SCIENTIFIC ABSTRACT LATASH, YU.V. - LATASH, YU.V.

MEDOVAR, B.I.; LANGER, M.A.; LATASH, Yu.V. Transgrarmlar corrosion by sulfuric acid of austenits stable aeld-resistant steals and welds under compressive stress. Avtom. avar. 10 no.1:46-50 Ja-F '57. (HLRA 10:4) 1. Ordena Trudovogo Krasnogo Znameni Institut elektroavarki im. Ye.O. Patona AN USSR. (Steel alloys-Corrosion) (Sulfuric acid) (Strains and stresses)  MOVAR, B.I.; LATASH, Yu,, V Pure austenite welded jointo resistant to hot (crystallization) cracks. ATtom.. avar..10.no.2:32-45 Mr-Ap '57. (MLU 10:6) 1. Ordena TriOnvogo Krasnogo Znam8ni Institut elektroevarki im. Te.O. Patona, Akademii nauk USSR. (Steel--Welding) (Austenite)  I C S Yu.A,~-, LATASH, Yu.V.; MEDOVAR, B. I.; ZAYTSEV, Yu.N. Desulfuration of the welding melt for electric are welding and automatic seam welding with flux. Avtom.sver. 10 no.4:71-74 Jl-Ag 157. (IqIRA 10:10) 1. Ordena Trudovog Krasnogo Znameni Institut elektroevarki imeni Ye.O.Patona Akademii nauk USSR. (Desulfuration) (Ilectric: welding)  'r 10 TR S' v, DUBROV, N.F., Imnd. tekhn. nauk; MIKRAYWV, O.A., kand. teklm. nauk; MIDMAN, I.A.; DMLOV, -'*H.-, SCROKIN, P.Ya., Imnd. tekhn. nauk, starshiy nauchnyy sotrudnik; XTMOV, D.K., kand. takhn. nauk, dots.; SOYFER, V*M.; _L&TA5H,,, Yuj,, mWshiV nauchnyy sotrudnik; IIIAMOTAYEV, S.P.; BN=IMAN, A. Is; SkPKO, A.I.; PXTU OVg G.K., .-mnd. tekhn. nauk YEDIUMAL, P., kand.takhn, nauk, dots.; IAPO-A=IN, N.M., lcml. tekhn. nauk, starshiy nauchnyy sotrudnik; ROZIN9 R.N.; NOVIK, 1.M., kand. tekhn. nauk, starahly naimbnyy sotyn-ldnik; L&VRXNT'Y9V, B.A.; SHILUYXT, B.A.; SHUTXIHr N.I.; GNUCHU, S.A.,-kand. takhn. nauk, starshiy nauchn~7 sotrudnik; LYUDMO, K.F., dokbor-imsh., prof.; GRUZXNg V.G., kand. tekhn. nauk; 3kalK, S.Ya.; POLTAWV, A.Ym., Imnd.tGkhn. nwak; PEDCFMKO, AeI**,'AGH1W# P*Ya,, prof., dokbor; SAMARIX, A.M.; 3OKSHITSKIY, Ya.M., imna. teklii. nauk; GARM, G.A., kand. teldm. nauk; HARKARYANTS, A.Ae, kand. tekhn. nauk; ERAM07, A.D., prof., dokbor tekhn. nauk; ' ~ , L.I.; DANILOV, P.M, Discussions, Biul. TSNIIMlM no.18/19:69-105 157. (MIRA. 11:4) 1. Direktor Urallskogo instituta chernykh metallov (for Dabrov). 2. Direktor TSentrallnogo instituta informataii Chelnoy I metallur- gii (for Mikhaylov). 3. Hachallnik nanchno-issledovatel skogo otdela osobogo konstruktorskogr, byuro tresta "ILektropecht" (for .elldman). 4. Shchallnik T-rtenovskoy la:bo'ratorii Zlatoustovskogo metallurgicheskogo zavods -for Danilov, A.M.). 5. Iaboratoriya protsessov stalevareniya Institnta mtallurgli Urallskogo filia3a AN SSSR (for Soreklin). /_ .. _%  DMOV, N.P.- (continued) Card 2. 6. Urallaki7 poUteldmicheskiy institut (for Balakov). 7. Starshir inzhenar Hryanskogo masbinosturcitel;zzogo, zavodp- (for So7fer). 8. Institut elektrosvark4i im. Patow AN URRS (for latash). 9. Na- challnik Mentrallnoy zav,odskoy labcratorii Tralmshzavodall (for Zamotayev). 10. Dnepropetrov-skiy matallurgicheskiy institut (for Sapka). 11. Moskarskiy institut alvall (for 'Tedneral). 12. TSsutrall- w nauzhno-isaledovatel'sny instit-Lt, chernoy metall'urgii (for Gnuchev, Iapotyshkin). 13. StArshiy mazter Leningradellcogo zavo&a Im. Kirova (for'Rozia). 14. Institut metellurgii im. kova AN 4 B ay SSSR (for ITov-ik, Pblyakar, Garnylc). 15. Nachallnik tekhnicheskogo otdela cavoda "Bollshevik" (for lavrentivev). 16. Starshiy inzhe- ner tekbnicheskogo otde.1-a Glavspetastali Hinisterstva chernoy metallurgii (for Snilyay-z7), '117. Zamestitell nachallaika tekhni- cheskogo otdela zavoda "Mektrostall" (for Shutldn). 18. Frey- allc-Ldieml-YA, Ger.,f "%skayrl Vemokraticheskaya Respublika (for Lyademan). 19. Zaveduyushchly laboratoriyey sta!'- nogo litva TSentrallnogo nauchno-issledovatellskogo institute, tekhnologii i maBhinostroyeniya (for Grazin). 20. Starshiy mast-3r elekbrostaloplavilin7l& pechey Uralvagonzavoda (for Barin). 21. Zamastitell nachallnika elektrostaloplavillnogo t&ekha zaroda "Sibele4trostall"' (for Padchenko). 22, Zavedu7whchly- kafedroy metalluxgii stali i elektrometallurgii chernykh matallov Ienin- gradskogo politekhnicheskogo instituta (for Ageyev). 23. Zaile- stitell direktoraInstituta metallurgii im. Baykova AB SSSR, chlen- korrespondent AN SSSR (for Samaria). (Continued on next card)  7 TFR , N.Y.--(continmed) Card 3. 24. Hachallnik laboraturii ITSentrallnogo nauchnc-issledovatellskogo Instituta chernoy metallurgil (for Bokshitskiy). 25. Zaveduymshchiy kafedroy alektrometallurgii Sibirskogo metallurgicheskogo insti- tuta (for Ir-arov). 26. Nachallnik elektrostaleplavillnogo tsekha Kuznetskogo metall-argicheskogo kombinata (for Tedor). 27. Nachall- nik elektromstallurgicheskoy laboratorii Kuzpetskogo metallurgiche- skogo kombinata (for Danilov, P.M.). (Sbesl--Metallurgy)  137-58-6-11784 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 6, p 83 (USSR) AUTHORS: Paton, B.Ye., Medovar, B.I., Latasb, Y I TITLE: Electrical Smelting of High-ailoy Steels and Alloys in a Water- cooled Crystallizer (Elekt riches kaya vyplavka vysokolegiro- vannoy stali i splavov v vodookhlazlidayemom kristallizatore) PERIODICAL: Tr. Nauchno-tekhn. o-va. chernoy metallurgii, 1957, Vol 18, pp 6Z3-628 ABSTRACT: The Electric Welding linstitute im. Ye.O. Paton of thie Acad- emy of Sciences, Ukrainian SSR,has developed a method of making ingots by continuous build-up of metal in a water-cooled copper crystallizer, using an arcless electrical slag welding process. The heat source is fused electric ally- conductive slag, through which an electric current is passed from a con- sumable electrode to the ingot. Wires of 5-8 mm diameter may be used as the electrodes, The alloying elements are iri- troduced iii the form of wire or graiwles. The electrode and the alloys, immersed in the slag, attain a temperature of up to 20000C, fuse, and form an ingot. The ingot descends as it Card 1/2 builds up. The consumption of slag-formers as 1-2% of the  137-59-6-11784 Electrical Smelting of High-alloy (cont.) weight of the ingot. This method may also be used to cast hollow ingots for .ube manufacture, An equipment, the R-813, has been develOpLd to cast round solid and hollow ingots of 135-300 mm diameter, 1500 mm in length, at an output of 150 kg/hr. If the composition of the smelted steel includes Ti or Al, the slags used contain CaF?-CaO-AlZO3 compounds. The m.p. and viscosity of the slag have a significant effect on the surface quality of the ingot produced. The longitudinal orientation of the crystals and the ab- sence of axial porosity, scabs, and cracks contribute to make this a metal of optimum plasticity in hot mechanical treatment. The area of application of this method is the production of tough and resilient steels and alloys. V.B. 1. Steel--Production 2. Alloys--Production 5. Electrical equipment--Applications 3. Alloys--Casting 4. Steel--Casting Card 2/2  AUTHORS- M-edovar, B.I., Latash, Yu.V., and A.U. TITLE6 Electric Slag Vlelding With Plate Electrodes of Chrouie--!,Jck;-~! Austenitic Steels and Heat-Resisl','ant Alloys -.,aya svarka plastinchatym clektrodom khromionikele-vykh tenitnykh ataley i zharoprochnykh splavov) PERIODICAL.- Avtomaticheskaya svarka~ 1950, Nr ne, pp 9-19 (US-1R) ABSTRACT-. The article presents experimental data on and discusses sc,!,-i,~ riietallurgical and technoloCical peculiarities -,f electril-1- slag welding with plate electrodes and electric-1-onducting "AN-25" flux, proposed by G.S. Tya6un-Belous, -1sed fer -~;eld- ing short seams in austenitic steel and eat-resistant. alloy rods with cross sections up to 1710,000 mm . In devejopirE; Th~-~ new method, it was stated that correlations ey-~st betwae:~ physical-chemical properties of the slag and specifi-c- def-- ciencies of the reld joints in the form of unwelded portilo!)--. It was proved that the use of fluorine fluxes ensures comple-.e passage of easy-oxidizing additions, such as aluminum, ium and boron, from the base and electrode metal int-, the !,ear,, Card 1/2 metal. Information includes technological recommendat--'-on,--. fair  -7--/ % /I s- 4,p % op 11// i)a 4 Z, r / J'* O's. 11 = f 4tt rleD OW -7 "7"-- 4-4,, ~ AFA.-L 44