SCIENTIFIC ABSTRACT LEBEDEV, A.YE. - LEBEDEV, B.I.

01,10PTIMFIKO, V.P.z LvX7TSV. A.Yoo compceiticm or the sintor charee mixture Qnd its PreParatiOn for Bintering in sintoring plantz of the Ukrainian S.SoR* sbor.trtw. urmu no.nt7-3.7 65. (I-tIRA .18:11)  _@-E@E7-D-EV, A. Ye.; AN TONOV V. K., PoA-@. P-FD I Ma' - V, VOYSAI G.G@; I I NE Fri ml-ma]-J. ias IN K@-) f.-ARP()%rETS* B.S.' Lxper-"'enc6 I.Tt t-'-e! f ore. Sbot-@trud. UNI-!M t, -7- ,AMA  LEBEDEV, B. Comminist labor competition in a brigade. Sov.prosoiuzy 17 no.22:24-26 N 161. Odiu 14: 10) (Instrument industry) (Socialist competition)  LEBEDEV, B. Reeolutions of the Rovember Plenum are going into effect. Sell. stroi. 17 no-4:3-4 Ap 163. (MRA 16:7) I. Predsedatelf Kaluzhskoy oblastnoy mezhkolkhoznoy stroitellnoy organizataii, (Collective farms-Interfarm cooperation) (Construction industry)  Z/056/62/019/006/004/005 1037/1237 AUTHORS: Paton, B. and Lebedev, B. TITLE: Some results @ d @fuahe, @tak, in the field of industrialization of mounting works in steel sheet constructions PERIODICAL: P@ehled technickd a hospoddisk6 literatury, v. 19, no. 6, 1962, 372, item HS 62-4710 TEXT: Introduction of mechanized welding of steel leaves 18-50 mrn thick for high furnace coatings. Variations in methods for the construction of the coat from the leaves, in order to have the joints favorable for mechanized welding. The evaluation of the variants. Electroslag and gas welding. Improvement of the welding instruments. The advantages of large areas prefabricated by welding of leaves in the workshop. Some shortcomings and way for improvement. Prom. Stroit, v. 40, no. 1, 1961, 1, 28-33 [Abstracters' note: Complete translation.] Card 1/1  POVORnMM, Ta, A, ; LIKB=Y, B.A. V.K. Ulasishchav; 60th annlvarsax7 of his birth and 3411h a=lveri=7 of his scientific, pedagogics and organizational activities. M2. nevropat. psikhlat., Moskva 53 w,12:979 Deco' 1953 (C UG 25 :5  LIBEMV, B.A. Coupled function of the cerebral hemispheres in man. Zhur.rys.nerv. deiat. 4 no.4.-474-481 Jl-Ag 054. MRA 8 t 3) 1. Tretlys, paikhiatricheokaya klinika Leningradskogo paikhonevrole- gicheekogo, institute, im. V.M.Bekhtereva. (BRAIN, physiology. couples funct. of aerebral hemispheres in man)  LEEKIMIN, D. A. ""hare c terist ics of the Hi-qher --e:,vous Activity of @;-atients i' iti. @.sycnic Distru'li2r,ces and Foci of Brain DiseLise Durin;, ArturioscLeroois-," Cand '-@ed @'Ici, -enin-rn-l VedicA Inst imerd 1-1 . I. P..!vlov, Len! ir,rad, 3-955. 1 Wirst L (7,L, @,;r, 16, A@r 5 - SO: Suril. No. 704, 2 i1ov 55 - Survey of Scienti-fic and Techtnical Dissertaticns Defended at Ujl-'R 14ivher Educational Institutions (16).  V TARN V, B.A._. Ditilin, a Russian preparation for facilitation in electroshock therap and prevention of possible complications [with summary iz'@ French5. Zhur.navr. I psikh. 57 no-12:1487-1494 '57. (MIRA 11:2)1: 1. 3-ya paikhiatric-heekaya klinika (zav. - prof. Ye.S.Averbukh) Ioningradakogo paikhonevrologicheskogo Institute imeni V.M. 13ekhtereva. (SHOCK TEHRAPY, ELECTRIC, adjuvant, muse. relazant ditiline (RuB)) (RUSOLP6 RNIAXANTS, therapeutic use, ditiline, prev. of compl. in electric shock ther. (Rus))  AVERBUIH4 Ye.S.; VISHNEVSKAY4p L.N.; GAFONOVA, V.D.; DOILINITSYN&O A.D.; I ,SF_12@0, V.L.; LEBEDBVq B.A, Modern approach to the investigation and treatment of mental dis- turbances in *4pertens@aa. TtW Goa. nauch.-issl. psikhanevr inst. no.20:i4l@_U2 199.1 (MIRA 14:1i 1. GosudArstvennyy nauchno-is4ledovatellskly paikhone0iologicheskiy institut imeni V.M.- khterevat Leningrad. (MTAL ILIMI)e (HYPMITENSION)  LEBEDEV, B.A. Prevention of neuropsychic disorders in hypertension. Trudy Gos. nauch.-issl. psikhonevr. inst. no.24:67-73 161. (MIRA 15:5) 1. 3-ye psikhiatricheskoye otdeleniye Gosudarstvennogo nauchno- issledovatellskogo psikhonevrologicheskogo instituta imeni Bekhtereva. (MENTAL ILMESS) (HYPERTENSION)  0 rVi- V0 0 , 0 0 0 0 0 00 0 0 10 0 0 0 a 0 0 4 0 00 a 0 0 0 61 , 4:6 0,0 00 000 4 04 0 0 0 0 0 0 * 0 a 0 03 1 d I & ? v al v li to is tol It4 JO ZY A M J9 )I JJ U A$ 'S 16 U 11 P 6; 49 41 U 0 A 0 11 c to P F c M I I L z m b to - 0 0 1 too 00 IJ 00 -0 Treatment of pyrite ai"O. io@kk kd -00 00 1936. No. 23. eXllt%. age rcl,ourtoi,if ton a ovictIMMI tir t t f i -00 s men o te kJaggs frogn wolL, Tilt alas pyr fi hl @.00 04 are nt c oridued with X&CI or CI Sa., In rotating fur- " 00 a r4ces at 1000 the chingides of rojetall are an.1 -00 --cited over in known -a". The moidu, (,,,, the 4tism w 00 . in mellinst rs,t lot", slovatt'lWog; -00 06 or 00 00 E no* 00 00 Zoo =00 '410 0 KED A ;*0 '00 00. CA 0 tTALLLforKAL LiTtWivill (LOSWICATIC. tz, t:00 to 8 ' A. ; ; , to, J of A n An s a fw a to to I too of I ji a a low n 0 @ : 0 1110, 0, f 0 * 0 411 0 0 0 0 0 0 6 0 0 .@0'49 0 * * O's * * 0 0 0 0 40 4 0 * 0 0 0 a 0 0 0 0 0 0 so 0 0 a 0 0 0 S a 4 0 0 * 0 0 0 0 0 0 0 0 0 0 0 0 0 0  o o 0 0 @ * 0 o 0 o -o s @ S 4 1 1 9 a 111:1j"IS16 IIII; it an 1i it III It 71 11AAu Vv 11 S4 is mif It Ir 4, 41 Ij it OES __A t- IAA WCC (Q tt _f G A I L_L@ A .14 P .2 9 1-I V V oe ILI I _#s 0 so It 00 00 ell 1-11 -00 00 -00 of r SoiubLUty at ammoWum gta&tg in aqueous R=oj3j&. A. 11. Diam,)LgIcIr. it. 00 a .1MMkWRV,ANDAf.Kn.T1tjFOMOVA. -00 The sy%frin -Nifir-140 WIL'i studied at jI; as Al-, so so 4 =00 so 40 of 00 :v 0 Mfj,ktttPrKAt WEWLIRI CLAWFICATION 00 %.A)aj -6 "1 jAn 4 -i it __N 5- jl- O_ is TOU SOS Al v i o 0 0 0 1 Q, pf rp rp It or 69 K a it uit ff itIIIT on 14 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a 0 0 # 111 0 0 0 0 0 0 0 0 a 0 0 0 0 0 0 0 0 0 0 0 0 0 0 4 4 0 0  L LPMO-Vi-At-Ae, cRAZOVA, V, V. 2. SsSA (6()0) 4, Ural 'fOutain Regi,u_AgrIcultr' 7. Action Of fertilizer Sov. agron. 10, so. 8 on ne'wlv recleimed lands Of the northern Urals. 1952 9. X@n Lh @I Accessions Library Of Congress, y9bruar 953' Unclassified.  Systelas with v')ncumtrated b Isothermu ot the wnaq IYA13ftin"e, peroxide-water. '11,11,arov alut a. A. T-777r@-.v No. C, -1 hellym@nl lrel""10` ified by solubility tnettlodq at . - 01 o I E qui i libill in clleclce(l by anal)-fit'l of @ S" Prid 11), @rlllll @IcLeksj%*e.. salnph:s from 1,@,th phas-i. The H,O, I% freed front vaMijiets and In vac, to 70--80%. At conce. of Up to 5-710, 11,0, in the tiquid phase, the -olubility of Urea irlcrLast-s to 49-54%, the aolid Ithase being urea. At higiwr concrl of If 02. the soluH.1ity of urea drops to 100, V Nal-ing out and tile tofid phase ;i 'the perils-drato Containing 17% ul activo 0.. No 1,Ahtf compound of u;ea Ii found. Int,-rulclitate p:)ints c(nT-_1jwMd to two &ohd pham, ureA and urea p-rhydrato, At concn. of 11,0, >700,10, difficulties at,,! iner-w%ed bv d,,xtAnVnjtij)jj of 11,0, and reaction of H%01 with or(-.%, 'File isGtherms am, charactetlied hy t,-a blandle-3 correspond- Ing to two sopd phaseq.- "4,fic (indingi do not agree with thoso of jnn,.cke. W. @J.IkNll.  soils of the Rdle of copper and boron in the cultivation of bog Journal of the Scionce '11orth Urals, 11, -Ay'l.t.hefler (Porlwim"'deni", 1 153. 'No. 4. .12-44 of Food and Sodi C@- Fell."I k2k) d'11110'-d Itm, yiehli' IIUL limax t'-'O t,-lifly mervased Ai I-I-irch J(@54 A. 6.  ITIB-T)FIV. B.A. The effect of 80il condition, Ural On the growth Of Siberian nin, MOuntain region. TrucI7 1,1:3t.biol. UFAM SSsR in the (Tiral 140untain region no-6:62-75 '55 --pi 9:2) n4l) (Ural @1011ntaln region--Soj 1. ' '  _; @__ - I@- @; LAVROV, A.V., otvetetvenn" redaktori professor. [Soils of the non-Chernozem zone of the Urals]. Fochry necherno- sommol polosi Urala. Sverdlovsk, 1956. 74 p. (Akademiia nauk SSBR. Urallakii filial, Sverdlovsk. lubtitut biologii, Trudy no.7).1 (KLRA 10:6) (Ural Kountain region--Soils) (Agriculture)  .- LEBEDEV t Boris Alek., M2!-',ch; GRUNEV, B.2 red.; mAKS [IN IMOVA, E.2 tekhn. re' whe .. J,,t,7 and 4. ag-riculturel Khimiia i Sellskoe khozialstvo Sverd- I'Vsko Svedlovskoe kniZhnoe izd-vop 1959. 43 p. 0 (Agricultural chemistry) (YL-",& 14-'.12)  4BREV B A ; KAI?AVAyEV V. Use delleof ba"c Open-hearth Blags 24 no.9:35-39 S 162. to increase crop Yields. Zemle- 1. (MIRA 15:10) kh Ura'I'Ok'y nauchnG-issledovateliskiy- Institut sel'sk.go OzYaYstva. (Fertilizers and manures) (Slag)  GTxB0lVSJ(JT f S-S.; LFBrQ)EiV p BOA. Use Of li4or element, Of SedimOntary-mg In breaking down a monoto_ne 187 tamOrPhic rooks, cross section -191 164. VOP. ralved. goofiz. no.3: (11IRA 18:2)  =DZV A B, A, Foreword. Trudy GOs. aauch. issl. psikhonevr. inst. 290 1. Direktor Gosudarstvannogo nauchno.-Issledovatellskogo chei3kogo institute, imeni V.M. Bekhtereva. f63. (@ERA 17: 8) psikhonevroJogi-  =NNW S ContaFn Mv arid r3 D T@: u 5J, I'd urt@A at Ill.) th,! a ts dcm Ultod .4 f r@pr@ w U-.1- J, 'lot the d-t] )'(11. 67@ of - - acz &,-a led COIJUIlle" I 10 With- Ill r jl-,,@,, at atill, U-.11el arl rt,- .1 wi,@, t,- With til kt,11 uP lh tzup. ei-"Ce Of d,oMp". to 24)  cl KAIIARov, Study of The thOrmasy8tems Wlt'h .1 tabl2ity of the hy co"Ce"I"ated hYdrogez, PerOxlde. part 10. no*-5:785-788 s-0 I drOperOxide. Iz., AN SSS12 I'Instltut obahchey 1 55. (KLRA 9:1) va Ak&deml, nauk SSSli neorganleheakoy jrhi.3,, (HYdrogell P'* Imenl I"S,Kurnako- OrOlIlde) (Urea)  S/078/61/006/005/011/015 B121/B208 AUTHORSt Rode, Ye. Ya. and Lebedev, B. A, TITLE- Physico-chemical study of molybdenum trisulfide and of the products resulting from its thermal decomposition PERIODICALs Zhurnal neorganicheskoy khimii, v. 61 no- 5, 1961, 1169 - 11@7 TEXTs Molybdenum trisulfide preparations and the products resulting from its thermal decomposition were studied by physico-chemical methods. The preparations synthesized were subjected to chemical, thermographic, ther- mogravimetric and X-ray analysiss and the diagram composition versus tem- perature was studied. The thermograms were recorded on a Kurnakov pyro- meter with differential recorder. The preparations were synthesized by the following methodes a) saturation of the hydrochloric acid solution of ammonium molybdate with hydrogen sulfide, b) treatment of the aqueous solution of ammonium thiomolybdate with hydrochloric acid, c) treatment of crystalline thiomolybdate piperazine with dilute hydrochloric acid so- lutions, d) dry method - by thermal decomposition of pure ammonium tetra- Card 1/4  B/078/61/006/005/011/015 Physico-chemical study of B121/B208 thiomolybdate at 190 - 200 00 in the absence of oxygen. The preparations of molybdenum trisulfide obtained by the wet method contain more sulfur than corresponds to their stoichiometric composition (up to Mos 3s7 ). Extraction with carbon disulfide reduces the sulfur content to MoS 3,3' The molybdenum sulfide prepared by the dry method contains less sulfur than the preparations obtained by the wet method. Thermograms and thermogravimetric analyses in- dicate that the aqueous molybdenum sulfide preparationst when heated to 2500C in oxygen-free atmosphere, are completely dehydrated and partly re- lease the excess sulfur. At temperatures of 250-4000C MOS3 is decomposed forming intermediate products the end product of which is MoS 2* X-ray phase analysis disclosed that at 300 aC amorphous products result from the thermal decomposition of the preparation of no. 1 obtained by treating ammonium thiomolybdate solution with hydrochloric acid. At 3500C X-ray lines of crystalline MoS can already be observed in these products. The X-ray anal- ysi's of preparation 9 which was obtained by treating thiomolybdate piper- azine with hydrochloric acid indicated that this preparation is also amor- phous up to 2000C, so that the term "crystalline molybdenum trisulfide" Card 2/4  3/07BJ61/006/005/011/015 Physico-chemical study of ... B121/B208 seems to be incorrect. It differs from the usual preparations in that thermal decomposition sets in already at a temperature of 1900C under the formation of new phases. The crystallization process of MoS 2 resulting from the thermal decomposition of molybdenum trisulfide proceeds in two stages. First a rhombohedral modification of.Mo$ 2 ip formed which then into a hexagonal stable modification on continuous heat treat- passes over 0 ment at 600 C. Molybdenum disulfide obtained by the method of M. Guichard (Ref- D Ann. chim. phis. 7, 23, 557 (1901)) by thermal decomposition of ammonium molybdate and sulfur in the presence of potash contains both rhombohedral and hexagonal MoS2 modifications which was confirmed by X-ray analysiso P. A. Koz'min is thanked for his interest in these studies. Papers by L. Sokol (Ref- 31: S'O. chekhoslovatskikh khimicheskikh rabotj1954 razdel ltnimiya"q t. 219 no- 5, str. 1140) and A. N. Zelikman, L. V. Belyayevskaya (Ref. 259 Zh. neorgan, khimii, 1, 2239 (1956)) are mentioned* There are 5 figuresp 3 tablesp and 31 references: 6 Soviet- bloc and 23 non-Soviet-bloc. The four most recent references to English- language publication6 read as followss Ref. 18t R. E. Bell, R. E. Her- Card 3/4  S/078161/006/005/011/015 Physico-chemical study of,.., B121/B208 fert, J. Amer. Chem. Soc-, 79P 3351 (1957); Ref. 19@ R. G. Dickinson, L# Paulingp J. Amer. Chem. Boo., 45v 1466 (1923); Ref. 249 F. Jellinek, G. Brauer, H. MUller, Nature (London)q 185, 376 (1960); Refo 26g P. Cannon, Nature (London), )6 1, 1612 (1959), ASSOCIATIONs Institut obahchey i neorganicheakoy khimii im. N. S. Kurnakova Akademii nauk SSSR (Institute of General and Inorganic Chemistry imeni N. S. Kurnakov of the Academy of Sciences USSR) SUBMITTEDs June 2, 1960 Card 4/4  S/078/61/006/005/012/015 B121/B208 AUTHORS& Rode, Ye. Ya. and Lebedev1__@-,''A.?.. TITLE: Phy8ico-chemical investigation of rhenium sulfides PERIODICALt Zhurnal neorganicheskoy khimii, v. 6, no. 5, 1961, 1198 - 1203 TEXTs Re 2S7 was obtained by precipitation with hydrogen sulfide from a hydrochloric acid potassium perrhenate solution in the following wayt A homogeneous stream of hydrogen sulfide was passed for 3 - 4 hr through a solution of KReO4 (5 g in 2.7 1 water and 1.3 1 concentrated hydrochloric acid) at 80 - 900C, to cool the solution. The precipitate was allowed to stand over night, and decanted some times with cold water saturated with hydrogen sulfide. The precipitate was filtered off, washed with hot water, and dried in the vacuum exsiccator over concentrated sulfuric aci A dark-brown powder with variable composition was obtained. The prepa- ration synthesized was examined by thermographic, thermogravimetric, and X-ray analysis. It may be seen from the thermographic analysis that the Card 1/3  S/078/6i/006/005/012/015 Physico-chemical investigation ... B121/'B208 first endothermic effect appears at 35 - 110 0C9 which indicates the re- lease of hygroscopic and not firmly bound water. The second endothermic effect appears at 156 - 2800C indicating a further release of water and the decomposition of rhenium. heptasulfide. The thermogram of rhenium hep- tasulfide dried over sulfuric acid in the vacuum exsiccator shows only one endothermic effect at 120 - 2300C, At higher temperatures no other thermal effects occur. At 4000C decomposition of the ccmpound sets in forming ReS 2* At higher temperatures a continuous decomposition of Re 2S 7 takes place, at 800 0C the decomposition product has the composition ReS 2,06' Intermediates of a composition between Re 2S 7 and ReS2 were not found to be formed. The rhenium heptasulfide obtained by the wet method is amor- phous in the X-ray pictures, only after a heat treatment at about 4000C crystallization products of ReS 2 were found, The crystallization of rhe- nium disulfide obtained by thermal decomposition of Re 2 S7begins at 4000C and proceeds more slowly than the crystallization of MoS 20' P. A. Koz'min assisted in this work. There are 4 figuresp 2 tablesp and 17 references3 2 Soviet-bloc and 15 non-Soviet-bloo. The references to Engl@,sh-language Card 2/3  S/076/61/006/005/012/015 Physico-chemical investigation ... B121/B208 publications read as follows: Ref- 5, H. V. Briscoe, P. L. Robinson, E. M. Stoddartf J. Chem. Soc. (London), 1439 (1931). Ref. 11, R. W. Wyckoff, Crystal Structures, 1948, V- 1, P- 15. ASSOCIATION: Institut obshchey i neorganicheskoy khimii im. N. S. Kur- nakova Akademii nauk SSSR (Institute of General and In- organic Chemistry imeni N. S. Kurnakov of the Academy of Sciences USSR) SUBMITTEDt June 2, 1960 Card 3/3  RODE, Ye, Ya.; LEBEDEV, B.A. Physiocochemical study of molybdenum trisulfide and of the products of its thermal decomposition. Zhur.neorg.khim. 6 no.5:1189-1197 MY 61. (MIRA 14-4) 1. Institut obshchey i neorganicheskoy khi*ii imeni N.S.Xurnakova AN SSSR. (Molybdenum sulfide) kt-  ACCESSION' NR, AP4044806 B/0078/641009/009/2068/2076 AUTHOR: Rode, Ye. Ya.; Lebedev, B. A. TITLE; Tungsten @@ides SOURCE: Zhurnal neorganicheskoy khimii, v. 9, no. 9, 1964, 2068-2075 TOPIC TAGS: tungsten sulfide, tungsten trisulfide, tungsten disulfide, ammoni- um. thiotungstate, ammonium thiotungstate, catalyst ABSTRACT: The thermal decomposition of ammonium thiotungstate was investi- gated in an inert and in a reducing atmosphere. The WS obtained as an interme-, 3 diate product by thermal decomposition at 260C in nitrogen differed from the WS3 formed by precipitation of ammonium thiotungstate with HCI in that it did not con-, tain sulfur and Oxygen- compounds of tungsten. The thermogroms for this WS3 showed a gradual endotherm beginning at 250C, attributed to simultaneous decom- Position Of WS3 and vaporization of the sulfur, and an exotherm at 330C, when the: WS3 crystallized, No other thermal effects were observed up to 700C. X-rays Ah9wect decomposition of ammonium thiotungstate was only partial at 280C and ard It 3  L 2o681,165- ACCESSION NR: -AP4044806 that WS startrd to form at 360C. WS3 dissociated, starting at about 300C, to for ____2__1 ----0 - __ - - - -lfur (WS )-characterized by disordered crystal- m WS2 con @aining excess,su 2.2-0 .;-line struc t, ture.. - -The-- end-product ot decomposi ion in inert atmosphere at 1000C was WS Of stoichiometric -composition with the ordinary hexagonal'ciystalline 2 structure of the molybenite (MoS ) type. Thermally stable decomposition products intermediate between WS3 and @A,2 were not observed. The decomposition of ammonium thiotungstate in a hydrogen current was conducted from 100- 1000C. There was no decomposition at 15OC; an amorphous material containing WS2 with a small excess of sulfur was obtained at 200C. It was suggested that this materi- al might have better catalytic properties than WS2 obtained at 400C. Stoichiome- tric WS 2 tcharacterized by disordered structure, was stable in the hydrogen atmosphere at 300-650C. The decomposition product obtained at 700C was poor in- StWdr in -comparison to WS2 and was monaphasic with disordered structure of 'behavior similar to WS2. Starting at 600C the decomposition products were me- chanical mixtures of WS2 and W; at 1000C the product was practically all metal- lic tungsten. No compounds of intermediate composition between WS2 and W, as suggested by S. M. Samoylov (Izv. AN SSSR. Otd. khim. n. , vy*p. 8, 1416 Card2 / 3  jj 2o681-65 ACCESSION NR: AP4044806 (1961)) were established in the hydrogen current thermal decomposition of the "t "L. Z. Gokhman took part in the work. Orlgr. art. anximonium-thiolungat; has:'6 figures and,2 tables ASSOCIATION: Institut obshchey i neorganicheskoy khimii im. N. S. Kurnakova Akademii nauk SSSR (Institute of General and Inorganic Chemistry, Academy of Sciences SSSR) j S"MITTED: -13Jun63 ENCL: 00 SUB CODE: GC, 1C NO REF SOV: 005 OTHER: 011 C,rd 3/ 3 "M - :L2,L-@zA  35007 S15631611'00012','C-)10r,~&IOD-7 bymo D215/D304 AUTHM- Lebedev, B.D. TITLE: Influence of alloying elements on the mechanical properties of weld metal SOURCE: Leningrad. Politekhnicheskiy institut. Trudy, no. 216, Moscow, 1961. Svarochnoye proizvodstvo@ 110 - 121 TEXT: All-Dying elements were added singly to a mild steel electro- de to give the following ranges of content in the we -Id metal: Cr, V11 ou, Si 0.5 3.0 %; Al 0,,43 - 0.88 @; Mo 0.7 - 2.5 %,- Mn 1.5 3 '0 %j Ni 0.8 4.4 %. CT o 3 (St,, 3) rimming steel plaies were used as the parent metal; weld metal was deposited by the submer- ged-arc process into a 600V preparation with 2 mm rooi faceo Alloy- ing was effected by using a powder-cored wire made from 0.5 x 15 mm mdld steel strip and iron and alloy powders@ From each weld were taken 2 3 mm dia@ longitudinal weld tensiie specimens and j trans- verse impact specimens (5 x 10 mm) with the notch vertical, The re- sults are tabulated and shown in graphical form@ With most alloy- Card 1/2  S/56 61/000/216/004//007 Influence of alloying elements on / 304 D215% ing elements the sTrength, mechanical properties and hardness in- creased continuously with increasing elemenT addit-A'.ons except -chat 1) at 3-3 % V hardness continued to rise but the strength fell, 2) at Ni-@- 3.0 % and Mo:::> 1,,0 % both strength and hardness decreased, Tensile ductility properties decreased with increasing contents Of all elements except Ni up to 3,5 % (above this hot cracking was ob- served) and Mo up to 1.5 %. Impact strength was lowered by all ele- ments, If a minimum elongation of 10 % and min. impact strength of 4 km/CM2 at room temperature were mandatory@ then the upper limii of single element addition was 2 % Siy 1 % Al, 3 % Ni@ 2.5 % Mn, 2@5 % Cu, 1 % Mo, 1.5 % Cr, 3 % W@ It was oonsidered that ihe ele- ments moved the A. line to the right and promoted (ex@,ept Cu) irl_ creasing dispersi6n of the structure. All elemento except Mo moved the eutectoid poInt to the left, decreasing the ferrite volume. Cu between 1@38 and 3.73 % formed a new phase, probably the f:,-phase. Mo moved the eutectoid point to the right, first refining and -Lhen coarsening the structure. There are 12 figures, 42 t-ables and 8 So- viet-bloc references. ASSOCIATION: Leningradekly politekhnicheskiy institut (Polytechnic Card 2/2 Instituteg Leningrad)  Determination of -the mechanical Droperties of the -.etal of.welded low-alloyed seams from their che@ical composition. Trudy DKHTI no. 16:193-201 163. (KRA 17:2)  LEBEDEV I B.D. 0 kand. tekhau. nauk Problem of detlerzining the ffllipg coefficient of' a p:j,,j,-Ic-r wire. Svar. proizv. no.9:32 S 165. 1. Dnepropetrc)vi3kiykhlrr-iko--tEk~,ric)lcg-icti(~lokiy ftstltuL,  .L. Lhp@,171-67 EWT M;/LJPk t,)AWJ&Mj'k) JFk p) @CC NR% AP6027487 (A SOURCE CODE: un/o)il8/66/000/0()3/001",/oo45 AUTHOR: Lebedev, B. D. (Candidate of technical sciences); Guzov, F. D. (Engineer) ORG: None TITLE: Cooling acid-resistant stainless steel with an atomized emulsion during machining SOURCE: Tekhnologiya i organizatsiya proizvodstva, no. 3, 1966, 44-45 TOPIC TAGS: cooling, atomization, metal machining, temperature control, emulsion ABSTRACT: The authors describe a study carried out at the cutting laboratory of the Dnepropetrovsk Plant of Metallurgical Equipment and the Department of Metal Technology of DKhTI on cooling steel with atomized liquid during machining. The cutting zone is cooled with an atomizer developed at the Scientific Research Laboratory of Machine Tool Buildingand Cuttin Instruments at the Gorlkiy Polytechnical Institute. The tem- perature field of the cutting zone was studied under laboratory conditions and it was determined that the minimum temperature of the jet is 5 mm from the nozzle and de- creases insignificantly as pressure is increased from 2 to 5 atm. The lowest tempera- ture of the jet was observed at.a flow rate of 830 g/hr. The distance between the atomizer nozzle and the cutting zone was always set at minimum. Optimum air pressure and flow rate were determined at 2-3 atm and 300-800 g/hr respectively. The results Card 1/2 __UDC: 621-90+532-695:669.14.ol8.84  L 063-11-67 ACC NR: AP6027467 show that atomized fluid cooling improves cut@ing tool stability in all aspects of ma- 0 chining. The use of this method in machine ops shows that surface finish is im- proved, particularly in the case of lKhl8N9T acid-resistant stainless steel. Examples are given showing the effect of atomized liquid cooling on various types of machining, tools and materials. CODE: 13/ SUBM DATE: None  'icr c' -r- joi-niz of Clf:l .-h,,Ir @in7 L n-, rJ nn- @1@ 1,.'. 4 SSF. Yi-@v Con-tru&.ion (Dii3:3 r @:-, "ion 'o- @li,7 o in T,-@chrd-l 73ci-jnct) So: Knlzhm:-.i Latopin', No. 18, 1956,  PERIODICAL ABSTRACTS Sub.: USSR/Engineering AID 4195 - P LEBEDEV, B. F. FROCHNOSTISVARNIMI SOYEDINENIY VERTIKAL'NY10i REZERVUAROV, IZGOTQVLYAYEKYKH METODOM SVORACHIVANIYA (Strength of Welded Junctions in Vertical Containers Made by the Rolling Method). Avtomaticheskaya svarka, no. 1, Ja/F 1956: 58-64. The author presents results of tests conducted on vertical tanks for fuel storage at low temperatures. He describes the effects of residue stresses on welded Junctions, the static strength of Junctions with crossing seams, the effects of the rolling process on the strength of welded Junctions, and the static strength of Junctions In points where the container bottom is connected with the body. The MSt.3 steel, 10mm thick was used in the sample tanks. Five tables and 4 drawings. Two Russian references, 1950.  AID P - 4509 Subject USSR/Engineering Card 1/1 Pub. 11 - 7/12 Author : Lebedev, B. F. Title : Static Strength of Horizontal Butt-welded and Lap-welded Joints. Periodical Avtom. svar., 2, 48-57, Mr/Ap 1956 Abstract The author describes the method and results of the investigation to ascertain the relative strength of butt and lap welding of Joints in vertical cylindrical con- tainers built primarily for petroleum products. HIs deduction is that the butt welding of horizontal Joints in vertical vessels made of Martin and Bessemer steels has certain advantages over the lap-welding method. Eight tables, 2 photos, and 1 drawing. 3 Russian ref- erences (1951-1952). Institution : Institute of Electrowelding im. Paton Submitted : 0 24, 1955  Subject Card 1/1 Author Title Periodical Abstract USSR/Engineering AID P - 4839 Pub. 11 - 12/13 Lebedev, B. F. ffect of surface hardening of sheet edges on strength of lap joints. ; Avtom. svar., 95-101, Mr 1956 : The author presents results of static tests of metal lap joints, where one seam is of the intermittent weld type while the sheet edge is cut by shears. The tests were made at low temperatures and with stresses directed alongside the seam. The practical conclusion Is that cutting metal with shears provokes a surface hardening condition in the metal, along the edge, and lowers strength of longitudinal lap joints. Four_tables, 4 graphs and 1 photo. 3 Russian references (1949 56). Institution : Electrowelding Institute im. Paton Submitted : No date  LHBEIXV, B.F. Strength of welded joints in vertical tanks built by the roll method. Avtom.ovar.9 no.l-.58-64 J&-F 156. (MLRA 9:6) 1.0rdess, Tru&ovogo Xrasnogo Znameni Institut elektrosvarki imeni To.O.Patona AN U M . (Tanks--Welding) (Electric weldixr,--Testing)  RAYEVSKIY, G.V.; BMADSKIY, V.N.; 1MMY, B.F.; MARTYNOV, I.G.; TRUSHCHENKO, Industrial methods for manufacturing pipes. Biul. stroi. tekh. 14 no.5: '57.. (MIRA 10W 1. InGtitut elaktroevarki imeni Ye.O. Patons. Akademii nauk USSR. (Pipe, Steel--Welding)  Jp- 7-, 4@ AUTHOR: Lebedev, B.F., 125-1-4/15 TITLEt Investigation of the Influence of Cold Hardening on the Cold Brittleness of Steel and fielded Joints (Iasleduvaniye vliyaniya naklepa na khladnolomkost' stali i svarnykh soyedineniy) PERIODICAL; Avtomaticheskaya Svarka, 1918, # 1, pp 28 - 31 (USSR) ABSTRACT: The author mentions experimental data pertaining to the influence of minor cold hardening: 1) On the construction of storage tanks while the metal is being rolled (bended); 2) on the cold brittleness of the basic metal; 3) on metals in various areas of the welded joints. The investigations were carried out on rimmed steel and killed steels of open hearth production. Specimen blanks were subjected to tempering at 6500C. and submitted to 0.5, 1.0 and 1.5% stretching in a 100-ton tensile testing machine. Deformation values were evaluated by a deformation meter. It was stated that cold hardening of metals by a 0.5 - 1. 0 stretching reduces the tendency of low carbon steel to brittleness, whereas the cold hardening of metal at higher magnitudes increases this property. Special tests have also shown that in the cold hardening of metal by a 0.5 - 1.0A stretching, the yield point increases sl*-ghtly and attains even higher values (from 24.5 to 31.3 Card l/ 3 kg/MM2) in cold hardening of metal by a 1.5% stretching.  125-1-4/15 Investigation of the Influence of Cold Hardening on the Cold Brittleness of 5teel and Welded Joints Investigations pertaining to the effect of cold hardening by bending were conducted with regard to deformation values which occur in the rolling method of production of storage tanks. These methods were proposed by the Institute of Electrowelding imeni Ye.O. Paton. Tests have shown that cold hardening by one-sided bending increases the critical brittleness temperature of killed steel samples by 5 - 100 and that of rimmed steel samples by 101; opposite results were obtained in cold hardening by two-sided bending when temperatures fell by 10 - 150 as in the case of killed steel samples and by 20 - 250 for rimmed steel samples, although theoretical grounds have not as yet been found for the different effects of one and two-sided bending, there are, however, certain data which indicate a method of finding by the solution to this problem. A comparison of the above mentioned peculiarities in cold hardened specimens with the structure of fracture, may lead to the conclusion that a two-aided bending induces a certain Card 2/3 reduction of the grain size on the surface of the metal  125-1-4/15 Investigation of the Influence of Cold Hardening on the Cold Brittleness of Steel and Welded Joints fracture. As a result, the energy of dynamic load is distri- buted more uniformly on a great number of surfaces. The effects of cold hardening by bonding were tested on specimenAs -taken from butt-welded Joints, which had been welded by one- and two-sided automatic welding under flux - OCU-45 Incisions were made in the seams, lines of fusion and at a distance of 5 and 10 mm from these lines in the so-called ageing zone. In such a manner it was stated that cold hardening by bending, when the deformation value of the extreme fiber equals o.5%, has no negative effect on the cold brittleness of various weld zones if killed steel or two side welding is applied. There are 3 diagrams and 8 Russian references. ASSOCIATION: The Institute'of Electrowelding imeni Ye.O. Paton (Institut elektrosvarki imeni Ye.0. Patona)of the Ukrainian SSR Academy of Sciences. SUBMITTED: April 25th, 1956 AVAILABLE: Library of Congress Card 3/3  LXB=V, B.F.,loand.tekhn.nauk.; MARTINSON, Ye.F.,inzh.; SAVICH, I.M1,insh. -Z@ I Constructing an experimental pipeline using flat-wound al=inum pipes. Nov.tekh.mont. i spets.rab. v stroi. 20 no.12:13-15 D '58,1 (MIU 12: 1) 1. Institut elektrosvarki im. akademika Ye.O.Patona i Trest Vo-7 GlavnbftemontiLzha Hinisterstva stroitel'stva RSFSR. (pipelines) (Pipe, Aluminum--Welding)  25(l) AUTHOR: Barbanel', P.I., Mlartynov; I,G., Lebedev, B.F. TITLE: Flat-flolled Aluminum Pipes (Ploskosvorachivayemyye alyuminiyevyye truby) PERIODICAL: Avtomaticheskaya Svarka, 1-959, Nr I. p 16-24 (USZR) ABSTRACT: This article reports on experience in the production and assembly of flat-rolled aluminum pipes by methods worked out by the Experimental Design Office and 'the In- stitute of Electric Welding imeni Ye.0. Paton. The new technological process includeo the -emi-lininterrupted casting of round, hollow, thick-side ingots with tin inner diameter equal to the diameter of the pipes to be cast . The inner surface is smeared with s-nindle oil and tale. The ingot it; heated and rolled into a slab twice as thick as the future pipe. Surplus material on the edges is cut off, and the t3lab is rolled up, and is ready for use. A large consignment of pipes was prepared out of aluminum AD-1. The ingots were 7 m long, had an inner diameter of 150 mm, an outer diameter 290 mm. They were Card 1/3 cut into pieces 2000-2500 mm in len-th, for the preparation  25(l) Flat-Rolled ;iluminum Pipes of 6-am thick and 45-47 m Icng, slabs. When blo,;in otit under a pressure of 8 atm@, the slab tukeS Lin ttimost round shupe. The breaking pressure for pipes --vith Ij mir, thick sides is 29-32 atm, with 3 mm sides it is 19-24 atm. In order to secure the pipe's strength, its edges must be 2-21 times stronger than the sides. The rolled aluminum piece.had the following qualitiesn breaking point 10-16 kg/mm 2; flow limit 7.5-14 kg/mm. ; relatiue stretchability 5-24 %. Accord- ing to SU-70 of the Glavneftemontazha (Main Directorate for Oil Installations), the laying of such aluminum pipes is considerably easier and cheaper than that of regular steel pipes. It was found out that such uninsulated pipes tested well, but when used in alkaline ground, the pipes must be insulated on the outside. This me'hod -was worked out by I.G. Martynov, R.I. Barbanel;, P.@'. Foloakov, and L.I. Stoklitskiy. The assembly work was carried out by B.F. Card 2/3 Lebedev ,,;ifh help from 1,1,1@ Dzyubenko, P.P. Pilimonozand  2 ci ( 1 Flat-Rolled Aluminum Pipes A.D. Ivanov. There are two sets of photos, one diagram, one table and six Soviet references. ASSOCIATION: Opytno-konstruktDrskoye byuro moskovskogo oblastnogo sovnarkhoza (Experimental Designt-ig Office of the Moscow oblast' Council of 11ational Lcoromy; Institut elektrosvarki imeni Ye. 0. Patona, AN USSR (The In- stitute of Electric "Welding imeni Ye.0 Paton of AS UkrSSR). SUBMITTED: October 22, 1958 Card 3/3  L s@ C on In n c. t rcl r t 0.-. Moe ill i 1, t i fi.; n T) I n r C Et 1  A! Expcir-; r oltl@J hfa p@! 11, J .3 cf) 1, 1 o nr Q, I;t::@ v I pipo@-3 vill-I ir,1 @.'l L E. nc c + -V i c, mash-1v 11! Mj nl+lll @l :11.-' E@ Tho ari.-i 0 1 e P- 3! ve i t I., I Orl J t 'r, f@ U S r P;  25(l) SOV/125-59-8-13/18 AUTHOR: 40@@@ TITLE: Mechanization of the Welding of Air-Heaters of the Blast Furnace Shop PERIODICAL: Avtomaticheskaya svarka, 1959, Nr 8, pp 90-91 (USSR) ABSTRACT- It is stated by way of introduction that the bodies of air heaters are usually from separate sheets of metal which are welded by hand in a vertical position. This article describes a new method of manufacturing and mounting air heaters which permit extensive use of automatic welding in a lowered position. This me- thod was developed by the "Uralstall konstruktsiya" Trust of the Ministerstvo stroitel'stva RSPSR (Min- istry of Construction of the RSFSR), the Institut elektrosvarki imeni Ye.O. Patona (Institute of Electric Welding imeni Ye.O. Paton) jointly with the "Promstall- konstruktsiyall and "Proyektstalt konstruktsiya" in- stitittes. The method is outlined in some detail. A Card 1/2 TS-17-M welding tractor unit is employed in this process. .2  SOV/1125-59-8-13/18 Mechanization of the Welding of Air-Heaters of the Blast Furnace Shop The author claims that wben using this method quality of construction is better, and less time and labor are required for outfitting blast furnace air heaters. There is 1 photograph. Card 2/2  PHASE I BOOK EXPLOITATION SOV/5078 Akademiya nauic URSH, Kiyev. Inetytut elektrozvaryuvannya -atey. e norykh spoaobov avarkl v promyshlennont'; abormlic at _Ynedreal Typ. . (Introduction of Now Welding Methods in Industry; Col- i lection of Articles. v. 3) Xlyev, Son. lzd-vo tekhn. lit-ry Ucr-SSR, 1960. 207 p. 5,000 copies printed. ' Sponsoring Agenc7i Ordera Trudov;go Krasnago Znazent Institut elaktronvark-i Iment akademika Ye. 0. Patona kkadeall, n&Uk ukrainskoy SSR. Ed. : M.*.Piiiranko, Tech. Ed.: S. MatWevich. FURPOSI: This collection-of articles Is intended for personnel In the welding Industry,. combined experiences of the e articles deal with the COVERAGgs T . Inntl tut ektroevaricl Imenl Ye. 0 Patona (Electric Welding : Institute Imani Te. 0. Paton) and several Industrial enterprises In solving scientific and engineering problems in welding technology. Problems In the application of now methoda of ftc- chanized welding and electrQ31AS welding in Industry are discussed. This Is the third collection cf Articles published under the same title. The Foreword was written by B. Ye. Paton. Academician of the Academy of Sciences Ukrainian SSR And Lenin prize winner. There are no references. OF Lash R. L [Candidate of Technical SCIenCO31, _ " @ _ L.Mafnldc_l 4 @ *erg lCandidate of Technical Sciences. _ @ R 13 t@@stltute i.eni Ye. 0. Paton), Z _Z ihlaalcl@( Candidate of Technical Sciences, insic y Eiuchno-lasledovatells"y trubnyy inztItut 4 g ,cAT (Ukrainian Scientific Researc h Institute for the Pipe Znduatry) I, And _1 ic@lkle ( @ Chief Engineer, Chaira- c.v. bl.nakly truboprollm lny7 zavo (Chelyabinsk Pipe X111)1. low Process for Producing Large-Dianetar Stralght-Weld Pipes for Oil And Sea Lines 140 @@@[Znflneerj, D. M. Babkln (Candidate of Technical Sclencea lyl g heer, Electric Welding InatItute Iment I.- A. Verchemko *P la- h* (T t t f l t f th T d Ig mon az rua n5 e rust ro or &l nsineer o tion of Food Industry Establishments)), and d- romarly Chief Engineer of the !@W . Experience In the Successful Welding of Alumim= and Its Alloys jgqr@@nbber 0. 0. rgngineerl Engineer] I Ixrenlkc)f o En neer, Electric Welding g @, __i@y. Laimt; !men Ye 0 0 . . . a on) , 1. (Chief Mechanic, Belgorodakly taementny7 Xavod (Belgored Ce=ent X- P@ IMAYOV lChlef of the Welding Engineering Department, lraanoyarskiy zavoo "SlbtYazhmanh* (J1rA3no;ar8k Siberian Heavy Kathinery Plant)), And tIzarov Deputy Chief Process Engineer 3 ranskly od 1tF-7iZh=&Mh* i SYErnn' Heavy Machinery Plantli Electrotlag Welding of YArga TYP*@35L Steel Tle-Rings f; Cement rLiln3 176 (Candidate of Technical Sciences, !lectrIc B itute Imenl Ye. 0. Patonj, A jAjAk@.,c, @Zx _ Treat Uralstai -icons truictslya l (Ural FabrMted-Stee l Trust)), And S. Yu. HabinovIch JTrest Dneprosta2,- kon*tr-uktalya (Dnepr Fabrirated-Steel Trust)]. Experience In the M"hAnI=atl0n of Welding I oPs ration "I In the Erec- "On of J%tallic StrUctUrea for A BlaOt-Purnace Plant 194  9/125/60/000/007/007/010 A161/AO29 AUTHORS: Lebedev, B.F.; Sterenbogen, Ya.A.; Alekseyev, A.I. TI,RE: Mechanization of Welding Works In Construction of Blast Furnace Casings PERTODICAL: Avtomatlcheskayr- svarka, 1960, No. 7, pp. 70 - 75 TM-: Mechanized welding in construction of blast furnaces was applied by the Electric Welding Institute imeni Ye 0. Paton and the "Stallmontath" Trust in 194Y _-1951 att the Zaporozhskly metallurgicheskiy kombinat (Zaporozhlye Met- allurgic Combine) (Reference 1). Later, eleatroslag welding of vertical joints was useff for blast fulmaces of the SLt!a@jlinsk"P@in the Kuzbass) and Nizhniy TaFil works. The electroslag process requires space for welding equipment and the ends of the joints have to be moved out of the structure, therefore the furnace casing design had to be changed. The standard casing designhas three variations:, two are shown in Figure 1, in the third design the position of the sheets is ver- tical, which is the most convenient for electroslag welding but requires a bend- ing stand with long rolls at the plant preparingthe sl_-.eets, and high-capacity tcwer cranes on site. In Nizhniy Tagil, for the first time in the USSR'.practice, Card 1/4  S/125/60/OW/007/007/010 A161/AO29 Mechanization of Welding Works in Construction of Blast Furnace Casings a 75-ton TK-14,r@)11 (EK-1425) tower crane was wrallable on site, and the 2,500 square meter assembly site of the blast furnace had a 30 + 30 ton gantry crane (Ref. 2). The second casing layoat was used here. At. Stalinsk, only a 25-ton SH-406" (EK-406) crane was available and the construction site was small. In visw of this a slightly changed standard casing was chosen and divided into 9 cy- lindrical and tapered se3tions divided Into 4 to 16 'ton shells consisting each of two or three sheets of 6 -to 6.5 m length. The assembly in progress Is seen in a photo (Flg. 5). in -this way the entire zasing was divided luto 11 parts (the heaviest in the lower portion wei&hing 32 - 48 tons). Every single part was joined by ele,,troslag welding, and the annzalar joints on the furnace were welded manutally. A photo (Fig. 2) shows a shell prepared for slag welding and another (Fig. 3) ths- Glectroslag welding, i.e., joirdng the shells together by vertical @eam. At the site. where large sestions were assembled, two metal Imts were used as mobile welding stands with faur "rTC-500" (PS-5500) welding generators in , .. L each "te rietcasary start.Ing and measuring equipment and two welding apparatus boxes. 'The shaping copper sliders were cooled 'by two cooling systems (one for two welders) up to 6 m above the pump level. The work was done mainly in winter card 2/4  S/125/6o/ooo/oWooVolo A161/AO29 Mechanization of Welding Works in Construction of Blast Purnace Casings time in -150C to -30OC; 304 water solution of calcium chloride was used for cooling fluid. In view of unevened transverse shrinking deformation, sheets were installed for welding with a wedge-shaped gap spreading 1 mm for every meter of the joint length (above the calculated gap width). TheTP-shaped holding cramps and an end.plate for the end of joint are seen in Figure 2. Ass6mbled shells were installed on a manipulator and the joint was always held in vertical posi- tion. A magnetic "A-501W' (A-501m) walking welder (Fig. 3) of Electric Welding Institute design was used for electroslag welding of shells and sections. Pro- cess details are given. The quality of welds was checked by the appearance and by gamma-ray irradiation. Faults were revealed mainly in the spots of the end of the welding process. Faulty spots were chiseled out and filled by manual welding. According to "Uralstallkonstruktsiya" construction trust, the electro- slag welding process is 1.5 to 2 times more productive compared to manual welding despite the difficulties with yet new techniques. The entire blast furnace cas- ing was joined in 16 working days (comparing with a full month usually) and 11 lifts. It is mentioned for comparison that a similar blast furnace casing In Chelyabinsk required 100 lifts (Ref. 4). It is stated in conclusion that electro- Card 5/4  8/125/60/000/007/007/010 A161/AO29 Mechanization of Welding Works in Construction of Blast Furnace Casings slag welding may be used in -350C frost without preheating of edges; with proper organization and skilled men the productivity and quality of work is much higher than,in Manual welding and the costs lower; vertical position of sheets in sepa- rate casing sections is the best. There are 5 figures and 4 Soviet references. ASSOCIATIONS: Ordena Trudovogo Krasnogo Znameni Institut elektrosvarki im. Ye.0. Patona AN UkrSSR (Electric Welding Institute "Order of the Red Ban- per of Labor" Imeni Ye.O. Pat4h of the Academy of Sciences of the Ukrainskaya SSR) - B.F. Lebedev and Yu.A. Sterenbogen; Trest "Ural- stallkonstruktsiya@l ("UralstaVkonstruktsiyall Trust A.I. Alekse- yev SUB14j February 23, 1960 Card 4/4  S, 14-Of r-ci 10 17 A16 I /A4 @O AUTHORS3 Fsd1koq I.V., Lebad6v, B.F. TITLEi Electro-Slag Welding of 14 mm Thick Met!il PERIODICAL8 Avtomaticheakaya evarka, 1960,P'No. 9, pp. 54--@7 TEXTs The artiole describes a new method of welding of blaet furnace re- cuperator casings at Kuznetskly metallurgichenkiy (K:1znet6kiY Metal- lurgica: Plant). The casing was divided into eight aesembl-'ng sf@ct,4-ona - the first consisting of the bottom and the firet belto thr, -.,) the seventh were cylindrical 9 m in diamet6r, made frfDr,. 16 4980 mz-. high. 8heetB placed vertically; the eighth (top) the dome. Tne el=-ctrc-@@Iag welding process was used for "o-4ning the separate or a -?-a7ld (diia- gram Fig. 2 and photo Fig. 3) with p1atPcrxs mc@ved aro,"r."' and llfte,l t,@ the necessary height on guide rails, and a we@:,k fs)-' the welder hanging or. the outside of the aes-ti--.n. Thn Cielimi- Card 11/5  0 o cj I Electro-Slag Welding of 14 mm Thiok Metal A'. 6 -,,/A narily joined Into two "carda" earih at th-@ pla.-Lt, find !h;i an brought to th6 stand at the assemblini, L-ite arA el,f Ai wz- T -, - electro-Filag A -501M welderg (A-501m) wci:kiid -'n *tie two butt jo4nte, wifh 400-450 aDip and 54-56 vol't ourrent., m/h-- r,1-'La:-,*'r!jda wire feed, and 2.2-2.5 m/hr welding speed. Ke-)n atten%iDn wa-@, ,isisee@q-try in of 4, turna Jn,@o the a r,j ,he small pool volume (the slag process pr:--,c-,35 when the slag pool depth is not, maintained)q -and 9PA,'@,d ir,@Id pirllonv had t!) be out, out and newly welded. Normally, one *elding darice pr@@du,-ed t;vo 6 in welde per shift. It was stated that slight inward bulgei appeaTad In cyliri- drical sections dixe to insufficient rigidity of 14 mm thick metal, and il. Is recommended to give the blocks a alight bulge to the ;-at5-1-dEi, ---. barrel shape, with maximum 8-10 am deflection at the m-'d Df a Th--'s bulge dis@ppears afte:@ welding. The horizontal jjo'-,-,t5 be-,ween ele37rc-.alag welded sGotions were made by manual welding. AFzK--406 (H-406) t,--wer -:--ane l'ifted the aasing sections (Fig. 4). The iazilng pr.-.jt--.,;t wa- prepare4 by '%iie Dnepropetrovsk bran,.h of GPI with Electric; Welding Institute and 115 tal 1m-,,-jntazh-3" Tr-3t. Card 2/5  S/125/60/000/009/009/017 Electro-Slag Welding of 14 mm Thick Metal A161/A130 ASSOCIATIONt Ordena Trudovogo Kraanogo Znameni Institut elektroevarki im. Ye.O. Patona AN USSR (Electric Welding Institute "Order of the Red Banner of Labor" of the Academy of Sciences of the UkrSSR) SUBMITTED: Pebruarv 29. 1q6o Card 3/5  -.LEBEDXV, B-F-; YAKIMISHIN, G..A.; ALEKSIM. I.I. Automatic welding of trB cylindrical part of an air preheater shell. Artom. ovar. 13 no. 10:52-58 0 160. (MIU 13:10) 1. Ordena Trudovogo Krasnogo Zaament Institut elektrosvarki im. Ye.O.Patona AN USSR (for Lebedev, Takimishin). 2. Treat "UralBtallkonstruktsiya" (for Alekseyev). (Air preheaters--Welding)  2193-h S/125/6o/ooo/oll/009/016 A161/A133 AUTHORS: Alekseyev, A.I.,, Lebedev, B.F., Litvinchuk, M.D. TITLE: Automatic welding assembly for large-diameter cylindrical sheet structures PERIODICALt Avtomaticheskaya svarka, no. 11, 1960, 52-56 TEXT: Up to now large-diameter casings of blast heaters, absorption towers and the like have been welded manually. The "Promstallkonstruktsiyall Insti- tute and Electric Welding Institute in cooperation with the "Uralstallkon- struktsiya" Trust have developed and tested an automatic unit for joiningup to 9-m. diameter structures on the site. The unit consists of a stand with rol_ lers, longitudinal and transverse flux pads, reinforcing rings, and removable scaffolds. The stand consists of a frame with driven, idle and guide rol- lers, the latter designed for fixing the shells in longitudinal direction. The rubber coated driven rollers are joined with a shaft and rotated by a 1 . 1 kw motor through a PM -350 (RM-350) reducer, a shift gear box, aPM-400 Card V8 '_i@ LQ7@  21914 S/125/60/000/011/009/016 Automatic welding assembly... A161/A133 (RM-400) reducer, and another gear transmission. The welding speed is ad- justed by the shift gears between 20 and 40 m/hr. A description of the de- sign had been given previously (Ref.1), in "Avtomaticheskaya svarka", No.10, 1960. The flux pad, or flux holding belt for annular seams (Fig.2) includes flux hopper (1); endless belt (3) with boards; rocking frame (4); balancer (5); flux box (6), and base frame (7). The rotating casing being welded pulls the belt with flux falling from the hopper (1). The rocking frame and the balancer are pressing the belt to the seam. Flux must be periodically reloaded from the box into the hopper. The stand has two flux pads for sim- ultaneous welding of two annular seams. The belt is stretched by roller (2) and two acrewB. The flux pad for longitudinal seams (Fig.3) has a base frame (1) with air cylinders (2) on it for actuating balancers (3). The flux pad is attached to the ends of the balancers and is a channel beam with open top. The flux is lifted to the seam on a hose expanded by compressed air. The air cylinders (2) move the pad to and from the seam. The reinforcing rings are made of two U-bars welded together into a box cross section and fitted with a spreading screw joint. Three such rings are installed in one cylinder being welded. Arch passages are made in the rings for the motor welder in spots where the rings are crossing the longitudinal seams. The Card 2/8  Automatic Yielding assembly... S/125/60/000@6'11/009/016 A161/A133 on"re unit can be dismantled for railroad transportation. There are 4 fi- 1@j and 2 Soviet references. Figure 2: Flux belt for annular seams XI/- Card 3/8  LEBEDEV. B.F.; FEDIF-01, I.V.; AVRAMENKO, V.I.; RABINOVICH, S.Yu. Mechanization of v*@IAUW operations in building blast furnaces in the Ukraine. Avtom. mr. 14 no#2:77-85 F 161o (MIRA 34: 1) 10 Institut, elektrosvarki imeni Ya.0. Patona AN USSR (for Iabedev.,,Fediko Avramenko). 2* ftftt nDneprostalikonstruktsiya" (for Rabinovich@- (Ukraine-Electric welding) (Blast furnaces-Design and construction)  ALEKSEYEV, iI.I.; Prinimali uchastiye: IVANOVt t'-..D.;.T,FRPDPVv DARYINSHKII, P.V.; DABYIN, N.I.; MELINJEOV, V.G.; NIKITIM, V.V.; JITYPIli-TTLOV, K A. A-atomatic welding of the cylindrical part of a decomposer shell. Avtom. svar. 14 no-8:78-82 Ag 161. (141RA 14:9) 1. Tre5t "Uralstallkonsti-uktsiya. O'lectric welding) (Aluminum industry--Equipment and supplies)  261,85 S J __ iy-y@l '1@091 @)08 f 0 4 -0. /b 11.-.3, AUTHORSa Dudko, D.A., Rublevskiy, I.N., Fedtkc, I.V., and L@`zwde-@-? B.F* TITLE: New arrangement for wit@. nozzle PERIODIUM Avtomaticheskaya svarka,,?,r,). Q, i9,_, TEXTs An arrangement is suggested, consi2-@ir_- Df a nez k:@,:_i. @:f Jfzelting nozzle" (filler metal plate), and a simple :.iftir.w sy-z--ir 11,r Th-3 new "nozzle" (Fig.1) is insulated over d!;s Si@.:f:I.--- pe%en-, with the metal being joined, and is proviled W.01-K J:@'@@ T!- a- f il- led with a measured quantity of f 1-ax f ref ill lz@.g @h- qltie b--t"', E@. -SP12"I'a es in the process. The shoe-lifting system (Fig.2) 1-2, sing the right and left shoe (1) to the gap ar.d pr plates (4) insulated with common ename-10 Tii@ be@weeL. these plates and resilient fixing pins (6). Trir, !hoaz the operator rocks one of the two handl@?B ao rows. The arrangement eliminates the Card 1/4  2@L85 0/0 14 New arrangement for ele,,,tro-slag welding J. dif - gaps that obstrunt the way for slag raf-11@!z :i.ri ficultieso The operator has only to rock a hanill:, @--te pr@c- ess after the slag bath is formed. It has Ideen te5,,ed in welding joints in 20-50 mm thick biast- struction site* A photograph shows it ir Derail@ -@f the weld- ing proceas are includeds The 11nozzlG11 and t@r- --.i ne-a nf@)t be use& together only They may b6 j aLy j ter electro-slag process sets: The arrangemeLt mak,@- pcs-- sible in spots that would be inaccessible othr=irvv-.@;@-, tubes on site (where tubes cannot be rc;tated) is t, ;I- tion. Wire can be used instead of the "mel-I.Ing @n@l r .1 th,:J wire prevented simply by placing the wire Tiidf@ There axe 6 figures. ASSOCIATIONs Ordena Trudovogo Krasnogo Znamen! im. Ye.O.Patona AN USSR (Elec.txic Welding Tlr,:tl-.@- of the Red Banner of Labor" im. Yc-.O.Pai@--@n LN TTV-r,,:.' )SR SUBMITTED& May 12p 1961 Card 2/4  5/11411/000/005/00VO10 D040 a 3 AUTHMS: Langer, N.A., Yagmupolvskaya, L.N., Ytshkevich, Z.V., Koryagin, Yu.A. and ;@cbedcv, B.F. TITLZ: Improving the corrosion resistance of low-carbon and low-alloy steel welds in an &Ualine madiun PE.UODICIL Avtoniaticheskaya svark-al no. 5, 1962, 3G-113 TZEXT: Since equirmcnt used in the alurdnum industry has to be frequcntly re- paired because of caustic embrittlem4nt of low-carbon and low-alloy steel, and since alternative steels cost too much, the effect of stress-relieving on the resistance of Icii-alloy steel welds to caustic embrittlement was studied, using a method described by T.W. Green and A.A. Holzbaur ("The Welding Journal", No. 3 1 -it co- arria. o_ 1946). The experimental equipme, mprised a c, ge with 4 -as burnecs pr, ducing a 120 an-wide flame, and a water-cooling device 150 mm behind the flame. Five steel grades were tested. Calcium and ammonium nitrate solutions were used for corrosion tests. The electrode potential in specimens was measured. The experimental results show that the best ratio between- %in and C in the base Card 1/3  S/I 2 5/62/000/0 0 5/00 5/010 Improving the corrosion resistance of low.... D040ID113 metal was 1.7 : 3.0, and the hig.%cst potential was found in the 1'*X2 (140) steel - 61 mv before heat treat.%ent, and 30 @uv after. Tha anode zone was always revealed directly at the velds and appears to be the result of stress concentra- tion. It is pres=cd that caustic eii;brittlemeat of low-carbon steel in strong alkali solutions begins with the destruction of the protective surface fiLn and this process is most inteasiva in metal at vielded joints,where the anod" potc-iltial is highest, but weld defects such as pin holes, slag inclusions, or spills also cause stross coacentration and anode potential. Conclusions: (1) Thermo-mcchanical troatncnt considerably improved the resistance of low-carbon and low-alloy steels to caustic embrittlerwnt; (Z) welds in 19 f- (19G) , M 16 Q m6s) and C-r.3 (St.3) steels have better resistance to caustic embrittlement than M (H) and 141-2 (1402) steels; (3) the result of electrode potential measurem.,nts show that residual welding stresses intensify the anode processes in the weakness zone. There are 7 figures and 3 tables. Card 2/3  S/125/62/000/005/005/010 Improvin.a the corrosion resistance of low.... D040/D113 ASSOCIATION: Ordena Trudovog6 Krasnogo Znamani Institut clektrosvarki im. Ye.O. Patona AN USSR (Mectric Welding In.5titute "Order of the Red banner of Labor" im. Ye.O. Paton, AS UkrSSA) SUMITTED: September 22, 1961 Card 3/3  5/125/62/000/006/009/013 D040/D113 AUTHOR: Lebedev, B.F. TlTLi,,: Di,resters fabricated by field welding PERIODICAL: Avtomaticliesicaya svarka0 no. 6, 1962, 63-70 )A TZ,CT.- Many standard vertical digesters,9 m in diameter ' 33.6 111 high, and 7.8 j,.i in diameter and 28.8 ill high,had to be built quickly at new 3oviet aluininwii plai-its. The ",itroymontazh" and "UralstallkonstruktsiYa" Trust 'S, the InStitUt clektrosvarki ijit.Ye.O.Patona (Zlectric Welding institute iiii.Ye.O. Paton) and the "Promstallkonstruktsiyall Institute did the job jointly using new techniques which are described. Two prefabrication methods were developed in 1961 and employed since for steel casings, by co-ili:ng welded casing sections at the plalit and uncoiling them on the site, and by rolling sections into shape at the plant and then welding, them automatically on special roller stands on the site; however, neither method could be used because of the large size of the digesters and lack of time for building a large coiling machine. Be- sides, it was observed that tension stress and strain hardening caused by Card 1/3  S11 25/6 2/0-00/00 6/00 9jQl 3 Digesters fabricated by 'field welding D040/D113 co*iing T-iiakes the carbon steel more prone to hydrogen embrittlement. New techniques had to be used, the accent beina put on using automatic submerged-. @Z C, C@ arc welding as much as possible, because of the minimum of surface faults on welds and better resistance to caustic embrittlement. A site was especiAly equipped for preliminary joining of sheets, and then welding the sph6rical, conical and four cylindrical casing sections on separate welding stands. Weld- in- was produced by motorized welders using flux pads on air hoses which pressed the flux to the scams. Smaller elements were partly prefabricated at a plant. The operation of the stands and the work sequence are described. The costs were very much lower than in previous practice, though serious 1-Astakes in the work organization on the site are indicated. The Electric Welding In- stitute towether with construction trusts is now working on mechanical welding of the annular assembly seam in the casing, and is investigating the feasibi- lity of using the coiling method for industrially producing cylindrical ele- ments-of digesters. There are 7 figures and 2 tables. Card 2/3  S/125/62/000/006/009/013 Digesters fabricated by field welding D040/D113 ASSOCIATION: Ordena Trudovoffo Krasnogo Znameni Institut elelitrosvarki im. Ye.O.Patona AN U3SR (Electric Welding Institute "Order of the Red Banner of Labor" :bn. Ye.O.Paton, AS Ukr3SR) SUBMITTLD: October 23, 1961 Card 3/3.  AISKSEYEV) A.I.; IZBEDEVIF B.F. Automatic welding of precipitating tanks. Prom. stroi. 40 no.7:29- 32 t62, (MIR& 15:7) 1. Trest Uralstallkonstruktsiya Minstroya RSFSR (for Alekseyev). 2. Institut elektrosvarki in. Ye.O.Patona (for Lebedev) (Aluminum industry-Equipment and supplies) (Ifelding)  AIEKSE'YEV, A.I.; B.F. Use of mechanized welding in the assembly of steel elements of the Kachkanar IUming and Ore Dressing Combine. Prom. stroi, 40 no.12:16-19 162. OlffRA 15:12) 1. Trest Uralstallkonstruktsiya (for Alekseyev). 2. Institut elektrosvarki imeni Ye.O. Patona (for Lebedev). (Steel, Structural-Welding) (Ka.chkanar-Metallurgical plants)  AIEKSEYEV, A.I.; LEBFXEV B F - YAKINISHIN G.S.; MELEKHIN, A.D. J, Mechanizing welding operations in eracting the fra of the ore dressing plant of the Kachkanar Mining and Ore Dressing Combitie. Avtom. svar. 16 no.l-.60-67 Ja 163. (MIRA 16:2) 1. Institut elektrosvar]4 imeni. Ye.O. PatojjAN UkrSSR (for Lebedev, Yakimishin, Melel@hin). - (Kachkanar regiozi-Structural frames-Welding)  6 F SAFRYY TN Yu. I. E Electric weld-*Lng, @-f f--,; s. ovar. 17 i-4 17 1. T r e s 7 in o rn,- -i s t. r,- Y'! i, - ';"b- n iat.or.@I `N, "; @; T@ (fC,- elekLros,.,arki im. Ye.Ci. D - 'Clelik-Tangiyov) .  T:!,T,,TGER, N.A.; YAGUPOLI-EKAYA, L.N.; YTJ-SHEF-'V,C',17@ KWUAGIN, Yu.A.; B.F. Effect of r(.-tdual stresses an @.' -'o ccrroston resistance of Welded 'IV dia. VIlian.rab. sred na svots. mat. equipment olerating in alall me no.2:87-96 163. (MIRA 117:10)  L 1:3622-6)'@ '@'PPV-IPA(s )-2 /Z.1111 "A" '37"d (h' C S ACCESMIONr'!@TR: AT5008302 S/0000/64/000/000/0040/0052 11UTHOR: Lobedev, B. F. (Candidate of tecl-mical aciences) ; Parhchin, A. ff.(Engiaeer TITLE: Industrial methods for the manufacture and assembly of welded met-,I structure for industrial plants SOURCE: AN UkrSSR. Institut clektrosvarki. Vovyye problemy svarochnoy takhni M- (New problems ia welding technology). Kiev, lzd-vo Tokhnik-a, 1964, 40-52 TOPIC TAGS: welding, welded metal structure, metal structure manufacture, metal structure assembly, welded machine part, tank welding, automati`:: welding, aluminum 'refining, blast furnace ABSTRACT- The paper considers several examples of the mechanization of.welding -operations in some fields of factory constructlon. The bufldL@(r of aluminum plants, tIor example, encounters great difficulties during the inanufacture and assembly of large tanks, such as decomposers up to 1800 rn ii. vGlu-me where the aluminate sclut-ion is decomposed with the precipitation of a solid soli: -.@ oll-, of aluxninum hydroxide. Previously, Lhese decomposers were welded manually. Cra-,;!r@l appear in tLe decomposers as they paarin(, mc,3@ irequently at the defects, operate in alkaline media, the cracks ap Tha@efore, weldin Should be improved and measures sliou-ld be worked out for lowering the residua-l Card IY3  L 43622-65 ACCESSION NR: AT5006302 stress. Autornatic welding was tried for decomposers at the Bogoslovskiy alyumiaiyevyy zavod 1B2gqqtqv-AlumiauTa Factory). The (Jecomposer was divided by the "Uralstall- konstruktsiya" t All joints w6re welded manually inside, but antomatic weldina was used on the outside. The use o@ auLomatic welding 'or 24 decom- pressars saved 8,000 rubles for welding operations. In !958, the welding machine was modernized by the "Ura-lstallkonstruktsiya" Trust and t'-e institut clectrosvarki im- Ye. 0. Patona (Elect-ric Welding lnstitute). New sectional diistance rings were used during welding, and automatic weldin.-, was employed on both sides (inside and outside). Later, part of the joints wrare welded at the ,toal assembly piant., Shells of 7425x4O29 mm were delivered to the aluminum factory. The heaviest unit weighed 4S tons. The labor required for the assembly of one c@cc@mpressor was decreased by 58-!, wages - by G3% and welding materials - by 47%. xi chiferent method was used where the bands were welded on both sides. The level of mechanization was 81%. The saving of labor was 43.4 and 42.6%. R should be noted that' mechanization is profitable only for larp' volumes of work. Wrapping of the metal into rolls does not affect the brittleness,bf the metal. By wrappingan dru.-Ln&, the axtro@;7.a fiber Dfthe sheet is deformed to a lower extent than by wrapping into rolls, Craclkis are prrnardy formod at the seams. Due to this, automatic welding was used insEead of -nanual welding for lowering the resid-ual 'streza, cae olf the causes of cracks. Hoat Lreati-Perit (up to 200C) lowers the welding -Card 2/3  L 43622-65 ACCESSION NR: AT5008302 Etress. Wrapping into rolls and heat' treatment were used at the Bogoslov Aluminum Factory in 19C3. Tho. same methods are also used for blast furnaces. Low alloy steel was used for a very large blast furnace in FrYvoY Rog hn 1@60. T'lie number of components was lowered by 25%. Later, seven blast furnaces of this type -xere assembled by automatic welding, both vertical and horizontal joints being formed automatically. For blast furnaces, wrapping of sheets was first used in 1960. in 1961, all now blast mbled in this way. IN-lany other industrial enterprises, such as furnaces were asse cement factories, ore dressing plants and others, are now being assembled in this way, using automatic welding instead of nialiual welding and improving the technology of manufacture and assembly. Orig. art. has: 7, fi@@ures and I table. U  KULIK, B.F.; ANUZIETS, D.P.; ASNIS, A. Yo.; LEBEDEV, B.F. Experience in making housing for converters with charges of 100 to 130 tons. Avtom. svar. 17 no.6:68-72 Je 164 (MIRA 18:1) 1. Yuzhno-Urallskiy mashinostroitelinyy zavod (for Kulik). 2. Zhda- novskiy zavod tyazlielogo mashinostroyeniya (for Antanets). 3. In- stitut, elektrosvariki imeni Ye.O. Patona AN UkrSSR (for Asnis, Lebedev). @@g - -g-e  MBUIEV 3 F - PASHrfilil, MI.; IVAJIOV, t,.D.. Y-ndustrial net-hod of makina, an ap@@-,ratwi f,;r ra-Ir.-f.nine Avtorv,.avar. 3.8 -io.1:66-68 Ja 165. 1. Institut el--'@.-I,rosvar3d im. Ye.O.FEitonnt 'All IJ'krSSR 'ror- jeIrefj6v$ Pashchin, Ivanov). 2. StroiteIInr,-mcnt-t.--hny-y trest I@.-udarsWir.-r) ---ni7vndstvennoan koniteta po monta@;Irnm i spetsia:LL y (,C;@ 31yaYev).  1 3382-66 FWT(d)/EWT(M)/EWP(C)/EWP(v)/T/EWP(t)/EWP(k)/EWP(h)/t-WP(b)/EWP(I)/ KWA(h)/EWA(c)/ETC(m) JDA4W/ffl4 ACCESSION NR: AP5023084 UR/0125/65/000/009/0047/0051 621. 791. 76:66. 041. 498(438) AUTHOR: -Kadushkevich, Ye. (Engineer); Tyushnyakovt I* F. (Engineer) Lebedev, ---LIB. F.-Icandidate of technical scienoes); Fed1ko, I. V. (-Engineer) TITLE- Welding of converter shells in the Polish Peoples Republic SOURCE: Avtomaticheskaya svarka, no. 9, 1965, 47-51 TOPIC TAGS: automatic weldini welding flux, welding electrode ABSTRACT: The article describes a elding job done by PolisWrkers with thel aid of a brigade of Soviet assembling the shells, which had a specialistsl4h I thickness of 50 mm, special attention was paid to main talhing their diameters with an accuracy of 15 mm and to joining the two halves of each shell in the sa Me plane with an accura of �3 mm. Electric slag welding was done with A-433P and A-820 machinesKusing 3 mm diameter Sv-10G2 welding rod and An-8 flux. To avoid a possible sharp increase in the width of the seam and fusing of the out- let housing due to decreased heat removal, the electrode voltage was decreased to 2-4 volts. Welding of metal with a thickness of 100 mm was started only after preheating of the under. side of the joint to 300 C to guarantee good fusing of the ,card 1/ 2  AM L 338?-66 --------- - - ACCESSION NR: AP5023084 i bead at the start of the joint. Transverse residual deformations were found to be, especially great at the end sections of the joint. The annular joining of the conven- ter body was done by hand arc welding, with E42A electrodes brand UONI-13/45. The following conclusions were drawn from the work: 1) the magnitude of the end deformations is a direct function of the size of the gap and of the amount of fused metal; and 2) the sequence in which the joints are welded was found to have little "ect on welding deformations. Orig. art. has: 5 figures and I table ASSOCIATION: Yuzhno- Ural' skiy mashinostroitellnyy zavod (South Ural M Fabrication Plant);Institut elektrosvarki im. Ye. 0. Patona AN UkrSSR (Electro- i weldinL7 Institute PJ1 UkrSSR);Khuta.im. V. I. Lenina, PNR (Khuta, Polish Peoplesi i Republic) SUBMITTED: 23Jan65 ENCL: 00 SUB CODE: MM NR REF SOV: 090. OTHER: 000 Card -2/2  LEBEDEV,,P,G., LEVITSKIY, V.A. Equilibrium of nickel orthosilicate and carbon monoxide at high temperatures. Zhur.fiz.khim. 35 no.12:2788-2790 D 161. (IMU 14:12-) 1. Moskovskiy institut stali i Moskovskiy gosudarstvennyy universitet:imeni Lomonosova. (Nickel silicate) (Carbon monoxide)  -- LEBEDEV, B.G.; LEVITSKIY, V.A. Reducibility and thermodynamic stability of the iron triad metal orthosilicetes. Izv. vys. ucheb. zav.; chern. met. 5 no.7; 5-11 162. (MIRA 15:8) 1. Mookovskiy institut stali i splavoy. (SiUcates-Thermal properties)  LEBEDEVII B.D.; LEVITSKIY,, V.A.; BURTSEV, V.A. Reaction equilibrium of the reduction of cobalt orthosilicate by carbon monoxide. Zhur. fiz. khim. 36 no.4:877-380 Ap 162, (MIR& l5t6) 1. Maskovskiy institut stali i Moskovskiy gosudarstvennyl universitet imeni Lamonosova. (Oxidation-reduction reaction) (Cobalt silicates) (Carbon monoxide)  POLMIN, P@I*# profoo doktor takhn.nauk. red.; GRINMG, B.G., doteent, k,qnd.takhn.nnuI-c; KANTENIK, S.K., dotsent, kand.tekhn.nauk; ZRADAN, Y.T., dotsent, kand.takhn.nauk; VASIL'YEV, D.I., doteent, knnd.takhn.nauk- 13BRM I- -!=@ -Aotsant, kand.tekhn.nauk, nalichnyy red.; tltf@IN. Yu.M., prof., doktor takhn.nauk. retsenzent; KITAYTSZV, V.A., dotsent. kand.takhn.nauk, retsenzent; RAZYGRAYRY, A.M., iuzh., retsenzent; YIMINA, L.A., red.izd-va; RYAZAITOV, P.ye.. takhn.red. ETechnology of metals] Takhnologiia metallov. Pod obshchei red. P.I.Polukhina. Moskva, Gos.izd-vo lit-ry po stroit., arkhit. i atroit.materialam, 1960. 46o p. (MIRA 14:3) 1. Kafedra matellovedeniya Moskovskogo avtomobilino-dorozhnogo inatituts (for Lakhtin, Kitaytoev, Ra2ygrayev). (Ketals) (Ketalwork)  LEBEDEV, B. G. (Moskva) Thermodynamics of the reduction reaction of hercynite by carbon oxide. Izv. AN SSSR. Otd, tekh. nauk. Met. i topl. no.6:7-11 N-D 162. (KM 16:1) (Hercynite) (Oxidation-reduction reaction)  S"ICHY I.A.; PIKAYEV, A.K.; LEBEDEV, B.G.; KUZINICHE-VA, Ye.U.; SFITSYN@ Vikt.I. Certain properties of chelate-type salts of uranyl with Schiff bases. Zhur.neorg.khim. 7 no.3:1+98-509 Mr 162. 01M 15:3) 1. Moskovskiy gosudarstvennyy universitet imeni M.V.Lomonosova, kafedra neorganicheskoy khimii i Institut fizicheskoy khimii AN SSSR. (Uranyl salts) (Schiff bases)  LEBEDEV B G - LEVITSKIY, V.A. F,iaction equilibelum of' the reduction of.1'ron carbon monoxide i@t temperatures from 85(,v.,-Ao 13-50cr,. Zhur. kbijii. 36 no.3:630--632 Mr 962. (MIRA 1,:8) Moskovaldy instltut stali i Moskovskly goisudarstvennyy universitat, imeni Lomonosova.  LIBED B. I -_ (-Yoskva) Changes in the peripheral nervous system of dogs in acute radiation sickness induced by intravenous administration of radioactive strontium. Arkh.pat. 21 no.5:25-30 159. (MIRA 12:12) 1. Nauchnyy rukovoditell - chlen-korrespondent AMN SSSR prof. N.A. Yrayevskiy. (NERVES, PZRIPHMUL, eff. of radiationBI radiostrontium, intravenous admin. in dogs (Ras)) (MONTIUM, radioactive, eff. on peripheral nerves of intravenous admin. in dogs (Rus))