glass mamdacture)  ..Afanavley end -5TIM49PI-Of GLASS., L, V S+'8 211 ngyn Ean-M. P 1947, No. 11, PP. No. 12j pp. 18-22p.,.-- The literature is reviewed through 1946, No reforancee a~e citei. B.Z.K.  ]F,=, Ylr* --. wExpansion of cement during hydration ("tenant-Kalk-Gipaw, 1954t no*3. p. 92-95).* Reviewd by IU.Feln. TSement 21 no.1:31-32 Ja 1550' (MIRA 8:4) (Gement) i  FETN' Yu. "A rotary kiln, operating on the wet production method, and fed with argilaccous raw material through a fuel nozzle ("Zement-Kalk-Gips". 1954. no-3. p 75)." II.Shott. Reviewed by IU.Fein. Mement 21 no,'l: 32 A 055. WaA 8:4) (Cement kilns)  7ETN,Yu., ref.; KOCHANOVA,Ye.B., ref.; DRkBM.G.S.. ref. -- -Wwetn~ From the pages of journals, TSament 21 no.4:29-32 Ag'55- (GemeAt industries) (MLRA 8:11)  FM, TU. Optimum parameters for the design of tank furnaces (From "Journal of the Canadian Ceramic Societ7" no.23, 1934). LegspromsM no*2:54-55 7 156, (Glass manufacture) (nU 9:7)  ]SYN. Yu. -- - 9 Developing now methods for cooling the molds on machiries manufacturing glass containers. (From "Glastech. Berichtew nos 9, 1955). Logo prom. 16 no.7:54-55 A 156. (MLRL 9:10) (Glass manufacture)  FEYN, Yu. 17. 1 ~ - - " a. 11"~--,A&6 , 6CA&AM" 'i Gonvection channel annealing Nrnaces with electric heating. (From "Ceramic Industries" no. 7. 1955). Log. prom. 16 no-7: 55 JI '56. (MLRA 9:10) (Glass manufacture) (Electric furnaces)  FEYN, Yu., reforent. / - - O"Iff4w Glass manufacture (from "Canadian Ceramic Society'l, r-r,.23, 1954. ,,Szklo i ceramlalrm", no.4, 3.955, "Silikattechnik". 1955). leg. prov.. 17 no.5:56-57 My 157. (MLRA 10.-6) (Glass manufacturb)  FIM, Yu., referent. -.0000WOM Electrochemical eugraving of glass (from "Scientific Instruments" no-6, 1954). Leg.Prom. 17 no.6:3 of cover Je '57. (MIZU 10: 8) (Electrochemistry, Industrial) (Glass cutting)  7AYN, Yu.H., referent. State of glass container production techniques in the German Phdaral Republic (from "Spreohsaal"'noj, 1957). leg. prom. 17 no.1002-3 of oover 0 157. (MIRA 10:1Z) (Crermany, West--Glass manufacture)  sov/1 31 - 59_1 -10/12 15(2) Feyup Yu. 19--j" pbotracter t Different AUTHORt tfraotOry Cono"otr'ny"kh betonov a strength Of 1 Ost, Ogneug slaotioity an 't, j proohn TITLE, tures (UprugOE Temper eraturakh) pri ra7,nykh temP lir i, pp 48-46 (USSR) ogneupory, 1959, ,y S. Slineider publioh'd ,RIODIcAL t of an FAglisll Paper Ilir lp PP 27-32. an abstr5c 19569 OSTRACT- ThiB er. Ceram. in the JoUrn. Am Card 1/1  15(2) AUTHOR: Ileyn, X., . . ............................... 30031-59-2-4,)"1r IMI)rovener, t ((JIllCll,qheniye'3f "0 Properties svOYstv kal of Calc'um-Aluninate Cements v Itsiy alyuminatnykh tsementov) PERIODICAL: 0,, -nel,j)ory , 1959y ITr 21 PP 92-92 (USSR) ABSTRACT: This in an 'abstract in the Of an English-laIng,5un,~e Paper Publiahed abstrac,Tourn. Amer. Cerarl. !7- 9 1)57, N ter in W. Gitzen. , _)0C. Pp 158. The Card 1/1  FEYN, Tu.N., referent "llasticity and strength of refractory concrete at various temperatures" ('from "Journ, Amer. Ceram. Soc." no.19 1958). Ogneupory 24 no.1:47 159. (United States-Concrate-Testing) (MIRA 12M  REMPELI, A.M.; SUKHOV, P.V.; KOPEYKIN, A.A., glavnyy red.; ROKHVARGER~ Ye.L., samestitell glavnogo red.; VASYUTINSKAYAt A.A., red.; GARVSMAN, B.M. red.; ZAYONTS, H.M.9 red.; LUNDINA, M.G., red.; NOSOVA, Z.A.) reds; PETROVP N.A.9 red.; RIVKIN, A.M., red.; ROMANOV, P.R,, red.; SOKOLOVP P.V., red.; FMI-Yu.E., red.; KOSYAKINA, Z.K.) red.; KASINOV, D.Ya.,, tekhn.red. [Research on clay materials] Issledovanie glinistogo syrlia. MQskval Gosstro:Lizdat, 1963. 119 p. (Kuchino. Gostidarstvennyl nauchno- issledovatel'skii institut stroitellnoi keramiki. Trudy no.22). tMIRA 17:3)  ROGOV6KIY, Lec,n Vladislavovich, insh.; YjffNBERG,Gr Inzb. LAV [deceased); AMUSHIN, B*De, ini'Fi"*O",~n"=ucbnyy red.; GMBYBY, P.A., red.izd-va: GUSZYA, S.S., tekhn.red. Cquarrien and the processing of rook materials) Karlery L obrabotka ImmengVkh materialoy. Moskva, Goe.izd-vo lit-ry po strolt. i arkhtt. 1957. 199 P. (MIRA 11:3) (Quarries and quarrying)  Ni T IC nrlflCipld Of 111131flnm.Z,~ iA a) 'ell mancii-r in which rh~ lo-dii luvt~ 1I,- fit 1 1!: S at to 71 4A I. utl,E~d Ing StrCS5 CC a~x: ,-H. rr;-'erion, the ,~ (tv. ati(~Il (if a givvi, --taw U1, vi d0ins-d am I :IL- lII~t%l1IlIllI1 VIA!'.1. 4 1~ it I.- u-q that iitau, of fiw[or then charaevriitcl th ti vc  (Heterogeneous methods for designing reactors. Survey of results and comparison with experimentsj Geterogennye metody rascheta realctorov. Obzor rezulltatov i sravnenie a eksperimentom. Moskva, 1955. 44 p. (MIRA 12:10) (Nuclear reactors)  = 4 U.- Met. Nauk 1055, ' sammary.214-10).-Aldth. Thetheoreti- .1 of the fast fission factor, M, is based on an analysis of the kinetic equatiowfor neutrons. For a hutno- getkous rfzO-U taixt. #d can be exprwtd by the apptuximate forntula i46_ - I - (;;rA - 1) (1 - -Y), whire gat (about L.2) isL the fast muldplicAti,in factar in pure U"$ atut -y Vjro/(V'jro + V.) - the vol. corien. of ITtO in Me, mixt. TUe formula. is gill valU for a U-t(.G lattice with U slugi of less tLaa I cm. In &mu. g is higher if the lattice con- sists of alternate layers of V plates and 11;0. T11C cxJj(l. results agree satisfactprity with-the v4lmts deciv f m Od ru s-ru e f l F i as. ormu or hatmag no L ixts. of U ind 1fjO ono can obWa ah;a from the kinetic equations ttM_ sjuA.-c-L ico  C AUTHORz mmfim" S.M.. (Moscow) 40-4-12/24 TITLEt Plastic Flow of a Flat Shell in the Axial-symmetric Problem (PlasticheskoyetechentM pologoy obolochki dlya osesimmetrich- noy zadachi). PERIODICALi Prikladnaya Mat.i Mekh., 1957, Vol.21, Nr 41 PP-544-549 (USSR) ABSTRACTt The present paper of the author is a part of his thesis (Mechanical Institute of the Academy of Sciences of the USSR, Moscow 1946) on the principle of the limit stress which was also treated by him in a preceding paper (Prikladnaya Mat.i 11ekh.12, 1, 1946). This principle now is uued for the investi- gation of the plastic flow of a very flat axial-symmetric shell under uniformly distributed stress and freely resting on along the periphery. The applied hexagonal approximation gives the error + 7,% for the determination of the limit stress. SUBMITTEN July 15, 1956 AVAILABLEs Library of Congress CARD 1/1  I - - I--- CEIYANDY I. M.1 FEYNBERGI S. M.J- FROWVY A. S. and CHENMGVJ, N. N. "Concerning the Use of the Random Test Method (Monte-Carlo Method) for Solving the Kbietio Equation." paper to be presented at 2nd UN Intl. Conf. on the Peaceful uses of Atomic Energy, Geneva, 1 - 13 Sept 1958.  ;!1 (4) FHASX I BOOK ZXPEOrTATrON. WV/25a3 International Conference an the Po&c*rul goes of Atomic RngtrgY'. 2nd, Games, 1958. Doklady Bovetskikh uchonykh; yadernyye roaktor7 I yadernay-- anor- Batiks.. (Apports of Soviet Scientists; Nuclear Reactors and Nuclear Power) Moscow, Atoodxdat. 1959. 707 p. (Series; Its, TrWr, TOI. 2) Zrrata slip inserted. 8,000 copies printed. in, GOMPUX gd&.t N.A. Dollothl. Corroopondtng Member, USSR Academy or Sciences, A.Z. Xrasln, Doctor of Physical and Mathematical Scioncos, 0":) A.X. L*7V4n&klY, Member, Ukrainian 33R Academy Of Sciences, I.T. Now1kov, Corresponding Member. USSR Academy or Soleness, and V.S. Purace. Doctor Of Physical and Ratbamatical Sciences; Zd.% A.r. Tech. 9d.3 ye. 1. wa*1'. PURP=s This bow-k- 1z Zat-dod for scientists and engineers engaged or in reactor ds9LgniftZ, as well as for proreascro and atudentm higher technical school* share reactor design Is taught. COTMaR2 This lp" soosed volges at a six-volves sell"Um- _as the peaceful l a r ..ru- The six Volume$ contain that voio~vEm prv- aonted by Soviet ooi*ntLmts at the Second Znt&rn&tlon&l Conference Ou PG"Gftl Us$* of Atcala thargy, hold froft September I to I -3, 190 In Q-- Volumes 2 consists of three parts. The first to de"t*d to &toml* power plants under construction In the Soviet Unluml the second to *xperlsentma and research reactors, the *x- P4711wato carried out an thou, and the work to Improve thou; and the tblzd* which is predominantly tbsor*tjd&lf to problems of nuclear reactor physics and construction engineering. Tu. 1. JbrYald" Is the Science editor of this volume. 300 307/208L for title& or all volLwas of the sot. References appear at the SQA~mf the Art"los* PART Jr. EUWtDMTAX, A" RX32ARCH XZ&Mpj 4nak =r-E r.r sondare-ko .114k J" A.?Mv- , at WO-1- -Stwem'~.p*' OCLY. ?"I. Ukf-afr~jsev L 11 (X*p*ro-0vT-rr2_q) xlkoln r.l;. V A LN!jt I k-1 an u ani I ~QfIVL= -9m ! I iv" !b I . f'.Y' -Eg-"" T - V! 4 FlWlana-6 " I VF6 Itoport Wo. 2502-YI t R--t-~Uica 232 Ooncharov' V'V' and at a'- 30" Now and Rebuilt rA*mal Research No. 2185) 243 2trok"vich, B.T., V.'T-XLl4vAk44' DiftAntlLni an Experimental araptate-uj'ni~m Isotope Producing Reactor After Four Years of Operation tReport No. 2M) 319 r 4-N. !t-j)~ZqXob1.7sv, V.M. oryazev, V.D. 19,1=ntov, jL. -Intormdisto 1'A.:T3YkAQ":---An rag. Obtaining Hi~; Mdnalty Neutron pl~xo, (fte~,Ort go. 21.,2 334 C- PART 111. FMICS A" gRODUMINO Op FjU oR MI(M L4yPu:nakiY A.~T Aj_._AbZAm2y, V.H. Androrev, A.I. 94137a.bVIkov, ZLTL saznR~n-iD V-f- -AlkOv, Golubovo' A.157' -A Q! ?w IFa vii iiino"r. rozav, Ukraintsev, L.H. Usac ofisArc?r W"tron ire M38) 3T7 N#kWv-V.X,.&a4 B.L. IorrF' .- _Romogenecus Natural Uranium Reactor TRapart Mo. 22%) -- - ' 398 To- 3-Ant4lr.rov, v.P. xatkov,.LV. jLWssarav, lkol'skly, A.W,'No,lko, V 3 av. IFUOL ter actors and XsLp*rlxents WIth: the Uranium Water Lattice (Report NO. 2145) 41.1 14prenko, T.A. 3elf-rogulation Lo a Water-wator Power Reactor 199  .210) FKASS I BOOK EXPLOrTATION WV/2583 international Conference on the Peaceful Voss of Atomic Eng0r67-4 2nd, Genova, 195S- Acklady movets"kh uchonykh. ygdornyya reaktor7 I yadernsys. *nor- nottka. (appo le Nu P rts or Soviet scientists; Nuclear Reactor* and . 1 R c ar ower) TrQdys vol. 2) (Series: It a oscow, Atonazdat. 19 ,2. TOT P. Irr*ta slip Inserted. 5#000 copies printed. General Zda.z X.A. Dollexhal, Corresponding Member, USSR Academy of Sciences, A.X. rm&Ln, Doctor of Physical and Mathematical Sclerces, A.Z. LonuasklY, Xember. Ukrainian SSR Academy Or Sciences, X.I. XOTUMV, CorrotspondLng Member, USSR Academy or sciences, and v.3. P01160T. Doctor Of Physical and Mathematical sciences; Ed.: A.P. Aly"'Yovi To". W.$ To. X. "Zol.. PURMAX9 This, book Is Inter-dad for scientists And engineers ar6keed in reactor designing. as well &a for professor* and students of 4 ftlafter. t"hM 1=1 schools where reactor design Is taught. -COTZRAGNI ?hl ow-geopod vaimes or a aLz~ociveo the f""fut A0 Use- dr-at-18I i . anot . 0 The six oiumas 0 &LD z40 reports pro- 844%t4ld by Savlot acl;ntlxts at the S*cononlraternstIonal C nfe r. o on Peaceful Uses of Atostio ftergy, held from September I to 137c. 1W in 00VAT31- Volume 2 consist$ of three parts. The firat is devo"d to Atossla power plants under construction in the Soviet ftlOni the second to experimental and ressairch reactors, the ex- Perin" 4 carried cut On then. and the work to improve then; and the thIM. wblch is predominantly theoretical, to problems or a Lear r%GCtOP Physics and construction engineering. Tu. 1. lbr7&kiA 1.5 the aclenc* editor of this volume. age 3oV/2oel E r tItl8s Of ALLI volumes Of the set. RororenO*0 appear at the ~_~_GDAP-af-the artleles. r.B. Yegiz&rov~ and Yu. 3. 3altykOv. soats"Y' V.T-, V.S. Dikx"vv "uring Neutron Spectra In &alum Water Lattice$ (Report V 0. 2152) in. &.1L, 3.0. Dubovskly, U.N. Lantsov, TU.Tu. 01"kOv, .1L Ck=horov, A.V. Kamayev. L.A. 0or"ova, T.T. V&vil0v- ftYSICIL1 To. 1. Inrutin. and A.P. Senchonkov. Studying the . of a Ser7l1lum-modorator Reactor ( sport NO- torl sties - 555 6alanin, A.D., S.A. X*alrovskaya, A.?. Mudik. Tu. 0. Abov, V.P. SalkIno and ?.A. Krupchitakly. Critical IzVerimant on an Exporl. mental X~&Y7~ator Reactor (Seport Mo. 2036) 5TO Karchuk., G.I.. V. To. Puoko. To. X. rogudal", V.V. Seelov, X.P. TyUtdr*V. 3.T. PlAtOnOVA, and 0.1. Druzhtnina. Certain Pro. blame In Nuclear Reactor Physics and Methods of Calculating Them (Report 120. 215L) 588 Sinyutin, G.V. and V.X. Sousiov. Determination or Control Rod jtrrectlyen*ao In a Cylindrical Reactor (Report So. 2469) 613 Z.K.' S.K. roynberg A.S. Prolo., and M.N. Chentsov. ~' VNIAS the Monte dir_XV ~~Oa 3&mPlIna for solving the Kinetic Squation (Report go. 2141) 628 Lalotin, X.I. Neutron Distribution In a Heterogeneous Modlum fteport No. 2189) 634 Kazarnovokly, N.V.. A.T. Stopanov, and P.L. Shapira. Neutron A Th*rsallsatlon And DIrruAlOn in Heavy Media (Report NO. 2148) 6 51 Seynlkv A.Z. V.3. Tornskov~ and A.V. Lykor. Using the Onsager Theory for 31-dying Neutron Dirrualon In the Absorbing Media or muclear Reactors (Report No. 2224) 6" brodori D.L., S.A. ntrkln~ A.A. L3tuzov, T.T. Levin, and T.T. orlov. Studying the Spatial and tnergy Distribution or - Neutrons in Different X041a (Report go. 2147) 6T4 A.1E1- Boron roalsatian Chambers for Work in Nuclear DQ1trLyQT, 084 Reactors &Part No. 2 , ) 690 KirIllin. V.A., And S.A. Vlybln. 1xp*rleental Detor"Instlon or specific voluava of Heavy Water In a Wide Temperature and ftva- an" Range (Report No. 24T1) 696  2-' (6) AUT11ORi rre !?SCOW) SOV/179-59-4-13/40 TITLE: The Principle of Maximum Stress PERIODICALt Izvestiya Akademii nauk SSSR. Otdoleniye tekhnicheskikh nauk. Mekhanika I mushinostroyeniye, 1959, Nr 4, PP 101 - 111 (Ul-SR) ABSTRACT: Some ideas and results are put forward which are contained In the author's doctor's dissertation "The Principle of Maximum Stress 11 (Printsip predellnoy napryazhennosti), Moscow, at the Institut mekhaniki AN 333R (Institute of ?Aechanicfj of the AS, USSR), 1946. In 1948, the author only publishel short excerpts from his dissertation in the paper (Ref 4). A peruqal of current publications showed that the'author's investigations have kept their value up to date. The author's opinions were greatly influenced by the papers of A. A. Gvozdev (Refs 1, 2) on the application of the boundary equilibrium to statically inieterminate systems, and by the paper of I. Ya. Shtayerman (Raf 3).-It is shown here that the limiting break-stress principle car. be taken as a starting point for the development of the mathematical theory of elasticity, and that the two classical plasticity theories of Saint-Venant and Genki-Mieses Card 1/2 can be interpreted as a consequence of this principle. Methods  The Principle of Maximum.Stress 907/179-59-4-13/40 of finding a direct solution of the maximum resp. minimum problem in the strengLh functional are pointed out, namely the method of approximation of the state of limiting stress, e. -. by polynomials with the least deviation from zero, the method of approximation of the given la%v of strength by the succession of "inscribed" and "circumscribed" boundary conditions, the method of building up the majorant functional of body strength in evaluating the latter "from above", and the combined method.- It is pointed out that the efficiency of th,?se methods was checked by applying them to numerous problems of plastic flow of round and rectangular plates and 3lightly flat shells. There are 6 Soviet reforerces. SUB14ITTED: July 23, 1958 Card 2/2  0 AUTHORS: evnberg 41 , S. M , Konobey B.006/BO63 82-302 evskiy, S. T., Dollezhall, N. A., Bulkin, Yu-.-V.-, Zhirnov, A. D. Filippov, A. G., Shchipakin, 0. L., Perfilly ev, V. P., Samoy lov, A. G., AH�yenkov, V. 7. TITLE: The CH( SM)iResearch Reactor With a Capacity of 50 Mw 79 PERIODICAL: Atomnaya energiya, 1960, S/089/60/008/06/01/021 Vol. 8, No. 6, PP. 493-504 TEXT: The present article gives a detailed description of the Russian 50-Mw research reactor which has a neutron flux of 2.2siO15 n/cm2sec. It is used both for research work in nuclear physics and reactor engineering; obtaining of newltransuranic elements, testing of fission and building materials under neutron and gamma bombardment, within the temperature range 200K - 20000C, and in various media; spectrometric examination of intermediate neutrons; examination of the gamma spectrum of the (n'?) reaction; examination of short-lived isotopes and neutron diffraction analyses. The authors first discuss some characteristic data. Card 1/5  1% The CM(SM) Research Reactor With a S/089/60/008/06/01/021 Capacity of 50 Mw B006/BO63 82302 The water-cooled, reflected reactor works with U235 enriched to 90%. The critical mass (without the experimental holes) is 7-3 kg of U235, and including the experimental holes, it amounts to 9-5 kg (loading:,w11-7 kg). The maximum heat flow from the fuel element attains 5-5.jo6kc&l/m2.h; the surface temperature does not exceed 1950C. Fig. 1 shows the distribution of the neutron flux in the cross section of the reactor; the flux has two maximag 6ne in the center of the cooling-water cavity (2.2 lol5)9 and the other in the lateral reflector (5-jol4n/cm2sec).The flux~power ratio is 4-4'1010n/cm2.sec.kw. With a 25% submersion depth of the fuel elements, the reacItor can be in continuous operation for a period of 60-65 days. Several details are dealt with next. Experimental holes: The reacbor has five horizontal and fifteen vertical holes. The horizontal ones are in the central part of the active zone, whose longitudinal and cross sections are shown in Figs. 20. At the output of the holes the neutron flux amounts to J3.1010n/cm2sec. The vertical holes are located in the reflector with the exception of the central ones. Three of them serve for obtaining transuranic elements (one of these being in the center), two low-temperature holes serve for metal Card 2/5 Or-  The CM(SM) Research Reactor With a S/089/60/opa/o6/o1/021 Capacity of 50 Mw B006/Bo63 82302 tests, two high-temperature holes for the testing of fuel elements, chemical analysee of the cooling water, and corrosion tests. All of these holes are water-cooled. Furthermore, five gas-cooled holes serve for testing fission and building materials in the range of 0 - 600OC; one hole (cooled with helium gas or liquid H2) serves for material tests at low temperatures; one gas-cooled hole for material tests at -.,2000OC; one hole cooled with liquid metal (10000C) for testing fuel elements and coolants. Construction: The following demands were made on construction: creation of a small active zone that would withstand high thermal loads for a long time, and its cooling; application of a maximum number of experimental holes (their distribution is shown in Fig. 3); possible exchange of fuel assemblies without pressure drop. Figs. 2-5 illustrate particulars of the construction. Reactor body and cover: Fig. 2 is described. The cylindrical part is made of 36 mm thick stainless steel of the grade /X-19H'?r (MlMT). The reflector consists basically of beryllium oxide; it is made up of blocks comprising about 65 different types, which are enclosed by steel plates on top and at the bottom. Fuel element assemblies, The element itself has the shape of a plate with a Card 3/5 /~_r  The CM(SM) Research Reactor With a s/oaq/6o/ooa/o6/01/021 Capacity of 50 Mw B006/BO63 82302 core, pressed from uranium oxide powder and electrolytic nickel; the core is contained in a -iickel can. Fig. 6 shows a section through the assembly, Fig- 7 another through a fuel element. Data of one such element are compiled; every element contains 12.5 g U235. The cylindrical body shield (Fig. 2) divides the inner reactor cavity into two zones. The functions of this shield are briefly discussed, and the cooling water circulation is described next. The control system is described in greater detail. This system consists of two automatic regulators with two regulation rods each, four shim rods, and four safety rods which can also be used as shim rods. The automatic regulation is operated by 13 ionization chambers located outside the reactor body; it covers the power range from 0.5 to 100%. Several details concerning safety and shim rods are thoroughly discussed. Reactor shield: Fig. 6 shows a cross section through reactor plus shield. The latter consists of steel and heavy concrete. A few details are described, and the pr -as of fuel extraction is briefly dealt with. The cooling system is finally discussed. It consists of four closed, separate loops. The water is kept flowing by circulating pumps (500 t/h, 10 atm); the heat exchange power is 15 Mw. Card 4/5 VY  The CN(SM) Research Reactor With a Capacity of 50 Mw There are 6 figures and I -~v~(-t SUBMITTED: March 15, 1960 S/089/60/008/06/01/021 B006/BO63 82302 k-k-" Card 5/5  KANA'YEV, Andrey Andreyevich; M11M4Q#_3.11.#_rotqenzent; ALIKIEOVICH) A.V., inzh., retsenzent; KUDANOV~ N.N., in nauchrqy red.; XTRNOV, Yu.I., red.j MOLOVA, V.M., tekhn. red.; SHISHKOVA, LAp tekhn. red, (Atomic power plants] Ato=ye energeticheskie ustanovki. Le- ningrad, Sadpromgiz,, 1961. 427 p. (MIRA 15:4) I, Cblen-korrespondent Akademii nauk -;S.* (for Feynberg). (Atomic power plantp)  FZVYN~ERG.- S. M.-- PHASE I BOOK EXPLOITATION SOV/61706 Konobeyevskiy, SO. T:, Corresponding Member, Academy of Sciences USSR., Resp. Deystviye vadernvkh izlucheniv na materlalv (The Effect of Nuclear Radiation on Materials). Moscow, Izd-vo AN SSSR, 1962. 383 p. Errata slip inserted. 4000 copies printed. Sponsoring Agency: Akademiya nauk 333R. Otdelenlye tekhni- cheskilch nauk; fizilco-matamaticheskilch nauk. V Reap. Ed.: S. T. Konobeyevskiy; Deputy Reap. Ed..: S. A. Adasinskiy; Editorial Board: P. L. Gruzin G. V. Kurdyumov, B. M. Levitakiy, V. S. Lyashenko (Deceased~,.Yu. A. Martynyuk, )~u. I. Pokrovskly, and N. F. Pravdyuk; Ed. of Publishing House: M. G. Makarenko; Tech. Eds: T. V. Polydkova and I. N. Dorokhina. Card 1/0  The Effect of Nuclear Radiation (Cont.) SOV/6176 PURPOSE: This book Is intended for personnel concerned with nuclear materials. COVERAGE: This is a collection of papers presented at the Moscow Conference on the Effect of Nuclear Radiation on Materials, held December 6-10, 1960. The material reflects certain trends in the work being conducted in the Soviet scientific research orginization. Some of the papers are devoted to the experimental study of the effect of neutron irradiation on reactor materials (steel, ferrous alloys, molybdenum, avialgraphite, and nichromes). Others deal with the theory of neutron irradiation effects (phyaico- chemical transformations, relaxation of internal stresies, Internal friction) and changes in t~e structure and proper- ties of various crystals. Special attention is given to the effect of Intense Y-radiation on the electrical, magnetic, and optical properties of metals, dielectrics, and semiconductorn. Card 2/4X 7'  The Effect of Nuclear Radiation (Cont.) SOV/6176 TABLE OF CONTENTS: KonobeyeV,Bkiy, S. -T. Contempory Ideas bn the Effect of Nuclear RadiatlUnB on Solids 1 5 The article deals with basic characteristics of the effects of irradiation with Y-rays, neutrons, electrons, and heavy charged particles. It is noted that no definite Inter- Pretation of the mechanism of neutron-irradiation effects on mechanical properties has yet been established. S. M Research Reactor CM. Its Use in Study of .!qnbergj MetTl-s-and-Otfier Solids 21 A general description is presented of the CM 50,000 kw (thernuil) research reactor whose construction is presently (1960] being completed. Experiments in the following areas are expected to be conducted with the reactor in the first series of investigationa in solid state physics: i)ieffect of-the integral value of neutron flux on the mechanical propertoies of vavious materials at different temperatures; 2) effeat of temnerature during irradiation on the diffusion Card 3/0  --MNBEF-Cl. Saveliy Moiseyevich, doktor fiziko-matem. nauk,, laureat IArtFiivs-kqy-premi-'i;- KANTER, A. I., red.; VAZAROV A, A.S. I tekhn, red, (The peaceful atom] Mirnyi atom. MosWa, Izd-vo "Znaniel" 1962). 29 p. (Narodnyi universitat kulltury. Takhniko- ekonomicheakii fakul'tot, no.18) (MIRA 15:2) (Itomic energy)  7-M'ERG. Saveli '~qiv -evich, doktor fiziko-maten. nauk, laureat - -ey Leninskoy premii; PEKHLYUDOVA, A.S., red.; NAZAIROVA, A.S., tekhn. red. [The atom and the atomic nucleus) Atom i atomnoe iadro. Mo- .gkva., Izd-vo "Znanie," 1962. 30 P. (Narodnyi universitet kull- tury: Estestvennonauchrori fakulltet, no.23) (MIRA 15:2) (Atoms) (Nucleip Atomic)  L 11038-66 ENT( 1 ) /F--!T(m)/FPF(c . J D fi"ij /135 ACCESSION NR: AT5013781 UR/0000/62/000/000/0021/003~ AUTHOR: Foynberg, S. M. f TITLE: The SM research reactor L its use for m--tal and solid state re'~carch 801311c1.": sove8lic-11111kiye po probleffie Doystv lye yadernykh Ultichenly ma materialy. Moscow, 1960. Deystviye yadernykh IzIucheniy na materialy (The effect v-f nuclear radiation on matm fats); doklady soveshchaniya. Moscow, Izd-vo AN SSSR, 1962. 21-33 TOPIC TAGS: nuclear research reactor, neutron irradiation, neutron diffraction, -;-.7ater cooled nuelear reactor, solid stalk, research faeffily. mctdlurziq ivst: h ATISTRACT: After discussing the requirements which sh~ld be by res-earch nucle--- rvaetol-'. . the akkthor shows that a watttr-limleratc:d With a intermediate neutrons with a neutron trap, represents an eeonomic to tt-wo prolilems simultaneously: prothiction of high Intensity thermal and fasi The idea.9 discussed were enibodied. in the design of the SM research reactor ha-n- a heat power of 50. 000 kw; the construction of this reactor is now very close tD comple' ion, Wid is descrllx~d in detail io-ether with its operntion. In studies of materiLds =d solid slate Card 1/2  L 4038-66 ACCESSION NR: AT5023781 physics research, use will be made of gas-cooled channels placed in the zone of the hard neutron spectrum, and also water-cooled channels placed in the reflector. Neutron j diffraction studies will be conducted in a horizontal channel. Other channels will permit studies covering the temperature range from liquid helium to 600C and higher. rourteen ~h the aid of the SM reactor topics of research in solid state physics which are planned are enumerated. Orig. art, has: 8 figures. ASSOCI ATION; None SUBMITTED: 18 August 62 ENCL: 00 SUB CODE: NP NO REF SOW:000 OTHER,: 000 Card 2/2. MN- 107"! -1 P-0 ~ IN  FEYNBM, S. M. ; W)Y~V) V. A. ; VOROBYEV, Ye - D. "Reactor SM-2 with the Highest Available Neutron Flux." report submitted for 2nd Intl Conf, Peaceful Uses of Atomic Energy, Geneva, 31 Aug-9 Sep 64.  -r Ya.-V-- --- - "The pulse reactor potentialities, (for neutrino investigations 1)." report presented at the 3rd. Intl Conf on Peaceful Uses of Atomic Energ3, Geneva, 31 Aug-j Sep 64.  'E-17fc VETT"n~-?/FT-IR Pr- T A P5 00 1 2 ~i 7 m F; i-i i -i n rf f- x p in, Ima f in:i Ih:i t - I i SOICRCE- At-mityaenergiva, v. 17, no. 6, 1964. .152-463 -(-;earch reactor roactor/SM-2 N.-, T if paper is a summary of thf- SSSR 4 Internation- ca c e f u 1 1, !F; e s () f A t c) m i,~ - E,, i c, i L'~ ~!i -4 to r ~1 - 2 design.~d for a wide ranrye of investijations ir. nurlepr phvs1cs, s( rn,~t;illurg,;, rachat ion rh,--misl ry , I )! 1 v it) nu Apar .,)7truc- ion, and othor Fields )11 sri(~rlcr, -I--, j to, %V a s rieEcrioed in Ato=.aya Energlya 8, 493 (i96,j). ii-he tmherrnzu rirfutruri flux i13 2 5 1015 n/cni". sec at 50,000 kw, The fast neutron flux with enerqv lar,7,er c ,, d 2  N R A P500 1267 9 figures MO-v in Ll e active i,,one exceeds 1015 ncm2. sec ~'I-zo(-TATION- None Cord-  T. 24? i NR- Al"5001268 (dw~easod) V,/. Fevriberg, S. N1. L-X e 7. r- i A enli!:'Vanov -1 Ya. '-V V Shevel V- TITLE: Pulse graphite reacto GR r SOURCE: AtorrinaLya energiya, v. 17, no. 6, 1964, 463-474 TOP*.C TAGS: pulse graphitt reactor, high neutron flux pulse, nuclear reactor ABST RACT: The paper is a summary of the SSSR #322a report at ,,'-;e internation- ai Conference on Peaceful Uses of A-tornic Energy in Ge;ieva, 1964. it represents an elaboration of the description of the pulse graphite reactor IGR gven by S. N1. Feinberg at the Second International Con.'erence. T',,,-~ pu.-,-e re-actors are used when a high neutron flux is desirable. The described reactor was in opera- Card 1/2