SCIENTIFIC ABSTRACT BABARIN, V. I. - BABASYAN, N. Z.

BABAM, V.- I., and A. IA. CHFAUM. Tssledovanie i novyi metod rascheta reaktivnogo vykhlopnogo kollektora. Moskva, TSIAMP l9h6. Title tr.: Investigation and a new method of calculatin~f. the jet exhaust collector. NCF SO: Aeronautical Science- and Aviation in the Soviet Union, Library of Congress, 1955  RABARIN, V. I., and A. IA. CHFRKEZ. 0 vliianii, protivodavleniia na vykhlope na moshchnost' aviatsionnogo dvigatelia i rask~~od vozdukhz. Moskva, Oborongiz, 1947. Title tr.: Fffect of counter-pressure in the exhaust stroke upon the the capacity of an aircraft engine and on air consumption. NCF SO: Aeronautical Sciences and Aviation in the Soviet Union, Library of Congress, 1955  ,!,.C i.!S VI W. Cr--~ 1:-11 *, cn txi~nsrc r I ~itLm t in t"It' VC1 1( 0. 12, C. 1 I I'-. I YT. CVIIT i~ J" i_ I.C ( y i'li.ru.:wn A~cessior, Vol. ;,r. ;'Fy '9',C  Al r I I I It T1 16"Oesims the culpatel kftm. I.F.1141wryka. rsemrost 11. No. 1. klin efficiency wav ol.- talued by dowly contiolling the tinineralogit-al couipri. of the few anil Its tim6lum cottlent. Rest Irmult% W"r 4-Altitintil when the Milt erwitna tit the Ainkcr Aas 114-19%. M. ll~h  BABARTIA.I.F., inzhener The choice of chain screens for 150 meter rotary kilns. TSement 21 no.2:15-18 Kr-Ap 155. (KM 8:8) (111m, Rotary)  L ~602-65 ACCESSION NR: APS017800 UR/0206/651000/011/0031/0031 631.859.12.002.2 AUT11ORt garatayov, 1. I.j Mellnik, B. D..; Repenkovs, T. G.1 Svirldovs, A. 0.1 Q-kt,2gqv. H-I~; Hatarov, G. N. Raygorodskiy, 1. M.1 VaeLl'yev, B. T.; Bystroy. H. V.; DdbujXaj I. r.; Kuzyak, F. A., relldman. M. V.-. Soverchenko, D. A., Buslakova, 1'. P.;--raroptseva, N. P.; LyubLmov. S. V.; Ullyanov, A. T.1 Andres, V. V.1 Sobchuk, Yu. I.; Tsetlina, M. H.; Andreyev, V. V.1 Kramer, 0. h. TITEX: A method for producing phosphoro-potassium fertilizers. Class 16, No. 171- :SOURCE: Byulleten' izobretenly I tovarnykh znakovs no, 11, 19659 31 ,TOPIC TAGSi fertilizer, phosphate, potassium ABSTRACT: This Author's Certificate introduces a method for producing pbosphoro potassium fertilizers using cement dust (waste from cement production) as the po;as- slum raw material. The process of adding potassium to the product is simplified and evaporation is prevented by using a 20%.excess of an acid which directly neutra- ~lizea the cement dust for breaking down the phosphate raw rxiterial. Card 1/2  L'56492-65 ACCESSION NRI AP5017800 ASSOCIATIONt none SUBKIMD: 29Nar62 NO REr sov, ooo LI) ENCL: 00 OnWRi 000 SUB 00DEt GC, LS 2/2  BABLRYKINI G..~. DiVassembly of ~->hort-cirauited aluminum windings of the rotor of electric motors. Koko i khim. no.1:59 163. (KMA 16:2) 1. Zhdanovskiy kokBokhimichookiy zavod. (Electric motors--Windings)   YP!I ,At 240 V J~v o nt VAN V'j $3 flin O S X; 1 .0 Jilf A  SOV/133 - 8-12-2/19 AUTHOR: BabaarZkin Engineert and Yushinl, F.A. 'N*N. TITLE: "I'ShZges in T"Mlast Furnace Process when Operating with Fluxed Sinter (Izmeneniya domennogo protsessa pri rabote na oflyusovannom aglomerate) PERIODICAL: Stall, 1958, Nr 12, PP 1057-lo65 (ussR) ABSTRACT: An investigation of the blast furnace process during operation with fluxed sinter was carried out on three furnaces A, B and V in the Magnitogorsk Works and the results obtained compared with previous similar investi- gations. The working volumes of the furnaces: A - 118o m3, B and V - 1371 m3. The profiles of the furnaces and. the position of levels at which sampling and measurements were carried out are given in Fig 1, and main operating data in Table 1. Sampling of the burden7 the determination of temperature and composition of gas on the second and third levels were carried out on furnace B, a study of the composition of materials and gases along the bosh radius on furnace A, and of the composition and temperature of gases in the upper part Card 115 of the stack and in the hearth on furnace V. Sampling of materials from the stack and the bosh was carried out  SOV/133-58-12-2/19 Changes in the Blast Furnace Process when Operating with Fluxed Sinter with uncooled tubes of internal diameter 51 and 57 mm, as was previously described (Ref 1). Materials from the tuyere zone were sampled with a special water cooled robe with a number of parallel cylindrical pockets ig 2). The temperature measurements in the stack were G done with uncooled chromelalumel thermocouples. In the bosh and tuyere zone, thermocouples were cooled and on the lowest level molybdenum-tungsten thermocouples with quartz, graphite7 molybdenum and berylium oxide sheaths were tested. The pressure, temperature and the compo- sition of gas along the height of the burden column were determined as in Ref 1. Changes in the content of carbon dioxide (A) and temperature (B) along the furnace radius on I - IV levels are shown in Fig 3 (a - measure- ments in 1955, b - in 1956-57); the distribution of isotherms (A; 00 and lines of equal concentration of Card 2/5 carbon dioxide (B; %) in the furnaces - Fig 4; changes in the static pressure along the height of the furnace - Table 2 and Fig 6 (a - 1956, b - 1957); the distribution of temperatures along the height of the furnace - Fig 5;  BOV/133-58-12-2/19 Changes in the Blast Furnace Process when Operating with Fluxed Sinter chemical composition of burden materials on various furnace levels - Table 3; lines of equal mean degree of reduction - Fig 7 (results for 1956-57 A; for 1955 - B); mean chemical composition of metal beads collected from 3rd and 1+th levels - Table 1+; mean chemical composition of metal and slag from tuyere zone - Tables 5 and 6 respectively. It is concluded that: 1) the largest non- uniformity in the degree of reduction of iron oxides along the diameter was observed in the upper part of the stack, This non-uniformity decreases as the burden descends towards lower levels* Mean degree of reduction of iron oxides for successive levels I-IV amounted tot % I - 22*6; 11 - 32*5; 111 - 57.6; IV - 85-7. An increase in the development of the reducing processes in the zone of moderate temperatures leads to a consider- able improvement in the operating indices of a blast furnace, The analysis of changes in the content of sulphur on various levels supports the supposition that it circulates in the lower part of the burden column. Card 3/5 The temperature range within which fluxed sinter attains  SOV/133-58-12-2/19 Changes in the Blast Furnace Process when Operating with Fluxed Sinter a softened state decreases with increasing degree of reduction of iron oxides, In order to secure an even and stable furnace operation the zone of softening of the burden (which forms an additional resistance to the passage of gas) should be maintained on the level of the bosh or the bottom part of the stack. The formation of droplets of a liquid phase is preceded by a steady sepa- ration of metal and slag inside lumps of sinter. With a good burden preparation the content of ferrous oxide in the primary slag is low and does not present any difficul- ties to an intensification of the rate of furnace driving. The presence of liquid slag in the mass of "dry" burden can be apparently explained by its being blown from lower furnace levels, as well as by considerable differences in the level of heat requirements of lumps of burden with an unequal degree of chemical preparation, The maximum gas Card 4/5 temperature in the tuyere level (about 199000 was established to be at a distance of 0o4 m from the tuyere nozzle. A-partial transfer of sulphur from metal and  BOV/133-58-12-2/19 Changes in the Blast Furnace Process when Operating with Fluxed Sinter slag into the gaseous phase takes place in the oxidising zone. The main mass of metal and slag flows down into the hearth through a peripheral zone the width of which does not exceed 2m from the furnace wall. There are 7 figgres, 6 tables and 1+ references (all Soviet). ASSOCIATION: Magnitogorskiy metallurgicheskiy kombinat (Magnitogorsk Metallurgical Combine) Card 5/5  V AUMOR: - Bab a ry k.* - -.1 r. --- XAL.f6., I TITIE, T k. e D L -r I -.i t I I: I i Z Fumace Sta,,.k r.L L domerm-,y PERIODICAL : Si.,91" W, 1? pq) ., ABSTRACT: ThQ d.i,!.,!, ~,r !~;nnuce of' Ljic of t, 11 ,.,I AL, carried out-. wi.th 11~ cr 1 j.r-,',D t"Le burden jR -C.,n r X at. a c ,- k I ix-e - TI) t, be i sed f or ~3 al~.cc I-,!.(.,,-' --.n -tlit~ blast 3t ~;")C t"!- -Irld '.rL IJ `V~ cold blast ma .;II ~., c. s,- a LI i, de--K:j~af, I on f'rom the direc-,ACIII --f -:i , "I., *,~,I.L J Ilt luence On tile n.1 ~-(.6 ~~t cn---~ c I' I' u,,? d the, f rc,-~ )puer Part of Ii -rd 1 P C  SOV/133-59-2-2/26 The Distribution of the Gas Stream in the Blast Furnace Stack porcsity of the charge. lt was also assumed that at elevated pressures the free cross-sectional area of the stack is about 5(y/,, of its total cross-section. The pressure drop in a layer of burden materials in the upper part of the stack in the moment of charging is shown in Fig.3. The experimental results, namely the distribution of temperature, concentration of C02 and gas velocities along the furnace diameter are given in the form of graphs: furnace A (1951) - Fig.4; furnace B (1950) - Fig-5; furnace V (1954) - Fig.6; furnace G (1956) - Fig.7 and the table. An increase i-a the top pressure of the MMK furnaces was accompanied by a shift of the minimum temperature and maximum of 002 content towards the centre on both the top (Fig.8) and middle (Figq; levels of the stack. The influence of top pressure on the distribution of gas velocities along the throat diameter is ztown ',-, the following average data: Distance from wall, m 0.05 0.40 0.85 1.40 2.20 3.30 Gas velocity, m/sec at a top pressure Card 2/5 0.1 - 0.3 atm 11.7 6.2 6.5 8.1 10.2  I" OV/1 33-5 9- e a Th6 distribution of the Gas Stream in the Blast Furnace Stack Gas -velocity, m./sec at a top pressure 0.7 -- 0.8 atm. 5-5 4.7 5.2 '7_0 9.4 ,o decrease in gas 0' velocity 34 29 24 20 14 8 An increase in the gas velocity at the centre of the furnaco at; incroused top pressure was also --onfirmed by the sizt~ distribution of samples of burden materials, collected from the top part of the barden column in furnaces A and G during investiGations carried out in 1959-1958 (Fig.10)L, Although the size of materials was somewhat distorted by crushing of sinter during sampling (with probes) nevertheless the data obtained indicate that the content of fines 0-5 mm was the hi&est at a distance of 1-5 m. from the wall., the proportion of +10 mm. fraction. increases from the periphery towards the centre (probably due to segregation), ihe proportion of Card 3/5 --l min fraction increases frcm. the wall toiva:rds the centre  S OV/1 33-5 9-2-2/2 iS The Distribution of the Gas Stream in the Blast Fux-nace Stack and then sharply decreases at the centre. The highest C02 concentration corresponds to the highest ore load with the maximum content of fines. On an increase in the top pressure the relative increase in the gas velocity in the central part of the burden column was accompanied by a similar increase in the rate of descent of materials measured (with weiolts on a cable) oil a few furnaces: Distance from-wallv m 0.25 1.25 2.25 3.25 Rate of descent, mm/r ain at top pressure of 0.1 - 0.2 88 ?9 ?2 76 0.5 - 0.8 89 84 so 84 % increase in the rate or cLescent 1.1 6.3 11.1 10.5 With increasing pressure the rate of descent of burden materials increased at all points alone the radius due to Card 4/5 a 5.7% increase in the driving rate. Static pressure at  r'OV/133--59-2-2/26 0 The Distribution of the Gas Stream in the Blast Furnace Stack various points along the radius remains practically constant (irrespective of toD pressure). Thus pressure measurements at the wall are sufficient for the determination of pressure drop along the furnace stack. In view of a low value of the dynamic pressure of gas (1-2 mm Hg) the conclusions regarding the constancy of static pressure along the furnace radius can be taken as valid also for the total gas pressure. The minimum residence time of gas in MMK furna---.es calculated at iow and Increased top pressures is 1.8 and 2A see respectively, the maximum 4.5 and 4.7 sao and mean 2.6 and 4.3 see respectively, Theie is 1 table, 10 figures and 3 references of vdiich 2 are English and 1 Soviet. ASSOCIATION-.hlagnitogorskiy Metallurgicc-heskiy Kombinat (Magnitogorsk Metallurgical Combine) Card 5/5  Ov/1 33-59-4-1/32 AUTHORS: Bab a -1.,U. AGa hin, A.A. and 7rushin, F.A., --Zn- in.ers TITI;u': Determination of the jwtive WeiGht of Burden in an OperatinG Blast Furnace (Opredeleniye alctivno 0 vesa shikhty v deyst-,ruyushchey domennoy , pe chi Pj~R101)10A.b; Stalls 1959, 1Tr 41 pp 289-291 (USSR) It is understood that the active weight of burden (ko./cm2) means the difference between the vertical Ixessuls' of the b=,den and tlie teas pressure supporting che burden: ~a = ~r -- PG. An analytical method of uetel-,!dninL~ vertical pressure of the blast furnace burden based on Janson`s formula is proposed. .L~xperimental determinat ions of the active weight of the burden at various furnace levels (down to 14.5m from the stock level) in an operating furnace were carried out. The measurin- method was based on introducinL; a probe tube into tlie burden to a required level and ideasuring vrith a dynamometer (fiC 1) the force required to rotLd~n '-he tube in the stationary state. The experimeii:~al set up is shown in Fig 2. The Card 1/3 results of the deteii,11nazionz of static pressure of gas  ;-~OV/133-59-4-1/32 Detei-mination of t1ie ketivo VieiGht of Buraen in an Uperating Blast Farnace and active wei-Cht of tLe burden as well as calculated values for vertical prossura of the layer of burden material at various furmace levels are assei-Aled in the table. `-Ohe expcrili,eiital alic! calculated values for tne vertical pressuro of the burden vrithin the limits of the I'dry" zone aL~,roed well (fi(,r 3). The experimental data on chun-es in the deL;ree of participation of the active vioi-lit in the wrtical pressure of burden ciiaracteris,inL~ de6ree of drivinG of the blast furnace amount of passbq-,, L~ases) indicate tliat under conditions of a hioi top press-Lire operation the upper hall' of tlie fa:rnace coald be driven hai:der. This rcsOi.;,,c of driving-, ;apacity of the, upper part of the 0 Card 2/3 fur-nace cwi be uitilised by blowinL into the :C`tirnace  :'0'1/133-59-4-1/32 Detemination of the Active '4eight of Wrden in an Operating Blast L"Urnace stack some reducing E;ases. There are 3 figures, 1 table and 1 Soviet reference. A,SSOCIA'i!1014:L,IaGnitogorskiy Metallurgichoskiy Kombinat (TNIaEp:iitogorsk Nletallurgical T"ombine) Card 3/3  18-3200 QOV/133-6o--i-5/~:0 J AUTHORS: Babarykin, N. N., Zborovokiy, A. A., Potapov, A. I. Yo. I. (Candi-date of Technical Sciences) TITLEt Investigation of Movement of Cast Iron and Slag In the Bla:3't Furnace flearth PERIODICAL: Stall, 1960, Nr 1, pp 19-23 (USSR) ABSTRACT: This is an inveutigation of physicochemical and tnechani- cal procC38eU taking place In the blast furnace hearth, with the pui,pose of improving the technological control of the blast; furnace process and for the de,,,,,~Iopment of reliable mir_~'V'hods of control of the hearth and hearth bottom condition. A * A. Agashin, L. K. Strellcov, and A. G. Rogovoy (Engineers) participated In the,,,.-;ork. The tests were conducted In 1%8 on a 1,371 m-) blast furnace with 16 tuyeres, a hearth B m In diameter, producing the low-manganese conversion cast iron from a charge containiS~ 93% of fluxed sinter. The radio- Card 1/7 active isotopes P and Fe59, of 150-200 and 50-60  Investigation of' Movement of Cast Iron 77444 and Slag in the Blast Furnace Hearth SOV/133-6o-1-5/30 Card 2/1 microcurie respectively (in steel ampules) were used. The radiation sources were Introduced through an ir.Dn tube Into the oxidizing zone of tuyeres Nr 2, 5, and 8 (through the inspection liole)~15, 60, an(l l2o minut-es after the closing of cast iroti notch. The metal was tapped everl 3 houl,s. The duration of tapping was 35 to 45 minutes. The Investigation was based on the assu-np- tion that (in the presence of substantial convective flows of cast iron and slag) the radioactive indicator introduced into the hearth should distribute relatively uniformly, over the eotive VOILU110 Of* 1110t,111. Therefore, in the course of tapping no essential varia- tions of composition of cast iron or slag should be expected. The radioactivity of samples was mensured by a block of eight counters connected with an Im3tallation of B-2 type (Ref. 4, v. Ye. ludin, M. L. Sazonov, and A. I Ojipov, Zavodskaya laboratoriya, 1955, Nr 11). An 1i m ladle was used. The change In radioactivity of cast iron after the introduction of radioactive indicator into the 8th tuyere 13 given in Fig. 1.  Investigation of Movement of 11")"I and Slag in the Bla.,3t Fumice Ife-urt'll (J-'()V/"], 3 -60-1 -5/30 Card 3/7  Investigation of Movement of Ca,,it Iron 7 711114 and Slag in the Blast Furnave Hearth sov/i-i3-6o-1-5/--~'O 5, Card 11/7 4 j ' - 1 ti  Investigation of Movement Of Cast Il~clll n-iid Slag in the Blast Furi)ace Hearth 774.414 SOV/'133-6o-1-5/30 Fi~. 1. Change in radioactivity of ca.;t iron at first (A and second (B) tapping after the introduction of,,., radioactive indicator through the 8t!i tuyere. (a) Fe- was introduced 15 minutes after closing of tap hole (curves I and ii).. (b) P32 lntroduc~6 1 hour af Lev closing of tap hole (curve III);'(c) Fe was intPo- duced 2 hours after closing of tap hole (curve IV). Caption for FIg. 1, showii oti Car~ls 51( all(l 4/7. Similar curves are given for the tests when the radio- active indicator was introduced to the 5th and 2nd tuyeres. The change of temperature of upper slag; the change of basicity of tipper and lower slag; the change of temperature of case iron during tapping; and the change of sulfur content in tipper and lower slag were recorded. The change of chemical composition of cast iron during tapping is given in FIE;. 7. The authors Card 5/7 arrived at the following concluslons. The data of  Investigation of Movement of Cast Iron and Slag in the Blast Furnace Hearth &I 'ZO 77444 SOV/133-60-1-5/30 Fig. 7. Change In chemical composition of cast iron Card 6/7 duri t ing according to experiments: (a) February 1959TNb~Tptember 195 - C-4-50-  Investigation of Movem(--nt o1' Crt.~,t Iron (-(,1144 and Slaj~ In th~.- ffla;;t Piwwwo 110;lt-th "'OV/1 nmllwr 0t, pre,.-Ious ::11 ix ni, d,ir-ing Wit- pu ~1-1o~t oi, ot, (anct -:' lai,) In the c- mettl. and fit-arth ol' A:: ~1 I.(. I'll tAw wcIIIIIu1,It(-- :111d :11--, t:-~ -,*L;p--Iva,,u which :;hould hf. t,tk-n 110.u :tccuuilt, III conductIng th", 1,113,11:10,c I. G. Polovcht-Itko (jt,~-r e,,: T., ,-I:: t IA I I I I .: t, I I( I- ( - k ) I c ~ I k I V 111 t a 1 1. 11 I- II., t wt I I I( d, IIV I I-III, 'd P I : i I , t. 8, 1 , I i - k I I v? .1 11.1c. Tile U, K. 'h T 1 1 J t, I it 1( 1 1 J I I I c"1 i'd  BARDIII, I.P., akad. [decedsed]; KULIXOT, I.S, ZUDIN, V.M.; TSYIXV, L.M.; SOKOLOV, G.A.; GAL&ONOV, A.L.; BABARYKIII, N.N.; GULITYAT, I.I. Making low-sulfur cast iron at the Magnitogorsk Combine. Stall 20 no;10:865-869 0 160. (MIRA 13:9) (Magnitogorsk--Blast furnaces) (Cast iron--Metallurg7)  BABARYKIN, N.N., kand.tekhn-nauk; CLUXMIN, I.M., kand.tekhn.nauk LEPIMIN-OL-A., inzh. Temperature and composition of -.he cast iron in the broken-down part of a blast furnace hearth bottom [with summitry in English]. Stall 21 no-31198-200 Mr 161. (IIIRA 14s6) & 1. Magnitogorskiy metallurgicheskiy kambinat i Chelyabinskiy nanchno-issledovatellskiy institut metallurgii. (Blamt furnaces--Maintenance and repair)  ZUDIN, V.M.; BABARYKIN, N.V..; GAIATONOV., A.L.; KULIKOV, I.S. Effect of magnesium on the desu2f*rizing properties of blast rurnace slags. Stall 21 no.5:385-391 My 161. (MIjA 14; 5) I. Magnitojo~skiy kombinat i Institut metal2urgii AN SSSR. (Deaulfuration)  RUDIEVA, A.V.; MALYSHEVA, T.Ya.; SOKOLDV, G.A.; GULITYAY, I.I.; Prinfma3d uchastiye: GAUTONOV, A.L.; GAMAYUROV, A.I.; BARARYMIL. N.N.; KOSTIN, T.M. Changes in the material. composition of industrial sinter along the cake height. Stall 22 no.1:5-9 Ja 162. (XIDIA 14:12) 1. Institut metaUurgii imeni A.A. Baykova (for Rudneva, Malyaheva, SokolDv, Gulltyay). 2. I.-lagnitogorskiy metallurgicheskiy kombinat (for Galatonov, Gama-yurov, Babarykin, Kostin). (Sintering)  ZUDIN, V.M.; SAGAYDAY., I~I.; YAKOBSOV, A.F.; DOMIANl V.G.; GAIATONOV, A.L.; IEKIN., P.V. Preparation of screened ainter and its use in blast furnace smelting. Stall 22 no.8-.675-M Ag 162, (MIRA 15:7) 1. Magnitogorskiy metallurgicheskiy kombinat. Wintering) (Blast furnaces-Equipment and supplies)  CZAPART 1N, ~, , 't-,Ftrld,' Clmrje. and o:--sg;,,re Aln "blaot '~.,,rn!tcoes. ~:-ql I ;~ 12 rc,. i~: f y- , -71Z S 10,1. \."R.,% (Blast furnqct:s)  IZPIKHIN, L.A., inzh.; prinimali uchastiye: SUFANOVICII, M.A., doktor tekhn.nauk; BABARYKIN, N.N., kand.tek-hn.nauk; NEYASCV, A.G., kand.te),hn.i~tW'k~'*-SltrA'RBrTZ, L.Ya., inzh.; BOGDLNOV, V.V... inzh.; 711ARKOV, P.N., master pechi; PANIN, O.G., master pechi; FEDCTOV, V.G., master pechi; FEOFAIC)V, N.M., master pechi;SAGAYDAK, I.I., inzh., rukovoditellraboty Evaluating the effect of various method2 of chareing a blast furnace on the state of the gas flow in its upper part. Stall 23 no. 3,198-204 Mr 164. (MIRA 17:5) 1. Magnitogorskiy metallurgicheskiy kombinat (for Lepikhin).  t'o 21  ITSHIN, F.A.; W-iIATIYKIN, - Studying the reduction prucesoeB in a blast Stall 24 no.11:968-975 N 16141 (I! i .- ? " ~~: 1 )  BABWAIN-Y.N.; GALATONOV, A.L.; SAGAYDAK, I.I.; SHPARBER, L.Ya.; ZVERLING, A.L.; YAKOBSON, A.P.; DORISi YU.M.; MILO, N.L.; KOPYRIN, I.A.; OSTROU)MOV, M.Ya. Experimental smelting with a reduced slag output. Stall 24 no.12r1069-1075 D 164. (KRA 18t2) 1. Magnitorskiy metallurgicheskiy kombinat i Chelyabinskly nauchno-isaledovatellskiy Institut metallurgii.  CHEWIATIN, A.N.; OSTROUKHOV, M.Ya.; G-1 ~MEL 'FARB, R.A.; VOLKOV, Yu.P.; BABARYXIII, N.N.; SHPARBER, L.Ya.; GALATON"OV, A.L. MzBtering of MIK (Magnitogorsk Metallurgical Combine] blast furnace operations with the use of natural gas. Metallurg 10 no.8:12-13 Ag '65. (MIRA 18:8) 1. Ghelyabinskiy nauchno-issledovateltakiy institut metallurgii i Magnitogorskiy metallurgicheskiy kombinat.  AGASHIN, A.A.; 44ARY N, OV, Yu.P.; GALATONOV, A.L.- KRYUKOV, N.M.; %1N,. k,; VOLY MALIKOV, K.V.; OSTROUKHOV, M.Ya.; PISHVANOV, V.L.; CHFAN~ATIN, A.n.; YUSHIN, F.A. Experimental operation of blast furnaces on mazut and natural gas. Stall 25 no.5:393-400 Mv 165. (MIRA l8t6) 1. Magnitogorskiy metallurgicheskiy kombinat; VsesDyuzryy nauchno- issledovatellskiy institut metallurgicheskoy tPplotekhniki i Chnlyebinskiy nnuchno-issledovntellskiy institut metallurgii.  CHEUTOGOROV, P.V.; BOBROV, A.V.; Prinimali uchnstiye:.BABARYKIN,1T.V.- .-,- -1 MoliOTETKO, I.P.; VORW, I.?.; KMUYF.VA, F.S.; OKULISKIY. HJ7., GALOFMINi I.B.; VASINA, Z.M.; BERNSUrf1l, S.I.; BALINSUT, V.R, Wfect of foundry iron prepared by a non-blast-furnace method on the quality of foundings. Lit.proizv. no-7:9-12 Je 16o. (MIRL 13:7) (Cast iron-Metallurgy) (Foundries--Qaality control)  BABARYKIN, S.P. - Effect of temperature and breaks in the insulation on the per- formance of the MSP-55 well device. Razved, I prom. geofiz. no.40:55-60 161. (MIRA 15:7) (Oil well logging, Electric--Equipment and supplies)  BABARYKIN, S.P. --- -_ -_ I .. __ 11 -Device for checking the MSP-55 well device. Razved. i prom. geofiz. no.40t6l-63 161. (MIRA 15:7) (Oil well logging, Electric--Equipment and supplies)  ACCESSION NRt AP4040707 S/0203/64/004100310458/0463 AUTHORs Babary*kin, V. K. ; Bayar~avich, V.V.; Stozhkovp Yu. I.; Charakhchlyan,, T.`.N. TITLE: Latitudinal measurements of coomic-ray intensity in the .-stratosphere :SOURCgt---Geome~gn*.ZinMui.,-acronomiya, v. 4, no. 3, 1964, 438-463 11OPIC TAGS% cosmic ray intensity, stratosphere. equatorial belt, ,sounding flight, geomagnetic latitude, extrapolation, communication !coefficient :ABSTRACT: The intensity of cosmic rays in the stratosphere was ;Measured on board the steamship "Estoniya~' which sailed from Lenin- i ;grad to the shores of Antarctica. At the same time, observations ..with identical instruments were carried out at Murmansk, Moscow, ahd 'Alma Ata; Data obtained at these places and in the equatorial belt ,in December 1962 are represented graphically. The curves are similai. !The soundin from which the in- g flights reached he *ights of 27-30 kma :tensity of cosmic rays could be determined.at low pressures and at :various goomagnetic latitudes. Attempts to determine the intensity Cord 12  ACCESSION NRt AP4040707 iof cosmic rays at the upper boundary of the atmosphere by extrapola- Ition yielded exaggerated results. Data an the latitudinal distribution of cosmic-ray intensity are used for computing the coupling coefficients, Numerical values of the coupling coeffidients for all stations are given i lin a table. Orig. art. haR: 4 figures, 2 tables, and 6 formulas. !ASSOCIATIONt Vos'maya Sovetskaya Antarktichoskaya ekspeditsiya *AN SSSR (Eighdi Soviet Antarctic Ex0editionsAN SSSR); Fizicheskiy ;institut Lm. P. N. Lobed eva AN SSSR (Institute of Physics,AN SS9R); iMoskovskiv gosudarstvenny*y. universitat, Institut yadernoy fizikL !_:'-.-j~(Moscow State University, Institute of Nuclear Physics) '?SUBNITTEDs 140ct63 ATD Pmss 3o4i ENCLt 00 -JSUH CODE& AA NO REP SOVI .008 OTHERs 002 Lcard 2/2 -----------   BABARYKIN, V.E'.; BARANOV, G.I., m-lzdehiy nauchnyy notrudnik; WiRDIN, G.I., utlu~i,illiy nauchnyy sotrudnik; SAKUNOV, G.G., mladnidy nauchny-j sctr-udrik A-lbedo of the Antarctic ice surface. Inform.biul.Sov.antark.eksp. no.48:22-24 164. (MIRA 18Q) 1. 'Mentrallnaya aerologicheskaya observatoriya, Arkticheskiy antarkticheskiy nauchno-issledovateliskly inf!titixt i Gla,,,naya geofizicheskaya observatoriya.  Lj�~6-66 E14T(J)/FCC/EWA(h) GW ACCESSION NR". AP5026222 UR/0048/65/029/010/1805/1806 AUTHOR: Vernovi S. N.; Charakhch'yan, A. N 4-qb-amk-i-n.,-!,-K.; B.~MrevLch _x Stozhkov. Yu. I.: Charakhch'.Yan, T. -35 TITLE: Measurements of the intensity of cosmic rays in the stratosphere above Antarctica SOURCE: AN SSER. Izvestiya. Serlya fizicheskiya, v. 29, no. 10, 1465, 1805-1806 TOPIC TAGS: cosritic ray, primaq~ c~mi(~ ficial __ray, outer radiation belt, aitt radioactivity, critictil energy, proton I ABSTRACT: Simultaneous measurements of the intensity of cosmic rays ill :'A'11 hemispheres are of great importance for investigating law-energy r t ir, cosmic radiation, temperature effect, disturbances in tlie earth's -,otor v - at i oil belt, and artificial radioactivity in the stratosphere. AlLhough the criticai energy in Murmansk is about 100 Mev and in Mirnyy about 10 Mev, measurement% are carried out in atmospheric layers above boLh places with .1 pressure of 10 ;~IcW, which can be penetrated by protons with ener itis above 100 Nev. Data obtai-iied simultaneously in Murmansk and Mirnyy are obtained at different seasons,,and they arrive from different directions in. the atmosphere. Sounding takes place in all stations at a given time. Four times a week cosmic rays are measured with a Card 1/2  L 3646-66 ACCESSION NR:: AP5026222 single counter and two times with a special telescope. Results of measurements are represented graphically. The difference between Iturmansk and Mirnyy varies, depending upon the season of the year. The difference is small when the pressure is between 20 and 200 g/cm2 The difference increases at other pressures. Orig. art. has: 2 figures. [EGI ASSOCIATION: Fizicheskiy institut im. P. N. Lebe,deva Akademii nauk SSSR (Institute of Physics, Academy of Sciences. S; Nauchno-issledo,.vatel'skiy inatitut yadernoy fiziki Moskovskogo gosudarst~ennogo universiteta im. M. V. Lomonosova, (Scientific Research institute of Nucleai Physics, Moscow State Univer tty); VIII Sovetskaya antarkticheskaya ekspeditsiya (VIII Soviet Antarctic Expedition) StMaTTED: 00 ENCL: 00 SUB CODE: AA,4s NO REF GOV: G01 OTHER:' 000 ATD PRESS:  --V ---A -- FA-' z - 1~ -- i4z- ~ -Z-- -I- . I . E., --- - 11 - - . -- -~ .,., . . -, - k -.-I ~ " -~ ~ ~ I~ t~ "- -1-1 -- - - I - .\ -Y, ~..f Y. j 4 _-- - L,.,. -,-_ I -. - -.. - - -1 1 ~ --.- I - I , , . ..- ") 1 7 : i~. I  bA v-,j j 6 VA,, Y, MILINX, X.I.; NUMNA, T.A., kandidat moditsinskikh nauk; BABASIVA, To.P.; YOKINA, A.I.; KON01107, O.K.; SIVERM. A.Y. Treatment of mycoses of the scalp with Losovykh solutions No.1 and No.2 without using- Z rVe. Vest. ven. t dorm. no.5:21-22 s-o 154. (MLRA 7:11) 1. rx Kiyevskogo dermato-venerologicheakogo institute, (dir. G.Te. Koryakin) i Kiyovskogo gorodskogo dispenser& QlaviW vrach A.S. Ivanov) (HM, diseases, fungus die., chomother.) (FUNGUS DISIASICS, sealp, chemother.)  MILINIK, M.A.; IVANOV, A.B.; PODGAYSTSXATA, M.G., imadidat meditsinakikh asuk,, BABASEVA, Ye.P.; LBSTOYSTSKATA, G.I.; XITSINSKIT, N.V. -W Treating mycoses of the scalp with OLesovai&O liquids don 1 and 2 without using X rays. Report No.2. Vest.von. I dorm. 30 no.4:52-53 JI-Ag 156. (MLRA 9:10) 1. Iz mikologichaskogo otdoleniva Kiyovskogo gorodskogo kozhno- venerologichookogo disAansers. (ANTISEPTICS) (DIRKAT09YCOSIS) (SCALP-DISEASES)  DRYGA, A.I... inzh.; BABASH,, V.G.~ inzh. Drilling inserted metal element in reinforeed-concrete parts of ma.0hines. Mashinostroenie no.3:115-116 It-Je 163. T, . (MIM 16:7) 1. Nauchno-isoledovatellskiy i proyektno-tekhnologichaskiy, inatitut-mashinostroyeniya Donetskogo sovets, narodnogo khozyaystva. (Drilling and boring)  DRYGA, A.I., inzh.; BABA")H,,Y.G., inzh. Investigating the strength of reinforced-concrete base parts. Ma- shinostroenie no.41lIO-112 Jl-.kg. 163. (KIRA 17:2) 1. Hauchno-issledovatellskiy I prqyektno-tokhnologicho:.-,kiy insti- tut mashinostroyenlya, g. Kramatorsk.  DRYGA, A.I., inzh.; BABASH, V.G., in7Ai. Lateral rigidity of reinforced-concrete beds for heavy machine tools. Hashinastroenie no.5tl5-18 S-0 163. (MIRA 16sl2) 1. Nauchno-issledovatellskiy i proycktno-tekhnologicheskiy institut mashinostroyeniya, Krumatorsk.  DRYGA, A.I., inzh.; BABAM, V.G., inzh. lnvestd,ntina the strength nnd rigidity of the fastening In concrete of metal inlaid parts of reinforced-concrete base components of machines. N I (MIRA 17:2) Vest.mashinostr. 43 no.11:18-20 . 63.  BABASRIV, B. S. Clinical aspects of pulmonary echinococcosio. Trudy Inst.klin.i eksp.Wr. AN Xazakh.SSR 5t86-93 159. (MIRA 130) (LUNGS--HMTIDS)  BAR IIEV B S, Comparative experimental evaluation of eame methodsTop anesthsAia in acute radiation si2knebs. Trudy Ipst. kl".,i eksp, khir. AN Kazakh. SSR 60~-57 160, MIRk 13:12) (RADIATION SICKNESS) (ANEStUSIL) -  BABASHEV, B. S., Cand Med Sci -- (diss) "Comparative experiizluntal evaluation of some anesthetizing imethods in acute radiation sick- ness. " Alma-Ata, 10,60. 16 pp; (Inst. of Physiology, Dist- of Kray Pathology and Inst of Clinical and Experimental Surgery of -the Acad- emy of Sciences Kazakh SSR); 300 copies; price not given; (KL, 17-60, 167)  BABASHEV, B.S. Cancer of the lungs in Mazakh3tU-. Trudy InstAlin. eksp. khir. AN Kazakh. sr-,R 8s56-65 62. (WRA 17:7)  0 hiAB.,'tSD'-V. B,S~- ROZIJkVA, AJ, GIJI', V1. ft,~; 11;11: KEMV IG , V " . J, Prolapne of' thie bi!art from the j-wrlvirdnum Into tne r,leural c-vJV following a pilmonuctonv. Trudy inqt. kl..'n. -' ekEp. k1dr. AN Kazakh. SSR 9-.100 ... 103 16-1. (MIRA 17:1Z)  MOGUTUV, S.I.; j"AQuA u &mw Expand the production of Siberian pine immersion oil. Gid-roliz.i lasokhim.prom. 9 no.3;19-20 136. (MLRA 9:8) 1. Barnaullekiy kanifolino-terpentinnyy zavod. (Gums and resins) (Oils and fate)  BABASHKIN, G. They are fulfilling the obligations they assumed. Prom. koop. no.9t 8-~9 S 157. (XLU IWO 1. Predeedatell pravleniya Monoblprommov*ta. (Moscov Province-Gooperativ* societies)  BABASHKIN, G. We improve industrial managecient. Prom.koop. 13 no-3-6-7 Mr 159. WRA 12:4) 1. Predsedatell pravleniya ob1promaovetn, Moskva. (Moscow Province--Cooperative societies)  -BAMSHKIN, I.M. Shifts and working-hours of telegraph operators should be proper.17 arrahged. Vast. eviazi 19 no.7t22-24 Jl 159. (MIRA 13:8) 1. Starshir inshener normativnoy gruppy TSentrallnogo telegrafe. SSSR, (Telegraph-ApIpyeos) (Hours of labor)  BABASHKIN, I.M. --- ---- Use of broad estimates for establishing the number of teletype operators. Vest. eviazi 22 no.12:21-22 D 162. (NE[RA 16:1) (Telegraph-Employees) (Telegraph-Accounting)  BABASUN. A.V. 0""0500=ftereffeote of disconnecting the receptory apparatus in the sino- auricular ganglion in the heart of dogs by means of extirpation of the interwartebral ganglia of the first five thoracic segments. Medych. zhur. 23 no.2-27-32 153. (HLRA 812) 1. Oaipenkivskikiy uchitel'alkly institut (Zaporizlka obl.) (MVOUS SYSTEM, SYMPATHETIC) (RECEPTORS (NEUROLOGT)) (HNART-INIMRVATION)  l A-t l~ IC  US' .R/ I'Aledicine -I Zf. ur ol -.; 1,;y card 1/1 Pub. 22 - 49/49 Authors I IkAbvw~ln, A. V. Title i Histological chonges in dorsal intervertabral ganglions after inflicting chemical trauna on the skin innervated by DI D6 int,rVLrtebral ganglions, Periodical t Dok- ANT ssc~R 101/3, .581--584, Mar 21, 1955 Abstract I Experiments were condueted on dogs and guinea pigs to observe the histolo~icnl changes occurring in the dorsal intervortebral ganglions after inflicting chemioal trauma (formaline emulsion) on the akin inrmrvat-ad by the DI - DC intervertebral ganglions. The results obtained are described in detail. Illustrations. Institution I State Fedf.1gogleal Institute. Osipenko, Zaporozho Region I Prosented by i Academician A. I. Abrikosov, August 26, 1954  USSR/bijr1liology of Man and Animals - Vascular System. S-5 Abs Jour : Ref Zhur - Biol., No 6, 26494 Author : Babaskin, A.V. Inst Title : Perincural Sheaths of the Cardiovascular System. Orig Pub : Nauk. zap. Melitopol'sk. der7li. ped. in-t, 1956, 3: 151-168. Abstract : Perineural sheaths (PS), morpholo(Acally not connected with the elements of lymphatic system, were revealed in the aorta,, the pill nary artery, the venae cavae and other vessels in canine and feline hearts. PS co- ver certain intramural Ganglia and fibers as well. The system of PS ends blindly and the myelin sheath faile to penetrate throudi the end of IS. PS consist of the inner epithelial membrane and a thick outer lay- er of argyrophile cells rich in fibrillae; Card 1/2  HARASKII(a A.V. Tathology of the Intercostal ganglia in healthy dogs. Firiol,zhur. [Ukr.] 4 no.1:131-132 Ja-F '58- (MMA 11*3) 1. Helitopol'skiy podagogichniy institut. (IDO(VOUS SYSTSM-DISMASMS)  AHMOSOV, I.I.; ~AYASjIXIN.,P.G.; GRECHISINIKOV, N.P.; YffIEMIN, I.V.; KAIPYROV, G.S.; PHYMISHNINOV, V.K. [Industrial and genetic classification of U.S.S.R. coals; basis for classification] ProrVshlenno-geneticheskaia klas- sifikatsiia uglei SSSR; osnovy klassifikatsii. Moskva, Nauka, 1964. 174 p. (MIRA 17:11)  L o5o8o-67 r--XCC INR, LWT (d) /FSS-2 AP6013306 SOUPOE CODE: UR/0413/66/00Q/008/0098/00913 AUTHORS% Izhint M. 1.; Alekaeyev, L. A.; Babashkin, V. 1. ORG: none TITLE: A method for discrete summation of signals.,f/ Class 42, No. 180858 V SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 8, 1966, 98 1 TOPIC TAGS: signal coding, signal processing ABSTRACT: This Author Certificate presents a method for discrete summation of signals associated with the encoding of information with a fixed weight. The method increases the interference-free nature of the process. Binary symbols of the code group, which are accepted simultaneously on N channels, are linearly added with subsequent limita- tion of the sum to N levels by clippers of the sum. The solution in regards to the transmitted code grou is taken by detecting the specific number of the largest (based on the number of ones5 or smallest (based on the number or zeros) values of the sum. SUB CODE: 09/ SUBM DATEt 10Yay65 1/1 fV UDC: 681-142.621-374  GlAZh--')V, P.G., inth.; SLADY05111TYEV, V.T., k~jnd.tekhn.nauk; TFLLSJV' 6.J4.' inzh.; OFENGENDEN. A.M., imb.; STRELErSy kand.tekhn.nauk; RURZOV, Y.P., inzh.; Prinimali uchastiyc: YALALling 'A.V.; DIRUFTNIN, I.I.; YELI)SOF, AN.; YFVTUSHU-JPD, V.B.; OSIFOV, V.G.; bttBAShB'__--- Yu.Z.-- SLITY0, A.N.; ZELENOV, S.N., G~NKIN, V.Ya.; FITAL, N.V.; VYSOTSY.1,YA, T.M. Invc:-tirating the operation of multiple-pit continuOUS 5teel Cac;t- inr arrangements. Trudy Ukr. nauch-i,-sl. inst. met. no.7:133-1.42 (MIRA 14: 11 (Continuous casting-Equipment and supplies)  SHAFOVALENKO, V.G.; BABASKIN, Yu.Z. -4, Bottoii pouring of oteel without stoppers, Lit.proizv. no.l+t43 Ap 163. (Foundrioa-Equipment, and suppliee) (MlFtA 1614)  F I'VJ'Al , IN-V - , VIIIIn - LCJ lln. flauk ' IIAIJA: Xl:;,, Yia.Z. , inzh. Iml,.roving the tociumlogy of casting IKHSN9~1'1. stevj, Variilijo- st-oenlp nci.1:59-61 JB-F 164. l?:7,  FIRSEN, N.V., kand. tekhn. nauk; BA4AqN1jL,-Xu&Z.0 inzh.; ZHILYAYFV, A.P., inzh.) TUROVSKIY, V.P., lnzh. Selecting optimum temperature conditions for smelting and teeming of Kh18NqTL steel. Mashinostroenie no-5928-29 S-0 164 (MIRA IS t2)  ACGE&SION Nn: AP044249 8/0128/64/000/008/0041/0042 AUTHOR- Fikaon, N. V., Dabaslcln, Yu. Zj_ Zhulynyov, A. F,, ShWvalenko6 Ve 06 j'.' Turovskiy, Vb P. TITLE i Manufacture of IChl8N9TL stool in an Induction furnace by resmolting with oxygen 60tMCE: lAtcynoye proizvodst-vo, no. 8, 1964, 41-42 TOPIC TAGSt steel manufacture, Induction furnacoo IChl8N9TL stool, stool smolting, oxygen rosmolting, docarbonization, blast furnace, tuyero blowing 7 ABSIMACT: The technique of blow-ing oxygen into the metal, the oxygen pressure, and We composition mid temporature of the metal an factors in decarbonization and chromium Ibuin-up were Investigated fix an attempt to develop an optimum technology. for manufactur-' Ing low-titanium, high-quality lUiIBNDTL staffilens steel (with a carbon content not abovo 0. 06%) from Wo plant's steel wastes and rolled scrap by remelting In a 250-kg oxygen- Ib1asL Induction furnace. By varying the proportion of stainless steel wanton and high- carbon scrap In Vie material from 0 to 100% and t1io prco-blowing temperature from 1680 to 1660C, with a post-blowlixg temperature of 1800C# an efficient tochniquo was developed in which the pro-blowing charge contains 47% of carbon stool scrap, to which 27% of L  ACCESSION NR: AP4044249 stainleso steel wantea (with respect to the molt weight) Is added after blowing. Both, of the two tested blaBt proceduroo - tuyero blowing and blowing through a submerged pipe wF,ro found to be effective, the latter being more economical. Remelting with oxygen given a bettor product than remelting without oxygen. Orig. arL his- I table. ASSOCIATION: Donotskiy zavod 49cl1skokhozyaystvonnogo, mashinootroyenlya (DonoW Agricultual Machinery Plant) 7 , 00 j, SUBMUTE ENCU 00 D sun ODDEI MM . " 004 OT11ER1 000 NO =j? SOVi q -4- 1N ~V 2 % 1 2/2 Card f ;% 4~ 'I  ACCESSION NR: AP4045806 S/0128/64/000/009/0003/0005 AUTHOR: Fiksen, N. V.(Candidate of technical sciences); Babaskins Yu. Z. (Engineer) TITLE: Effect of titanium on structure'formation and pressure tightness of armature castings made of Khl8N9TL steel SOURCE: Llteynoye proizvodstvo, no. 9, 1964, 3-5 TOPIC TAGS: titanium, titanium alloy steel, steel casting, pressure tightness, steel casting pressure tightness, armature casting, steel structure formation, Kh18N9TL steel ABSTRACT: The development of modern branches of engineering has Increased the requirements for thin-walled armature castings made of KhI8N9TL stainless steel which can be used In aggressive gaseous media under pressures of 5 atm. and mores However, the usual production methods do not ensure the required properties, the main defect being high porosity. It Is known that porosity In stainless steel depends on the metal shrinkage, dendritic structure, and the high content of gas and flaws In the liquid metal ap casting temperatures. Addition of titanium affects these properties In various ways. The present authors Investigated the relationship between macrostructure formation, pressure tightness of castings and technological factors (casting temperature and titanium content). Castings were '1/3 Card i - .. __ - ' ' . . .. I  ACCESSION NR: Ap4o4506 made In a 430-kg Induction furnace with magnesite lining using ladles pre-heated to 800-900C. The effect of metal temperature and titanium content on the fre- quency of macroinclusions Is shown In Figs. I and 2 of the Enclosure. Increasing the metal temperature from 1580 to 1620C lowers the Inclusions In the castings somewhat, while between 1620 and 1660C the frequency does not change. The titanium content has the opposite andgreater effect than metal temperature, and the cast- Ings have no Inclusions only at 0.3-0.5% TI. In contrast, the oxygen-and nitrogen content In the steel drops as the titanium content Increases. All data Ind1cate that an Increase In titanium leads to a higher porosity and lower density In the castings as well as to lower plasticity at high temperatures. The unfavorable effect of titanium on castings was confirmed by studies on the relative elongation, Lowering the titanium content to 0-30-0-50% thus Increases the pressure tightness greatly. OrIg. art. has: 6 figures and 2 tables. ASSOCIATION: none SUBMITTED: 00 ENCL! 01 SUB CODE! MM NO REr sovt o08 OTHER! 000 Card .2/3-  ACCESSION NRI AP11045806 % 80 to C > 40 FFT7~ 084"IM NJV. file NM-AW V Fig. I. Incidence of Inclusions In relation to temperature. Ordinate relative frequency of Inclusions I.- In Cold. 1 3/3 ENGLOSLUt 01 If ou 41 re ErV Fig. 2. Incidence of Inclusions I.n relation to TI content. Ordinate - relative frequency of Inclusions In  'Y' V.11. , I. r"Ai . j ~V. '~-K( " , A . *- . , --'r; . ; :~ " .'. -K TI I . i ': ~~h - 1. - f - SOK i k'F(I, L. A. , in-1h. fl-)'lo 1 r.-I, -~ , L i v, ij'o r- - q :i ti rij, !-, t ! i I ti I f, :' .'. f~ "t , ; - , 4~ ; : ~ . I ~; t r ~ t~~ ,,, i c, ~4', . i - .;u-~ (1.11RA  mmozov, V.,)... '. .! BABASUIN, Yu,Z., -inzh., ';'Uf--OVSKIY,, V~,, 'rizh.; SOKIRKO, L.A., InA.; 1fP-SY,-',7.PT0, A.~*.. inz,'-..; II.N. Inzh. p p Obtaining compaot stainles~4 steel chs~ings. Magh-,nostroenie no.3;29-30 My.-Je 165. (MIRA 18:6)  FIXSEN, N,V,; BADASKIN, YU.Z, ~~ffect of titanim on tho forMtioh or tho struature and airtightneas ot Khl8N9TL atoal pipa pipe tittitig bantingo. Lit, proitv, nb.913-5 SO 164, (MIRA lAtIO)  FDLSEN, N.V.; BABASKIN, Yu.Z.; ZHILYAYEV, A.P.; SHAPOVALENIKO, V.G.; TUROVSkTY, V.P. Making Kbl8N9TL steel in an induction furnace by the remelting process with the use of oxygen. Lit. proizv. no.8:41-42 Ag 164. - (MIRA 18:10)  ACC NR, AT7000964 SOURCE CODE: Ult/0000/66/000/000/0122/0133 AUTHOR: Babas La~u.' Z.- (Candidate of technical sciences); Muravlycv, V. N. ORG: Listituto of Casting Problems, AN UkrSSR (Institut problem litlya AN UkrSSR); Donetsk Institute of Ferrous Metals (Donotskiy institut chernykh metallov) TITLE: linpiovenients in the technology of fabrication of thinwalled stainless steel section castiligs SOURCE: MN Uh-rSSR. Porolci stalInykh otlivok i metody ikh ustraneniya (Defects in steel castings and methods of their elimination). Kiev, Naukova dumka, 1966, 122-133 TOPIC TAGS: stainless steel, metal casting, titanium, nonmetallic inclusion / Kh18NqTL stainless steel ABSTRACT. The cxpcrience of the foundry shops of a number of plants in the Ukrainian SSR showed that the adopted method of melting Khl8N9TL steel in induction furnaces (the revolting method) does not assure the density of thinwalled section castings designed for the transport- ation of gases under high pressure, as demonstrated by their pneumatic tests, which pointed to the presence of three types of microflaws: shrinkage porosity, accumulation of nonmetallic  ACC NR: AT7000964 inclusions along crystalline grain boundaries, and "titanium porosity" (Fig. 1). This is attri- -7 C3 Cd 0 Cd U C) u) 4~ Cd 0 V 41 0 0 Cd C> A.. x Cq 0 x X 0 rn rn :!4 R 0 C-) 0 04 IL g ho CO E-, 0 0 '44 7 0 44 0 b0 93 Q 14 P4  ACC NRi AT7000964 butable to the contamination of these cas 'tings by gases and refractory nonmetallic inclusions the bulk of which forms as a result of the secondary oxidation of metal during casting. Owing to their considoraWo lengthwise dimensions, those inclusions dotormine Lhe probability of in- stances of that mutual alignment of microscopic defects of metal which disturbs the continuity of the entire cross sectional area of the casting. Hence structural defects in stainless steel castings can be largely eliminated by reducing the amount and changing the nature of nonme- tallic inclusions. In this connection the authors investigated the effect of the teeming tempera- ture and titanium content of the metal on the castinfT of stainless stc(,l fittings with wall thick- ness of -10 min and found that the percentage of inclusions along grain boundaries varies in - significantly with tciiiperaturo-and significantly with titanium content (as the latter increases from 0. 10-0. 25 to 0. 80 and highor). Ti produces this effect because it reduces chrornites and silicates and forms compounds (oxides and nitrides) with soluble oxygen and nitrogen; the re- sulting nitrides of titanium, in particular, may, owing to their tiny dimensions, act as crystal- lization nuclei and become ingrown in the crystals of the metal during solidification. The accu- mulation of noranctallic inclusions along crystalline grain boundaries is chiefly due to the frag-' ments of shattered films that had formed on the surface of the jet of metal during pouring, with; the intensity of formation of these films being a function of Ti content. The reduction or more rigorous regulation of the Ti content of stainless steel reduces the intensity of the film-forming' process and hence also leads to improvements in the physico-mechanical propei--:,~s of castings, Cord- 36  ACC - -NR,.-X177000964 -1 Compared with the regular method of remelting in induction furnaces, partial remelting with the use of oxygen (Fiksen, N. V., Babaskin, Yu. Z., et al. Litoynoye proizvodstvo, 1964, 8) is preferable, since this process ussures a high stability of the C and Ti content of the metal. Orig. art. has: 8 figures, 3 tables. SUB CODE: 13, 11, 20/ SUBM DATE: 23JuI66/ ORIG REF: 016/ OTH REF: 002  Y,AKIINOVSKIY, I., kand. sellskokhoz, nauk; GUZEYEV, G., nanahnyy sotrudnik; GALINSKIY, V.; OCHFRETENKO, Ye.; VOLGINA, T.; MULLIN, S.; SAFIULLIN, M., aspirant;-._AABASYAN, A. Use of toxia chemicals. Zashch. rast. ot vred. i bol. 10 no.8i2l-24 165. WIRA 18:11) 1. Sredneaz4.atskiy institut lesnogo khozyars'.va, Tashkent (for Ma'khnovskiy, Guzeyev). 2. Zaveduyushchiy Kabardino-Balkarakoy tokeikologichoskoy laboratoriyey, Nallchik (for Gallnskiy). 3. Zaveduy-ushchiy kafedroy zasachity rasteniy Kamenots-Podoll- skogo sellskokhozyaystvennogo instituta (for Ocheretenko). 4. Starshaya 'Laborantka Kamenets-Podilakogo sellskokhozyays'Lvennogo institute, (for Volgina). 5. Nachallnik Tatftrokoy s,,antsii zashchity rasteni,v (for Mullin). 6. Kazanskiy pedagogieheskiy in8titut (for Safiul";in). 7. Zaveduyushchaya Irkutskoy tok5ikologicheskoy laboratoriyey Vaesoy-uznogo nauchno-issledovatel'skogo instituts, zashchity rasteniy, Irkutskaya cblast' (for Baba3yan).  BABUYAN, A.M., nauchnyy sotrudniic r- Disinfectants for wheat weeds. Zashch.rast.ot vred.i bol. 5 no.3s28 Mr 160. (MM 16:1) (Irkutsk Province--Wheat-Diseases and pests) (Irkutsk Province--Smuts) (Seeds-Disinfection) -1 .11~ .V -.  I PABASIAN, N. Z. "Competition in Cost Reduction. At the Kutaisi Leather Footwear Combine," Leg. prom., No.1, 1952  ~: -I ~-I? k -I-- ~-' - , , 1. j - ). , . Lcathnr indu5try - Kut;,Y,,:-"- 11 - t1w ~ no. -1 , 19: ~ ", Q, f"11~1 ", ; on '~ r t:". ;,ii L ty~~J 1, ~: . r :1 ~ 1 -s',ou - i ~ , n-, - I " 6 - P1101111.) I ". I - 14 -1- 2 9. Monthly List of Russian Accessions, Library of Congress, Novcmb,r-1953~ Unclassified.  k-, T! L j, - ~ ; _~_ 'i - BABASYAN, N.Z., inzh. I,eather and footwear industry of Georgia during the sixth five- year plan. Log. prom. 16 no.8;14-15 Ag 156. (MIRA lorl2) (Georgia--Shoo industry) (Georgia--Imather industry)  BABASYAN, X.Z., inzh. Prospects for the expansion of the shoo Industry in the Georgian S.S.R. Kosh.-obuv. prom. no.8:11-13 Ag '59. (KIRAL 13:1) (Georgia--Shoo industry)  BABASTAN, N. Xeeting the requirements of the Soviet consumer. Kozh.-obuv. prom. 2 noo4:38-39 Ap 160. (MrRA 13:9) (Shoe industry)  ELUAS !~, Z , Organization of a centralized clicking of materials for sole pafts. Kozh.-obuv.prom. 3 no.8:13-IlAg 161. (I,',IRA 14: 10) (Shoe manufacture)