SCIENTIFIC ABSTRACT PEREYASLOVA, N.K. - PERFILOV, I.F

"Un I BID" z1ftel?ATION SOV/1297 Vaesoywrays nAU*hnO-tekhnlQh&akay* konforentalys PO Prlmtn*nlyu redle"tivnykh I stablllnykh Isotopov I islutheay v narodnan khmyay.tvo I naUko. MOSCOW, 1957 POlUGhQr4Y% ISOtOVO*. 1106hohn"o grzota-ust&novicl. gadlosetriye 1 desluetrlyst trudy konforeatmil ... (Isotope Production. XlSh-onergy 0amas-Radlatlon Facilltlea. Asdloawtry end Dool- ustryl Transactions of the All-Union Conference an the Us* Re oh~f dloactIve and Stable Isotopes and Radiation In the Matt I Z* and 301 "CO) Moscow, Izd-vo AN SSSA, 1958. 293 P. 5=70,iss Sponsoring Agencys Aicadeslya nauk SSSRj Olarnoye upravlonlye Po IzPOI'xOvaGIyu atonnor onargil SSSR. Editorial Board: Frolov, Tu.S. (Rasp. Ed.), zhavoronkov, N.M. (Deputy Reap. 19d.). Agllntso~. K.K.. Aleks.yev, B.A., Bochksr*v. Y.V., L,"hohlnskly, X.I., Rellrov. T.?., Sinitayn, V.I., and Popovs. O.L. (3*cretary)j Tockt. Id., vo-ichkov. 9.D. PURPOSS2 Thla col'ItaLlon is published for scientists, t0chnOlOglats, porsorto engaged In medicine or modicol research, and others *on- Sernwd with the production and/or use of radioactive and stable Isotopes and radiation. COFZWZ. ftirty-eight reports are locludod in this collection under three main subject divisional 1) produ- ti*n of Isotopes 2) b1gh-energy gassa-radistion faellitios, and 3) radlomotry and dooliestry. ?AZI& Of COMMs PART 1. PRODUCTIOW or WOTOMS TPOIOW. YU.3.. V.T. ftchkarev, and Yo.Te. Kullab. Development of Isotope Production in the Soviet Ctaon ' 5 This report I* a general survey of production methods, Apparatus, raw materials, applications, Investigations and rUtUrf Prospects for radio isotopes In the Soviet Union. Card 2/12 L*fttrst0v. K.P., T.Ye. Manollovand O.A. nazdrlitov. A Photoco Lori" tric Method of Bst&-40*lmttry 246 ]Wr%AOT, S-A. end R M ftl'vcy. A Counter for IDetormInIngi the AboolZle 1A4il;It r C J o harged Particles y 251 EAntratOv, M-P-, V-10. PAOQYIov. and O.A. "62drikov. A 0SIV80,14 Method of Measuring Bta-.cti,ity 254 N a a I K NO * The -~sw or a photoftle- ! ~ : ry. FIMPT~r Registering Ga-a- J Radiation 260 Lslugln. 9-S. and V.V. Mmrkolov. On the Problem of I N *sSUrlr& dOWL Currents 264 Card 11/12  PLR~ASLWA, -1;. 'E. il-c Spectrisc,,)1)~c Chnract:n,istics -if the 6,riiA-ma,le A confereure tm on Urctr-)n and Mujtiplier; Rn6i"I A01W Irm FIcktminika, 1957, V01. II, N(-. 12, pp. 15")2-1557 (USSIO Abst: A conference tc-:: palace in Mosccw during February 2~ and 'Iarc~ ~. 1-5 and im-,3 attenled *,y scientist& and cngineerG from Risc-m, Leningrad, Kiev and other centres of the Owlet Union. Altogether, 2~A papers vrerr_, z-~ad an,~ discussed.  L 2;432-6 FS (j)#CCAWA(d) --.#)Aih) TT/GW ACC NRs AP6012832 SOURCE CODE: UR/0293/66/00WOO2 0268/0279 ayus4in, S. I ; c%an Nazarova, M. N.*. Pereyaslovaj N AMHOR: Av _L K..; Petrenko, I. Ye.; S-vidskiy, 11. M. ORG: none --TITLE: Recording cosmic r ~by the CosmoB-17 satellite SOURCE: Kosmicheskiye isoledoyaniya, Y. 4, no. 21 1966$ 268-279 TOPIC TAGS: cosmic ray, cosmic ray measurement, cosrqic ray shower/C smos 17 0 ABSTRACT: Scintillation counters. STS_2 Geiger counters, and SBT-9 end-window Geiger counters were used on Cosmos-17 to record the intensity of cosmic radiation beyond.the Earth's radiation 'belts as a function of L coordinates. The average radiation intensity was found to vary from 0.5.to 3.0/cm2/sec for charged particles and from 9.to 22/cm2jsec for ga=a quanta. A high~-latitude chopping of the cosmic ray spectrum was observed for'bardness R = 1.8. A cosmic ray."equator" was con- structed for altitudes,of Wow-6oo km. Cosmic ray showers produced by the inter- action of high-energy particles with thesatellite body at angles of divergence exceeding 600 were also.recorted. The shavers had the following average character- istics: particle &nsity, O-038/cm2; total number of particles, 102; ratio of the number of photons to the number of corpuscles, 11.3. Orig. art. has: 4 figures and 2 tables. ..SUBCDDE: OT/ sum DATz: i!)Apr65/ CRIG REF: OlO/ OTH REF: 005/ ATD PRESS: L.Sard UDC., -591:629.19 537  S/148/60/000/008/002/018 A161/AO29 AUTHORSs Chuyko, N.M.; Rutkovskiy, V.B.; Konishchev, M.P.; Eex-evyazko, c_A.G,., Tregubenko, A.F.; Yatskevich, I.S.; Zabaluyev, I.P.T--Ku-r- ganov, V,V.1 Bobkov. T.M.; Antipenko, 0.1. TITLE: A New Smelting Technology Under White.51ag for Ball Bearing Steel of Oracle lUX15 (ShHh15) FERIODICALs Izventiya vysshlkth uchobnykh zavedenty. - Chernaya metallurgiya, 1960, No. 8, PP. 38 - 47 TEXTs At the "Dneprospatestal"' Works up to 1956 ShKh15 steel was teemed simultaneously with slag and no attention was paid to steel treatment by slag in the ladle during the teeming. The final S content of 0.02% was obligatory and the rifining took tetween 2 h 10 min and 2 h 40 min or more. The refining time had been cut down to I h 50 irdn - 2 h 10 min by addition of ferrochrome Into non- reduced metal with a content of 0.025% S. To boost the heat process and to im- prove the metal quality, N.M. Chuyko suggested to cut the refining time to I h 10 min or less by deoxidation and desulfuration of the metal with electric fur- nace slag in the ladle during teeming. The article contains details of this new Card 1/3  S/148/60/000/008/002/018 A161/Ao2g A New Smelting Technology Under White Slag for Ball Bearing Steel of Grade WY15 (ShKh15) technique. The effect of the oxidizing and reducing heat period factors was de- termined, The formation of highly-basic and well deoxidized slag was mainly studied. The slag quantity used was 4 - 5% of the metal weight with a CaO con- 't6ht of ove'r 55%, Poo beivw 0.4% and CaF2 below 2.0%. FI-rot a considerable quan- tity of slag was spilled through a widely open hole into the ladle, and then met- al poured from 3 - 4 m height in a solid jet, which brought about a large con- tact area with slag aiul rapid deoxidation and desulfuration. The optimum param- eters of the oxidation period were stated to be: &[C] - 0.3 - 0.5% at a carbon burning rate of 0.4 - 0.5%/h, and a metal temperature of 1,545 - 1,5650C before skimming the oxidizing slag. The reducing period under lime-chamotte whIte slag with low calcium fluoride content proved to be expedient, as wall as the treat- ment of the metal in tkie ladle by this slag. The optimum slag composition is: (FeO)