SCIENTIFIC ABSTRACT OSTREYKO, I.A. - OSTRINSKAYA, TS.

- -53-66, J p"I 1/' -xd L :7 7. ~-ACC NR, AP60 9169 $MCI CODE: UR/0182/65/000/011/001910924 Z' AMOR: -ItskQvIch. G. N!.; Kolesalkov,_N..~I.; Hiranakays, Ostraylto, I.A.; Sautkin, W. lei Tkaebev, P. W. CRC: none TITLE: lep-4rawabilityof sheet &tee ro uced by continuous casting SOURCE: Uznechno-shtl~ovochnoye profz'vodstvo, no. 11, 1965, 19-24 TOPIC TAGS: continuous casting, cast steel, vetal stamping, metal drawing, imasnatimm -Andn"ey, &'heet Metalf "Ufj "4.~J ABSTRACT: The article presents the results of.an injostigation of ~he properties and stampability.of cold-rolled sheet steels_p.~k2' 19k k And O~Ls', produced by the 2,1 ~ qjkk~ continuous casting method as compared with st;el obtained from conventionally cast ingots. Stappability wAs Investigated at the pressforging shop of the Minsk Low- .-Diaglacement Motor Vehicle Plant. Prior to the deep drawing of intricately shaped automotive body parts the specimens were subjected to mechanical tests and metallo- Srapbic examinations uOhich showed that sheet steel produced by continut)us casting seats the requirements of the standards for quality structural sheet steel and that Its ferrite Status ars of a sufficiently mall site to favorably offett the quality of the surface of elements during their deep drawing. Stampability under production rapa 1/2  -ACC NR3 AP6009169 con4itions was determined during the drawing of a number of components of' the Moskvich car: an analysis of the stress-strain diagram during drawing established that the plasticity margin of the natal is comparatively high during the embossing. of most of the components investigated. An exception is the stress-strain diagram during the dio-stamping of lower crazkcases. Tits deep drawing of the crankcase involves limiting values of-the plasticity margin in a number of sectors of the component and in some cases the embossing culsinates in total exhaustion of the metal's plasticity'. Compared, with steel deriving from conventionally cast ingots, the proportion of defective compon'ents fabricated from steel produced by cortinuous casting was appreciably lower. These findings point to a satisfactory stampability of steel produced by continuous casting ond the possibility of using this steel for the deep drawing of elements fabricated from metal nesting the (lower) requirements of the All-Union State Sts~d*Lrd S 914-566,Drig. art. has: 5 figures, 3 tables. SUB COD)9: 11, 13/ SUM 1ATIt none/ ORIC REPt 005/' OM REY: ODO 21d  Osui~~-flro. C. P. "A ContrljLW)n to tnp DoE,-.,e. lhe 1~-I- of Do~p~-,e -)f 1!', ~'l-,:Ad^,-. Fa r,-,kl k o 1 .I lokLikol.. L. ::,). 2, 191,1. :.,br. IF-'-, I. P. IGI. Medical Inst., Lozi~nirpci, -191d-.  OSTRMO, O.P. Combined effect of analeptics upon the central nervous syntem; effect upon convulsions caused by electric current and upon toxicity. Varm.i toks. 16 no.1:28-33 Mr-Ap '53. (KLRA 6:6) 1. Kafedra farmakologil Leningradekogo meditainskogo Inntituta Imeni aka- demi I.P. Favloya. (Stimulants) (Nervous aystem)  Fixti AyCmW"d actim W sualeptics an th; c"lw 26fra", "Mcm; *ff"" an "&I intessity. 0. P. Ostrelto (I. P. PawWv Med. lost., Lmitivid). Asmad)d. i TAjiboll it, Xo. 6. 13- Irsts im nMA ft 'l, 2U.*&dvtrycholwfl.WTnj,A%, Lrollanations woe -Yncr~ c6lic. e.g. c .1 )lw-"WtmsfAt ~2D.M. -50.7& and MM; A"thrrL"r:cm%rniuw 2M:97. -14:147. zoid 76:53. strychnine: i The ncl;vatirg rffmi appli" not ~ly to rvhlivv~ w.-Ac2 pe, bet abo to 7rlk3 intensity. juliany's"Jith ,li2  GNILCIRYBOY. I.V.. kandidad maditainskikh nauk;PUMS. Z.. kandidat meditsinskikh nauk; RMURISTTT, N.V., kandidat maditainekikh naukaOSTRIM, Me, Expert medical determination of working capacity in ostsoarticular tuberculosis. Ortop., trays. I protes. 17 no.3:36-41 MY-Je '56. (KLRk 9:12) 1e h Donpropetrovskogo filials TSentrallnogo nauchno-looledovatell- okogo institute eksperttsy trodooposobnosti I organizatell truda Invislidoy (dIr. - prof. A.P.Kotov) (TUBERCUIWIS, OSTIOAHTICUIAR, orking capacity determ. (Run)) (VZO capacity deters. In ostsoarticular tubero. (Bus))  OSTMKOVSKIY, ?4. ZCo-author7 Sees TUPEMVICH, S. M. "Evaluation of Spring Wheat Varieties for Resistance to ft3orito ImIuced Diseases,* 1936. Sol SIRA), SI 90-53, 15 December 1953  VGSR/Du-,tivated Plants - Grains M Abs Joar Ref Zhur Biol., No 18, 1958, 8220 Author Ostreykovskiy, M.M. List S;,ioleask State Agric ~Itvre Experimental Staticn Title A New HiGh-Yield Variety of Wiiiter Wheat - Kil't n'ri )13. Orig 11~,b Bruj.. ;aud'A,io-tek)vi. Liform. Snolenskoy Eps. a.-kJ'. OPAr- st., 195(, Ho 1, 24-28 Abstract 513 has bee,,, developed by menas of hybridiza- tio,.1 of Mil'-,...ir a a d Tcyslza~a varieties. It was 1-cl,i- dcd in t,,,v var'-oty trials ii, 194o 3nd adopted i;. diGtrictq of ~'.-~~Jcis':,.ys Obinst' in 1954. A botanical of lwiQ var,'!ty JiF, givcii. ThL! varJuty is of mn. .-ity, wintc~r rcsi3tant aiid prod,,ctive. It is rosista-c to loose srx-It b t is not resista:,t to btint. It ie i-.Aldly affocted by brown rost. In wet years Card 1/2 - 14 -  ,-nnsi--d P. Lj,!~ - , - v r --nn  yc.nij, '3 oct L: I- E.,r~)~, CC,  C-~Tiuc' 5. CSTRIC, b. Visit to the inititutc for Fats ii, Faii~j. p. 2114~. Vol. L, no. 12, Deg, 1955 K'~.J,'JJA U TIDU-"Tpljl ~N ;Zagreb, Yucoslavia ,;o : ~FEtt~ rrI LIL;T C ~ C~I, -CC ( J.Si or. Vol. -1) '.c. L IS,~(  Itil DI-toks OWk vornk4 N31jx. 7-agmb. Ys, VIA). (Zagftb) 3. 301AI954),- U1111 ","rtki t4 tilt). of FO%C-mry "vesAsaddit v f Hi!4, -Zts and fats wrrt !ti, ritlLpIrIl. A "I tit. a fail,.) I.Y With M.011, petr. till pr;YTH rtler than 1-nvy) g-all-Atr 2nd ncArly aj rfTxknt a" bwyl ')ytlrcxjr:mi%ole and dthydronorjuabrttk acid.  OSTRIC, R. OSTRIG, R. HiFh-frequenc~- equipment in the electric-power system. p. 2"h Vol. 9. no. 4/5, Apr./May 1956 ELENTROPRIVERDA TECHWLOCIIY Beorrad So: East European Accession, Vol. 6, no.3, March, 1957  I, ~ .~T , .~) I ~- . -1~ i - T- , "C D :' , - : I , .~ . . , " . , . . - . I I. :,, - - 3, , "' ~ -e-- I .,, -- ', - ' , - , .~ I - - , I I k: . , ) ! ,t" . I .'. I i L , , , , " - !; 1, - , I , ~ , , I f, .4" t r co L3 fi * 's , ~ . , ~- '! , , , , , '.' I . , , I . . I " . . . I ? , ,, - 1(: I .  7c  SlAVNIN, G.P.; O3,TRIHONL-"V;,, Narina, iriz. (tramlatorl Contribution to the I of and irivatica of ri!:- bubble adhasion to tre mirars! .3,-irfacc. PI-HY 12 " '64. 1. Irkutsk j,ol~ta~!hrkic Instituto, U.S.S.R. f-r ."lavniri).  VASILDU, 1. (g,Llvov); OSTRIK, A. (g.Livov) Striving for a citation as a comnmist labor team on the eve of the Congreao of the CPSU. Obahcheetv, pit, no. 5s6 My 161. (MIRA 14: 5) (Lvov--Restaurants, lunchrooms, etc.)  OSTRIKP P.W.; RDSTOVTM . S.T. laboratory equipment for the automatic recording of the reduction kinetics of metal oxides. Izvo vys* uchebe 7AV*; CherDe Met@ 4 no*M95-199 161. (MIRA 108) 1. Dneprope skiy meWlutgicheskiy institute trov Oxidation-reduction reaction) Becording instruments)  OSTRIK, P.N.; ROSTOVTSEV, S.T. Vrect of the gaseous phaze, sition on the kinetics of Ituxed, vinter reduction. Izv. Vs. ucheb. sav.1 chern. note 5:17-25 162. (HIRA 15tlO) 1. Dnepro trovekly metallurgicheakiy inetitut. r3intering) Waves-Analysiv)  OSTRIK, P.N.; ROSTOVTSEV, S.T. Kinetics of the reduction of fluxed ainter by solid carbon. Izv. vys. ucheb. zav.; chern. met. 6 no.5:19-25 163. (MIRA 16-7) 1. Dnej*o4trovskiy #atallurgicheakiy institut. (Sintering) (Iron-Mete~llurgy)  OSrRII, P.N.; ROSrOVTSEV, S.T. e-- - Effect of baBicitY on the kinetics of fluxed Binter reduction by hydrogen. Izv. vyB. ucheb. zav.; chern met. 5 no.1:5- 13 162, (KRA l5s2) 1. Dnepropetrovskiy metallurgichookiy inatitut. (Sintering)  -- OSTRIKOV. N. llystigorok City fire department,.. Ilosh.dolo 6 no.22:13-14 D l6o. (MIRA 13:12) (Pyatigorsk--Fire departments)  OSTRIXOT. H.S.; DIBROV. G.D.; DAVILOVA, Te.P. I Capillary contraction In films of gels and porous disperoed sub- stances while drying. Dokl. AN SSSR. 118 no.4:751-754 F '58. (MIRA 11:4) I.Rostovskiy-na-Donu gosudarstvennyy univerettet I Rostovskiy inzhonerno-strottell w institut. Predstavleno akademikDO P.A. Rabinderom. (Cemant-Drying) (Surface chemistry)  AUTHORS: Ostrikov, M. S., Dibrov, G. D., 20 -118 -4 - 3 5/6 1 Y-e. P. TITLE: Capillary Contraction In Films of Gels an d Porou B Dispersed Substances Whdle in Progress of Dryinf; (0 kapillyarnoy kontraktaii pri vysykhanii v plenkakh-sloyakh geley i porietykh disperanykh ~.el) PERIODICAL: Doklady Akademii Nauk SSSR, 1958, Vol. 118, Nr PP. 751-754 (USSR) ABSTRACT: This work examines by direct, th Dugh sui::mary mathodso the forces of capillary contraction TF a) in drying films of high molecular and dispersed systems on dynamic conditions. Besides the kinetics of the development of these forces during the process of drying out are investigated. These forces cause shrinkage, decrepitation, distortion, tensions. and cavities, and other still insufficiently investigated phenomena. In spite of the importance of the capillary forces for these phenomena also the cohesion interaction between the particles of the solid phase or Card 1/4 the macromolecules has to be considered. To a certain  Capillary Contraction in Films of Gels and Forv" 20 -l.18-4-A,~A, Dispersed Substances While in Progress of Drying degree also the forces of the coagulation attraction become manifest. With increasing distance of the liquid rests the influence of the surface of the solid phase becomes more and more marked. In case of absolute drying out the capillary forces vanish and the action of the intermolecular (coheoion-) forces remains in a pure form. Consequently the forces of the capillary contraction are a composed quantity which requires an extensive study. The authors here use for their measurements a device by which Fa can be measured during the whole process of drying out. The lamellar samples were produced i.g. of cement powder with a small admixture of pulverized fitrous asbestos. I diagram illustrates the development of the curves of the capillary contraction in case of the drying of two cement samples, which before for the purpose of hardening were left for different periods in a moist medium. The duration of the consolidation of the cement influences the forces Card 2/4 of the capillary contraction. Until the settinf: of the  Capillary Contraction in Films of Gels and porvqw 20- 118 - 4 - Dispersed Substances While in Progress of Drying cement these forces show up only very weakly. Similarly the dependence of Fa on the duration of the previous consolidation, of the cement samples was inveot:.Vated and the results are illustrated by diagrams. The doirclopment and the consolidation of the structure increasen the value of FC. In all samples Fa in all stages of drying until reaching the maximum of FC1 decreased quickly to zero under the action of steam and on isothermal conlitions. In the case of action of benzene vapour on the swnple F is much decreased. This is also valid to a smaller degree f~,r phenol. These and other here given pnenomena speak for the following: In case of sharp chanCes of the moisture of superficial cement layers and also of other organic and anorganic hyt-roscopic materials on atmospheric conditions an uninterrupted and very complicated interaction of opposite, but permanently combined molecular surlace forces of capillary contraction, wnich decrease tne strength of the adsorption hydrate iayern, Card 3/4 takes place. These forces cause the corrosion of the concrete  Capillary Contraction in Films of ~;elc and porous 2o~-118-4-,", ~6' Dispersed Substances While in Proj-ress of Drying and many otlier phenomena in nature and technology rjo well. There are 5 fJFuroa, and 8 Saviet references. ASSOCIATION: Rostovskiy-na-Donu gosudarstverinyy univergitet (State University, Rostov on Don) Rostovskiy inzhenernostroitelln.yy inatitut (Rostov Civil Engineering Institute) PRESENTED: July 18, 19~7, by P. A. Rebinder, Member, Acade7,y of Sciences USSR SUBMITTED: July 17, 19~7 AVAILABLE: Library of ConFress Card 4/4  DIBROV, G.D.; OSTRIhOv, M.S. Study of "heterop~ilic" syntem5. Part 1: itpsist2rce of systems to the action of molecular layers of water. Lch.zar. RGL 41: 51-67 ' 58. (KIRA I ~-. I) (Porous materials) (Wetting) (Gypsurn)  NEMIRJV, G.V.; OSTRII.ov , Effect of cellulose on the hyaration of salts. Uch.zap. RGL 1,1: 161-1?2 15,E. (PIRA i ~~: : ) (Salts) (Hydration) (Cellulose)  ,OSTRIKOV, M.S.; SANILOVA, Ye.p. Influence of olectrolywo on capillary contraction forc,.-3 effective during the drying of montmorillonite. Uch.zap.ftGU no.60:37-49 159. (RLU 14 - 10) (Capillarity)  3/081/61 "'000110091,01 ",0* B1 01 IB205 AUTHORS: Oborin, V. I., Ostrieov, M. S., Rostovtseva, I. V,, Arutyunova, 0 L. TITLE: Effect of porosity of silicate catalysts on the ciacking ind reformin~F of petroleum products PERIODICAL% Referativnyy zhurnal. Khimiya, no. 9, 1961, 452, abstract 91q166 (9M166) ("Sb. tr. mezhvuz, i3oveshchanlya po khimii nefti", 1956; M., Mosk. un-t. 1960, 177-193) TEXT: Magnesium silicate NS) and aluminosilicate (AS) catalysts of different porosities were prepared by means of drying in the presence of surface-active substances (isoamyl-, cyclohexyl-, and octyl alcohol, a~i well as butyric, oleic, iAnd naphthenic acids). An investigation of porosity and the distribution of pores with respect to their radii. as well as of the activity of MS catalysts, showed that the presence of transition pores with a radiua of 25-40 R was necessary for the crackinF of gasoil from Groznyy petroleum In ti,.eir absence, the activily of' MS Card 112  S/081 / 6 1,'000; 009,'0 10, 0 Effect of porosity of silicate... B101/B203 catalysts drops by about the 1.5-fold. A development of larger pores with radii of up to 70 a reduces the specific surface of the IMS catalyst, and therefore its activity does not increase so much. The reforming of the stable crackinp diBtillfite in the presence of the propane proplyl, :,4. fraction Linder presourc pro,~eeds better on a course-pored AS catal'.st on a fine-pored one, This is explained by better accessibility of t~.e active surface to the reuctinw molecules CAbstracter's note: Comple'.e translation]. Card 212  S 143 C6100 AUTHOR: Ostrikov, M. S. TITLE: Pronosopti of' ilevol opmer i I r ~', I tit, of r,t i- tootroplo oulid 6,-dy PERIODICAL: Daklady Akalem.! n-Luk SSSR, v. 15h, nc. t, TEXT; The au t hor p r oc. e e d,,i f r o r, ,, ri 1) e r,; L j A,- ad Es m i,~ I ii i L: Anlannva (Ref i . 1 2 ) noncern i ng the do v(41 opmen I - f , i tc lc!i i d,j i eT the action of 3treoves, .13 well as the olcsing of cl"t"Ko ty f-. IM 111 -k of the stresses, and finally the effect of :iqtiids cn these 1.rolerSeS. He reports on his experiments with silicate glass ~~f lsotr(;pic Fig. 1A shows the experimental arrangement. A crack develops ;r.der t-.r- action of the load P acting from belov on point a. The twc ether 'irr,,.%s denote the abutments of the specimen. Ir, the rrokpn-,~r.e ~-S , the crack closes again after removal of the loan P. Fig. 16 hhCW0 *,..El development of the ~~rack as ~i fiinotior of the deflection S7 as Well 1~ V.,: reclosing. In 6pite of cong1derable hy:iteres.'s, the a 13 well Card 1/5  206413 S/C 2 0/:' 1 3 0 t, Processes of development and cloging Cf ... 31011,'B203 reproducible. If, hozever, P exceeds a. certain imit. Fl,~. lb()- 's formed, tiiid --cl, second hor zontal itei t he , , ~'. e zi r. r, t~ 9 r again. The regenerat :,-)n -f mc I ecu I ar uflf-r rem( .-i: -f tnc- depends or. time. T!ie 9trengti. of' tk,c, recioood -.rack in-reasas -xi t 1, increasing time of rent. Fig. 5 'he effect (,,f rater -r. rru : k r. o:. The crack developed 131OWly In tI,e prIA ir, ~i dry otate. A constant P, a water drop wao placed on tl~e point where the strejoes were concentrating. Cracking intireased rapidly. Rer.-,o %-a1 o f 71,1 te r :) 41 n C14 again delayed cracking. Fi g. 3 6' ohow t, th,i t th, I r. pr(-):~e ns c ar. r t~ I several times. This effect is explained by the capillax-i frroeo (.f tr.e oeniacus surface. It to stronger than the presgure of molec-ilar layers in the crack. On removal of the load (S~.O) ar! (,.17 t~ e entire water is pressed out o f 'h e ci : I t . TYe specimer, -f cur,.-e 36' dried for )0 min (poirit J~. Under a now ' o rid S , t, n e ~- r ~i 1 , ! - r more slowly; but the effect of water ;%uu more rapid. "he effe,-,t ;f nonpolar liquids is opposed to that of water. 11exane, lenzone, ~,irbor tetrachloride, and vaseline oil are mentioned. Fig. 4 oho719 experimer.1L, with addition of CC14 tinier diffprent !Dlida. Th-? irh1litory effe- !~.3ts Card 2/5  20&1 S/020/61/136/006/019/024 Processes of development and closing of ... 3101IB203 until the liquid has evaporated. A vater drop, however, immediately enters the zone of destruction, and exerts its effect. On the basis of these experiments it is considered to be possible to oontr~l dentruction processes in dispersion, in coldrorking of metals, and in frictional processes. There are 4 figures and 5 Soviet-bloc references. ASSOCIATION: Rostovskiy-na-Donu gosudaretvennyy universitet ('Rostov-na-Donu State University) PRESENTED: September 24, 1960, by P. A. Rebinder, Academician SUBMITTED: August 10, 1960 Card 3/5  OSTRIKOVP M.S. Dervelopment and cloning of cracko In Ivotropic solid I" Dokl. AN SWR 136 no.6:1380-1383 P 161. (MULA 14:1) 1. Roatovskiy-na-Donu gosudarstvennyy institut. Predstavleno akademikom P. A. Rebinderom. (Glass-Defects) (Solids)  OSTRIEDY. M.S.; DIBROV. G.D, Forafttlon of porous structures. Roll.shur. 21 no.1:97-lCll ja~r 159. (MIRA 12:5) 4r, A 19 Rostovskly CosudaretvamW universitat I Rostovskly Inshenerno- stroitel'n.vy Institut. (Gypsum) (]Porosity)  ~l _7 of V cual D hivan.*-.---,") z Report pi%-s-n-v:-l rien,~ral nnl Applil-3 C`f-=15"ry~ (K01-1. -al'ar- LA, N-~-  &TRIM, H.S.; ROSMVTISEVA, I.V.,- DIRM17. G.D., DAITIWVA, Ye.P. Fffect of capillary contraction forces on the mechanical properties and structure of dryinp bodies. loll. zhur. 22 no.4:443-450 Jl-Ag 16o. (MA 13:9) 1. Rostovskiy-na-Donu universitet, Groznenskiy institut i Roetovskiy- na-Donn inzhenerno-stroltelln~7 institut. (Capillarity) (Silica--Drying)  USSR/Colloid Chemistry. Dispersion System:1 B-14 Abs Jour Ref Zhur - Khimiya, No 8, 1957, 26422 Author L.N. Uspenskaya, A.Kh. Girenko, M.S. Ostrikov Title Study of Dependence of Color of-Prgtent "Red Iron Oxide" on Degree of its Dispersion. Orig Pub Zh- prikl. khimiya, 1956, 21), No 10, 1601-1604 Abstract Eight samples of the pignent "red ircn oxide" prepared from green v-itriol at various temperatures were analysed aedimen- tometrically usIng a balance of Figurovakiy. It was establish- ed by the oompariGon of analysis data with colorimetric In- dices that the color depended mainly on the quantitative re- lations of the campenent fractions. It was established also that the pigement -- with a maximum of Its distribution curve In the :-egion of from 0.2 to 0.3,- was the closest to the red hue, and that deviations from the red hue occurred, when the number of large particles 0. 3 as well a:; of little ones (, 0.2 increased. Card 1/1  OST311107, M.S. -. GLWM. V.G. Fornation sechanism of silica IncrustmtIon. Zhur.PrIklkhIm. 30 n0.4:508-516 Ap 157. (KLRA 10:7) 1. Rostovskly na-Donu gosuniverettat i Institut insheneroy shelesnodorshnogo transports. (51vca) (Botlere--Incrustations)  M!W. ~IWVL JIIK _200-140 god V.-M. mffce~~ km tJ~ Ismw UMAMMMU 014 of A mbmftv4 **It 1! by a slass' Isom x bodwatel glaw bftm. - tide d4tributloa, curv&. pm*026 of a' fi*rtlm pl-,mt: radius r range ol tbt Sim fractiou, powed tba h' wvlWefted narrow, rdusidal peaks. T he pwmtage frocum wfth F < 0.1 is iq?4 Prodkally the tamt In all -'xnents &hd acomdl4y, did rwt alint th4 a*w xUde. 16 the fraction with r0.15,9, As the sWit of red A CWA the Pftk OWW tOWWAS-higlier r (OA Plsrmeats! I be Wei wn to red 44 a k lb t m 0.2 mod"P.8 6 ccocidded that owTth tkle site but alaoOke pr tan 0t, the group wttr0..14.3 affectad the color, -MN Wo  OSTRI107. H.S.: SHURIS, G.Ye.; KCRTUSMKO, A.I.: NISAYNA, Ye.D. -11 , - Cmsem of the coagulation of prim* cost No. 138 In dipping tanks. Sellkhoss&shina, no.5:29-30 My 156. (NUIA 9:8) 1. Kafedra fisichemkoy I kolloldnoy khtall Rostovskogo go"arstven- nogo universitets Imeal V.N. Molotov& I ?Santrallnsya laboratortys sayoda 111rasnyy Aksay'. (paint)  -at lot "Plati. -ft 7h, T-wv let & wa+ A V I KlIT1,31 ,YA M S -014 twol) - If a &m4 %nflwat futv 71, . I fees 0;1), Mild: "4 its ww" ml.hTM-1 11,41. he 1.9, Val bp ci If vo cm dilegral If v, It 14 1 he I III "' bw dambolim .01 ciopfivirs oah dim.,Ifni pf*~ Mn. see go*] 00, 860 go* -J*G to I A "ISMA&I(st U76001001 CLASPOKstocs no* 44140.1 it a%* cot oil 40 as 11 11 -4 do I' I a be 0 -a --a-- 0 1 Mot a AT IND ~1 I W I 0 0 1110 0 0 0 0 0-0-0 0 OP 0 0 0 0 0 a ilea 6 0 0 0 0 00 Os 04  lip 4 0 0 0 0 0 0 0 0 0 0 lot :!q A .js IF -2"If-Imef No job Sal UJOIN, #I 0 0 0 Vat 0 ace A- L__A__" A- b__ j 0 p e_A '.F 00 000 of A 16C is sub. "*No I w b9dmbw&16 and U. s. -00 004 Jmd shop sad in P&Q. Owt % of adhism bwou C4 Ow slat* WAMOW" shop dh"VICUM of MPOSAM U1111 diffrreelpemeWmL 'TUcapiftrypinmaybondmW by J. J. R. .3 =00 00 q .1 90.3 lcq: 0u !0 1 ~0 : Joe 1 see tree NNW, o)..669 014w ims No- III u 9 00 0 0 0!0  I UCTO 6 1 Iw NJI RINN save 1111411 4141449 a as a a It _L! - -- fa ..Its .,I its 002 4v. 0*0 q, I'm Ay Anti AsA 4 441.180 '14211 witao"It, ~lv A I'll 16-414 41-111111101.1 jell ) 4q1L dami.il, I., til.111 311,1'"Old Istlel 444414111144 of Ilion 1811011 so 4~1111illun U1%jj jOnifloill 141 111 41113111 still SIT.) 1.41 -11 1131 1119-11 4610 4410P It IsellI.M. - mU63 I I T MI.) 1 ,nit .1 . arjo A tk tawliotilwl 4 011 ) so uq . r . ll l " .W ` 1.1111119 421J.'a twitt'A MI&O panwol 3q1 X,JsjL"WI 8 of 4m4ft 4fif 641 duft...J, V so -111 114 ~j -.41-NA dM61 J41 11"Llf% 00. )111 all If 11 %ttN t"Aw.041. 00- %Ilm fly IV4..Ujlnl 449 ()tIl-) p -Vitus pcw4*O*I AS4 . SA I" ._- 41 " R t1l # If "I 104 so- ;P1411SPIVIS"i )Is 10""Jai dqu 4 so Sol- 0 A 41 4 .n 'W-4 4 9 0 1 4 1 f v 00 1 4W 9 W it v . ' 1 . " ; o 0 0 - go* 0 09 0 9 0 * , - * *,. * 0 0 AI a Am R, - 0 * **see  5(4) AUTHOR: _QZjZjkov, and Dibrov, G.D. TITLE: On the Mechanism of Formation of Porous 3tructures (0 mekhanizme formirovaniya poristykh struktur) P~MODICAI: Kolloidnyy zhurnal, 1959, VOL XXI, Nr 1, pp 97-101 (U.3 O-R) ABSTRACT: The authors describe the results of a research into the formation of a porous structure developing spon- taneously when gypsum and coal-tar *pitch are mixed with water, without adding any foaming agents. The porosity of the new material becomes fixed during the settinC of the gypsum. A further themal treatment of the ma- terial improves its strength, its water resistance and other properties. The authors describe the mecYianism of the action of surface molecular forces arising un,if-!r the influence of particles of the hydrophobic phase C!, the coal-tar pitch, and disappearing on the addition of the usual foaming agents. The name of Academician Card 112 A. Rebinder is mentioned by the authors. T'iere are  On the Mechanism of Formation of Porous Structures 2 graphs, 3 diagrams, 2 photos and 6 Soviet references. A0'SO'1'-1,',,TION: Rostovskiy gosudarstvennyy universitet (The 'Postov State University),Rostovskiy inzhenerno-stroitell. nyy institut (The Rostov Institute of Building Engineeriiig~ SUEMITTED: July 16, 1957 Card 2/2  DIBROV, G.D., kand.tekhn.nank; OSTRIKOV, M.S.. dotBent, knrid.takhn.nank Effect of local fillers on rroperties of bitumens. Triuly -41SI no.15:133-140 '58. (?IIRA 11-6) (Bitumen)  OSTIRIKOV, M.S. (Ostrykov, M.S.]; DIIROV. G.% [D1brov, H.D.J; DABILOVA. Te.P. [Darqlova, II.P.3 Capillary contractior forces existing during intermittent vettirf, and drying of cement (with summary In English]. Dop. AN URSH no.3: 299-303 '58. (MIRA 11:5) i.Rostovalkiy der7havni univorsitet. Predetayleno nkndemikom AT; USSR A.V. Dumanskim rA.V. %imnalk.7m]. (Cement--Testing)  4 W 10#00000*00 sees* fla " . . . 11 IT i - . b o 6 isto 00' A 1. o a a ; 6 a . I 1 0 y t -A 1- S t l 1 a i &Jog ~. - ( r "'I" I X -00 moblics b"We#11 thip tompre"40% of Peel *ad The OW face tPubwe of Ile Wow of Imbarsticas NJ S, jklotho .06 (Al"d T 4 11 S. S. It. ~ S. 1V-$ 4V1 The f"loval f .41~v (imis itral, c-mulv~11 at I'le%milr% 4A W it, Vt aims, is triardeI by a tift-Trew in the mwfikv tcnswm of tbe grater =t the peat. Air. pritunt as a guousis 1x vurs both its cmprr~i-m arAl its drying ,how in pest, I he hYd"IfIllifIC PrOpeffICS (11 peat are VVIIIIIrWrd by IIUf-I fov-octive rubstanc" like P.1011 ancl to-AmOll. The %im(PRIfy (d water exerts a two effect on the CWH" 'd met. )An 3 1 coo o2 - ~O e 0 z v zoo -90 00 IILOI 3.t ...... 00 0, Fee, 4 0 Is tv tv a A Is a a a 04 a a it 9 4 A I n 9 d3 4 RX 1, 0 0 0 0 a 0 0 0 0 411 0 0 0 - 0 0 0 0 0 0 T 0 0 & 0 0 0 0 0 0 0 9 0 0 * 0 0 0 * 0 0 4 0 :T 89000411969 04 O*q4OO***OO o# i  Sit 411414041 0 0 cr 4 4 A i I j 4 s 6 f c 0 0 11141!MISIS too OSOMM 00 0 As i's A - a 11 A; a . a b v a a At t, 0* a AO a 1142 6 a 0 1 0 a -`-&0 Rooklim betaton do commiWoulam of p"t and 69 aw- .09 #"a bndm of In twour of astum"m wl A~ (htfik 00 9 water from prat, carow1wemw at presmin tof 10 Itto 2.511 OIIM.. 6 retaffiftl t-Y 0 dft-ICAW in the tIffikIf IM.iM Of 0 a t1w wain mtl. the mat Air, lwrw"t at s goo-4- - phava in pmt, fmovi" bat h its "orvirtot - and its drysiX .00 I he loydraphslic propertke ul Witt aft tnh&ncrd by vur~ foom4wil" wAmawn like etO)l and im-AmOll. The joi WTWIY 00 Water etat"I a Drs. tfiect on th't cum MAM riv l e l p"t. j all co 0 A -Oq to 00 Alt ~" -4~14. sit III A l ~ Al 0 01 0 0 0 0 4 9 0 0 0 0 0 ' 0 lip 0 0 a ** a 000 as a 0 0 0 0 0 0 0 v 0 0 411 0  n 25 un  ci r, 7- a 0 ry rit, v I :iy G mj~ t o~ I f: zt.,,r. fi).I: '1-81 j it- F  -I'- e 1 9-, -8t: ol" rn(.- -, 11 n' i ILU t  L .3t.-roiLel1rvy instituL -ijily.1i ttr-,,j January ~y  L O~V)I','-67 TjP(C ACC NRs Ar6023071 53UCE XZ4;I UV0191/66/000/004/0063/C,064 AUT.ORt Sindeyova,- L. G.; Ontrikov, X. S.; Droyz(in, V. M. O,-.'G. none j TITLEt Anticorrosion propertion of polyetholcno coatings with minoral fillern FOUGE: Plasticheskiyo mansy, no. 4, 1966, 63-64 I J'X' ?) 5' r /C- 1XVIC TAGS: polyothylene, ---I co,itinj,, corrosion inhibitor, filler, quartz, Stool jAbSINUCT: 7ho authors hav,~ inv(~sLij::ited tl,..j cffcct of marshalite, qu-Lrtz, feldnp-tr, diabaso, talc=, and mica fillers,rused -w improve. tho strength characteristics and rigidity of polyethylene coatinj;s in corrosive racciia uncer abraulve conditions. Coat- ings of P-4004-T polyethylene with 0.94 1,jem3 raensity, 0.6 g/10 min. fusion inGex, 0.03'R ash content, and 25 wt.'- fil-ler, 4a-~-500,U tnick, were nprayed on 60 mm long, 115 r4a diameter cylindrical stool spocimonn. Tiio specimens woro tested in 10% NaCl, UP IIISO,', and 4~ NaOII solutions at 20, 40, 60, ,gd 80C. '11io life of tho coatings was do.c?xd,~od by measuring the o1cctrical resistance with tho aid of a toraolurracter (see Table). 7ho corrosive troat.-,cnt was repeated every week* For 7 hre the :Specimens were hold at BOG, the rest of the time at room temperature. The life of coat- ings decreased as the temperature was increasod.(Figure 1). An increase in the life of UDC: 678.7L2.2-LI6,&678.OL,6.36-c)ig-3L,  L 08912-67 I ACC NR, APW23071 ~Tablo 1, The effect of minoral fillers on tho service life of Polyetheleno coatingsl S-c-r-v-tco-- iff o-Of Coati Me-,ditza, In woo at 6OG no fillerl marshalite! quartzl feldspar diaba5el talcummm mica f i, day 2' 4 a 21 20 4 7 3 3 PR=3: 6 days ,10'r' NaCli I day ~P-H=10: 6 days 7 1 2-1 20 8 21 12 3 4~r Na0h: I day ;;H=3: 3 days 6 9 9 71 8 5 9 __j 0, 3 days --- - coatings can be attributed to the strass-relioving offect of the fillers. Fil-ler,re- inforced coatings, however, unQo;,t-,o spot corrosion due to hydrophobic and hydrophilic differencos in the polyothylanoL"arld the filler* Hence, studies are being conducted as i to the effect of imparCii~g- hydrophobic propertios to mineral fillers on the pro;erties ;of polyethylene coatings. Orig. art. has: 3 fig. and I table. L-Card 2/3  L 03912-67 ACC 14R, .5 1 - poiyoLi~ylnno ;7 47'. 2 - polyothylono + 25% quartz c 0 jo vo 60 so Figure 1. Life-temperatuare aependonco in 10'A'NaCl for 1 day, pH=10 for 6 daye SUB GODE: 11,13/ SUBM DATE: nono/ ORIG REFs 002 Card 3/3 P,  OS il, I KOV , M. S. ; : X'Ki T i I ~,~ , l". i . ; V I ~ :,,: V '.'. ~ , * ..*. ; J 11, AT~"Y , , , -:, - IIa-, i - ", - , r, !. : , - . ~ ( ~ 1, .-jr. ~T~r - -,; .1 ~, 'A Z a t ,-or, 07-1-,~-*,-~re.: -,'- , Fir - . J ~ . ; clirvlnvl lf~)rma I. i ir t i : 7 Cfe c *,. f tntt 1, 1,--? --1',- a -- *-1 Ilat ~ ~ r, - Kol I . zhilr. -,6 ~;-k I f,i. 1'': I. '~ostrvsk i,,r ur, ~ ven3l, to 1L , ktt:'~ci, Y, ~l 71' ~~ eSkOy i kc)'~ ~ o i cn- '.. khimii i lnstitv~t flzirr eskoy kh'lmii AN L;S~;R, Mosirva.  OSTRUOT, N. We run heavily loaded rolling atock. Kast.ugl.3 n0.3:14-15 itr '54. (KLT-PA 7:4) 1. Hashinist elektrovota shakhty Vo.22 koubinata. Stalinugol'. (Mine rptilroads)  flat 000 01011 OOD Sem Sall ow 77 --1s It L 0 0 0 ft a S Iw Onal; zjk-l-T Inaba maps a 0 0 4 a ivael"n 9 L-A- a L-0-1- S OPMOP"ll) "Alvilaml "Mw?"Sw I Ole N.V. lkit"AcTowi CNWWNT 12.1W. jVrQ 31X MA -45101111 larroat" art ornivnimt shli It . "llsilwe of dkkeaftwaliA Paphlir. t.,h. .&,ld rehattawy ckAT go 0 0 0 0 0 0 0 0 0 0 a 0 00 00 go IP 00 00 00 00 a,; - ------ r 0 0 0 a 0 0 0 0  r -040 04000000 0o & 0 : : 0 0 0 - - -7' 0*90000000000000 o ob _A._A_ AL L 0 0 Of *0 brkks foc the rod of gbw to 0: Hutt 42A53, Armil N). IM. ,Ivrlv mated Wilb lirms WAII *a i er Wnre lWnX o: 0 00 3 00" 0 : 0 00 00 tITIVA16*1 CLAMPICAT" 1 a 0 45 flo R 9 9 0 S, a go a 61 . 1 0 I , 0 a o do u a 0 JC 0 . - . j' 2 L 1 _. - b b .4I t j 4. A-%'j-7_b JOO 'it. i - .00 -00 !-0o as, N. V. Ostfftn% bml--&m-Var"v. - -00 pstew 16". IICI "d -00 .00 we* zoo c0 0 coo co 0 fee 14 1,00 co 0 1000 '06 woo 0 too too 0 ISA063 0.. 01#611 a$ 0 U-sk, w IST j;:;s;j 410" o o o 0, 0 0 0 0 0 0 0 o a 0 & 0 0 0 0 0 0 1:1:0:0!000000990000000000 01608060000*00904'soo o *I  .11; A. A_ A-L-A. t #--I VISA lit 00 Fo _00 00 410 001*11 11. V. Halcm 7,0 1-"0 91-'F -IV 14 A" 111 00 ' 47,KV1,Ajqd. Vi,mxN Vvw twwk ... 00 .11h . .41M.", .4 lit 1. Of"I -4191 tk 111tr fififig 00 0 4ft 96 a OP fe so. 00 46 0 66 *0 00 %41443 J% tQ., 41. of) 2;; s of Is I* or a It a a a a h a it a It It a 1 4 t I ,j* 90 00 0 * o o o 0 AAA No 0 0 0 0 _1180 09 00 0 000 e 0 0 a 0 0 0 0 00 0 0 0 0 0 0 0 000 0 0 0 0!  OSTRIKOV, P. Protect the crops. Pczh.delo 7 no.6:5 Je 161. (MPLA 14:6 1. Nachallnik Otdela pozharnoy okhrany Stavropol'skogo krayiepolkomfi, g Stavropol'. ~Field crops-Ilarventing) (Fire prevention)  L 12175-65 S/0078-164/009/008/2043/2044 AUTHOR: Eglin. A. E. Qatrikova, N_ 31- TITLE- The GaC1 3 -QA'system SOURCE: Zhurnal neorganicheskoy khimii, v. 9, no. 8, 1964, 2043-2044 TOPIC TAGS: GaCI&Ga system, differential thermal analysis, phase diagram, polyrnorphic transit on, GNC19, GaC12, salt phase, metallic phase ABSTRACT: The-GaC13-Ga system waa studied by the differential thermal analytical method. The Rhgs~ diagran'~,avas constructed (fig. 1). A polymor- phic transition occurred at 58C. Two Ampounds were noted in the system, Ga4Cl9, melting incongruently at 67C, and GaCl2 melting congruently at 170C. Melts containing over 66. 67% mol% GaC13 were monophasic salt phase; melts containixqg less GaC13 consisted of two layers--a salt and a metallic phMe. Orig. art. has: 2 figures and 1 table. Ccrd 1/3  L 15173-65 ACCESSION NR:.AP4043589 ASSOCIATION: Voronezhakly gosudarstvenny*v universitet Kafedra nectrgani- cheskoy khimil, (Voron zh State Un!X2Esltj,_Department of Inorganic Chemistr~ SUBMITTED: 03Mar64 ENCL: 01 SUB CODE: OC NO REF SOV.- 000 OTHER: 001   PALKIN, A.P.; Q~TRIXOVA_,_N.V. Melting diagram of the system GaC12 - AlCl3- Zhur.neorg.kbim. 7 no.31:2635-2636 N 162. (MIRA 15:12) 1. Voronezhskiy gosudarstvannyy universitet, Wedra Dearganichaskoy khirAii. (Germanium chloride) (Aluminum chloride) (Thermal analysis)  os-Rim)V, ").M.; om of hnrcerine. Prtrt 2: Stwiyini, t-,E, shrink- af~o otretwitiv In nf- i- :,i ', ti and ta 1-n f, I I ms. Z I I tlr.imu, I.. I pr I k, . fut. i kin. 9 JI-Ag 16,.. (M11A l71JO) 1. Voesoy-u7nyy r'cj Roo I, ~)v.,: x iv 1,rrwi, rs' x,, ~ vc~r!l  3/123/61/009./015/027/032 A004/A101 AUTHOR: Ostrikova, V. 3. Tr=t The accuracy of linear dimensions and steria deviations of castings PERIODICAL: Referativnyy zhurnal, Maahinostroyeniye, no. 15, 1961, 1., abstr&ot 1501 ("Tr. KuybyBhevsk, aviate. In-t", 1960, no. 10, 91-100) TMM The autlior reporte on the results of investigating the &oouracy of linear dimensions and sterio deviations of casting surfaces produced by casting In sand molds, metallic molds and molds manufactured by the Investment pattern process (as applied for small-batoh production). She presents oxperimental data on the main factors determining the accuracy of casting dimensions and th*ir analysis. It Is pointed out that the accuracy of linear dimensions of castings Is determined by the manner of their formation. In this way it is praoti(,ally permissible and expedient to break dawn the dimensions into two kindat dimensicra formed by one and by two half-molds. The distribution of errors of the linear dimensions of castings obtained by the mentioned methods corresponds to the law of normal 41stributlon with a sufficient degree of accuracy for practical calcu- latlons. Erron amounting to 6 6 of dimensions of the firBt kind for oaatings in C ard 1/2  The accuracy of linear dimensions ... S/123/61/ooo/ol5/027/02 A004/A101 send molds are by 1.5 - 2 times lower than errors of the second kind. It was found that for dimensional chains, the component links of which are the linear dimensions of the blanks, the equation for the calculation of errors of the closing link is Inapplicable. There are 2 figures and 4 references. A. Trukhov [Abstracter's note: Complete translation, Card 2/2  OSTRIKOVA, V.S. "InvestiFatinp the Accuracy of Linear Dimensions of Castinfs.11 report presented at the 13th Scientific TechnicRl Conference of the lotybylhev Aviation Institute, March 1959.  V A R60 2*2145 SOURCr CODE- U11/0276/66/000002/13116/13117 AUTHOR:_ Ostrikova, V. S. A& A'LE: Effect of cutting forces and rigidity of the machine tool- fixture- tool - workpiece on set-up dimensions and precision of parts production on automatic and semiautomatic lathes SOURCE: Ref. zh. Tekhn mashinostr, Abs. 2B863 REF SOURCE: Tr. KuybysLevsk. aviats. in-t. vyp. 20, ch. 1, 1965, 47-55 TOPIC TAGS: machine tool, lathe, nm-hining, set up dimension ABSTRACT: Machine tool performance and forming of dimensions was0tudied on the basis of the specific example of tnu't.tool inaching, rising an-M-B,-41'single- spindle semial.Lomatic machine,p taking into account the sequential operation of the cutting tools installed on three carriages moving in two n,itually perpendicular planes. It was established that the grea* gt ef;ect on set-up dimensions is produced by deviations 'n the position of the axis of that part which is associated with changes in the forces ac.ing on the machine-taol- fixture-part system. These changes occur .Card 1/2 tll)C-621.941.234.2+6211.941.234.3:621.7.07.08  0 1 -1 ACC NR- A116022145 at the successive times the tools start cutting operations or when they are with- drawn in accordance with the work cyclogran%s of automatic turning. As for the diameter dimensions, the most significant effect on the magnitude of errors associated with the lack of rigidity of the system is due to the stresses acting in the plane in which these dimensions are machined. The most rational solution appears to the cutting tools of all three swivel carriage in the same plane. In this case, there is mutual compensation of their effects on the precision of parts machined. Orig. art. has: 6 figures. L_ Romancheva. [Translation of abstract] JAM) SUB CODE: 13/ hS 2/2  C NRI ft I 160 F- 2 IX- 4SOURCE CODE: UR102~k~ 0'&O!~~io- Oi2- E-4 (1) Ijf,(c) JD AUTHOR: Ootrikova, V. S. TITLE: A flow chart of forming and the structural components of Bet-up dimensions for automatic turning 9f parts - 17, SOURCE: Ref. zh. Tekhn mashinoatr. AbS. 2B862 REP SOURCE: Tr, Kuybyehevok. aviate. In-t, vyp, 20, oh. 1, 1965, '11-78i TOPIC TAGS: turning, metal turning, flow chart, set up dimension, dimension analysis, error analysis, erro ABSTRACT: A unique standard flow chart developed on the basis of analysis of basic errors has Fe-en used in calculating the optimum set-up dimensions In turning. All dimensions of parts are clas.91fled, according to the forming flow chart, Into three groups: 1) dependent dimensions affected by the complex of all errors of turning and set-up;~ 2) correlated dimensions, whose otructtiral components of err,)rn vary In relation to the layout of the set-uP; 3) conditionally stable dimen-, aions which are defined by a measuring tool. It has been entablinhed that the characteristics of the summation of structural componentn of Card 1/2 uDc: 621.941.23-042.  , - - L V~ ~) / /~, -/'' b, //, r ~! ~11 ., inthaner-tODYt8tel In the name of the healtkW oneg. Zdorovle 3 no.12:14 D 1~7. (INDUSTRIAL KKDICINX) (MIRA 11:1)  KOROBOCHKIII, I.Yu., inzheneri 095", G.Ta.. Inzbener. IhIckness allowances for walls of steel pipes. Standartizatelia no.2: 70-72 Mr-Ap '57. (KLRA 10:6) 1. Tuzhnotrubny-.v xavod. (Pipe. Steel--Standards)  S/j37/62/ox//Xj3/J' :~4/ A c.o6/A i c i AUTHORS Alferova, J..S. ; Ostrin, G.Ya. TITLE: -he fundamentals of warm rolling of pipes and outlooks o!' 1',F opment PERIODICAL: Referativnyy zhumal, I-,eta11tirjr1yrt, r-~o. 3, 1()62, Vj, ah.-,tt,:~, Vjl( i (V sh. "Prai Z-vo trub" , no. 4, Khar'kov, Me tn I I 127 ) T7_'(T 'Daring warm rolling it is possible to use high degrees, of . - -- I ng ~_ ._;t Intermediate anncd, 7, and to obtain high-strength properties of the a'. 7ne authors analyze problems In the latest development of warm rolling. Grade 1113 9- (1Kh18,N9T) steel was investigated. The optimum temperature of rolling steel can be asGur.,,ed to be 3000C. Preheating of the pipes prlol, to rolling decreases sharply the metal heating in the deforration seat on acco~_Z.', of the fact that the deforT-ation resistance of 11Q-i1BNqT steel decreasen w1th higher temperature. In such a rAnner the abrupt decrease In the value cf tn,. mc- dulus of hardening of 1Kh13NqT steel at warm rolling temperatures and the new combination of strength and ductility characteristics of warm-rolled metal, are Card 1/2  The fundamentals of warm o' A ocA/A 101 characterized by higher strengtn '~oge*~ner wiLl. t-10 ductility; re&ervt~s tained for a further Increase of the efficiency of mills by raising the Cie',- tion degree of, the metal per i)a55; It Is also possible, In some car.0.9, to 'ie- liver pipes without heat treatment. N. Yudl (al LAbstracter's note: Complete translation, Card 2/2  AUl"iOVA' 1I.S., coktor toklin. nailk; i01,11,11TEYli, M.L., knnd. teklin. rwuk; DIAME;', doltor nauk; BOKENTEYN, S.Z., doktor teklm.nauki VIVOGilD, kand. Vaklin.nnuk; MMV, inzh.; GELIZ:t, Yu.A., doktor tekhn. nauk; GOIL113, L.I.t kand. tekhn. nauk; GIDINA, 'Yu.V., doktor teklin.nauk; QUGO-LVILCH, VA., kand. tokhn. nauk; GlUAYEV, B.b., (iolctor tekhn. muk; DOVGALEV5KIY, Ya.M.v kind. tekhn. naul~; DUDUViSEV, P.A., I:rnd. tekEn. nalak (deceased]; KIDD, I.U., doktor teklm. nauk; LEYKIV, I.M,.p kand. tokhn. nauk; LIVSHIT13, B.G., doktor teklm. na-uk; LIVSFITS, L.S., kand.teklm. nauk; LIVOV, M.A., kand. tekhn. nauk; ISYEhSON, G.A., doktor tekhn. nnuk; 1-1,114MICB, A.N.J. kand. tckhn. nauk; NATANSOli, A.K., kand. tekhn. nauk; NAK1131TV, A.M., inzh.; NAMIDIOV, D.M., kand. tekhn. nvukl_2~7~G ~Ya., inzh.; PANASENKO, F.L., inzh.; SOLOIJOIN, A.G., kand. tekhn.nauk; MITU0311IN, F.F.9 kaml. teklul. nauk; CIMEASIUKR, V.G., kand. tekhn. nauk-; MID, A.A., kand. fiz.- mnt. nauk; YAIKO'VOKIY, kan6. teklm. nauk; itAvilsIna"i, A.G., red.; G0J4.DO,';, L.E., red. lzd-va; VAYTISMFYI;, Ye.li., tekhx. red. (Continued on ncxt c-',~-d)  ALMOVA, F.S.- (contirrued) Card 2. [Iletallogrnplj7 and the hent treatrant of steel)Meta.110- vedenie i ter7.icheckaia obrabotka stali; spravochnik. lzd.2., perer. i dop. Pod red. I-I.L.bernghteina i A.G. ~ial:hslitadta. Moskvv, F.etvllurgizdiit. Vol.2. 11162. 1656 P. (I-J.-,A 15: 10) (Stcol-44etalloCrapIV) (Steei.-Hoat treatment)  S1?931WOOQ1OD010QVO06 A004/A126 AIMIORS: Alferova, N.S., Doctor of Technical Sclencea, Semenov, O.A., Candi- date of Technical Sciences. 01trin.-O.Ya., Prolov, V.P., - Engineers T I T1 J."! Thr, Nndnmntnlm of hot tube rolling and prospeots of its develop- mont S('T 'Ticl.": Teorlya prokatkil materialy konferentell po tooreticheskin voprosam prokatki. Moscow, Metallurgizdat, 1962, 431 - 439 TF*kT: Tests were carried out on the X11T -75 (KhPT-75) mill In rolling tubes of IX IbHgT (1Kh18NqT) steel to determIne the effect of the blank ptsheat- Inj-, tprrperature on the rolling stress. The following test results were obtained$ I ) Prehnnting the blanks up to 300 - 4(K)*C reduced the rolling stress by a factor of np-proximately 2; 2) hot rollinF of ntainless steel tubes can beefhded in the i,ar-e satisfactory mumer as the rollinp or cArbon ateel tubeal 3) the capacIty of the KhVr mill in hot rolling W&MW steel tubes can be raised not only by Increasing the feed, tnit also by a consids?rable Increase In the total reduction per pass; 4) hot rolling of wbns can tp performed on the KhPr-75 roill of the Card 112  S/793,/6Z/000/OD()/OD3/006 The fundamentals of hot tube rolling and .... AODVA126 existing design with a few modificationsi 5) a mixture of water Slane and milver graphite can be recommended tie lubricant In hot rolling Wt a temperature of up to 600 C; the tube surface obtained with this lubricant will obinply with the re- quirements of rOCT (GOST) 5543-50; 6) the same n*thods that are uasd in cold rolling on the KhPT mills can be applied to calculate the ridge-ppofile of the grooves for hot rolling processes. In their conclusion the authore enumerate the prospects of development In hot rolling of tubes. There are 5 1191weso ASSOCIATIONs UkrNITI C4rd Z/2  BORISOV$ S.I., d0kt-Tr t,~:khn nauk-; 06-1EIN,-G,Ya., inzh, All-Union Coaferonce cf Pipe ~,Iill Workers. I-let. i gornonud. pro.-,. no.4:35-.67 JI-Ag 162. (MIRA 15 . C/ ) 1. Ukraimkiy %-,u,:iaio-is.3lcdovatel1skiy trubny-y Institu",. (Pipe, Steel-Congresses)  1,  ACC 11200 SOURCE CODE: IJR/0413/66/ODD/006/0032/0032 I NVLYWR, Semnov. 0. Al; Alferova, H. S.- Yankovskiy. V. M.; Kolesn.11t B. P., 0 Ply A., iCheyiets, G. H.: C strJua S. Y9. _4tskovskil, 0. le~ber�, A. A R. 1. ; Come MiiiiNila Y*A laurl, N. G.; Blanter, M. Ye Sharadzenidzu, S. A.; -.,Suladze, 0. N.; Col'denberg, A. A ; Tsereteli, P. A.Twiriyap A. Ye. Sepeilefadze, R. G, ORG: none TITLE: Method of manufacturing strengthened tubes. Class 18, No. 179786 [announced by the Ukrainian Scientific Research Institute of Pipes (Ukrainskly naichno-isaledo- vai-e-P-skly trubnyy Institut)) SOURCE: Izobretenlya, promyshlennyye obraztay, tovarnyye znaki, no. 6, 1966, 32 TOPIC TAGS: tube manufacturing, tube rolling, tube strengthening, tube heat treatment ABSTRACT: This Author Certificate introduces a method of strengtbeninf; bot-rolled tubes. According to this method, the hot-rolled tube Is quenched Immediately after It leaves the ffrat Xgll in. -"4-11 - and then Is sized or reduced at a teopering tempera ture. (ND) SUB CODE: 13/ SUBM DATE: 12Nov63/ ATD PRESS:y Card' III L) t' WC., - 621,78,02AU.M  OSTRIII, P.I. Subcutaneous rupture of the spleen* Novokhirearkh. no.11:20-372 161. (FJRA 14:12) 1. Kafedra fakulitetskoy khirurgii (zav. - akad. A.T:. Ba:,culov) 2-go Mookovskogo moditBinakogo instituta. Adrev avtorat Moskva, Leninakiy pr d.8, 1-ya gorbollnitsa in Pirorova. iSIPLEM-WOUNDS AND Il,.TURIWi  -ruy .e r~i i a, 11,, T-,, ri c F(Lk t, 'If, t.i k!.! v~ I rj,f~ :,ti k- I ii~. hi !,-wr' S. I. 3j~,~ o flp~i I ilf'~MrA.N. P%O ~' ov) '11 Xo";kov 1"Kogo med 1 '10 a r 1-az- I -Y '? 0 r, r, P 0 y n! '-sy Pi roil uv?, (i~jhvryy vr.,A ~:  OJO 1 4 4_4 pf &,,mfjtmto Gerd h.116 And the seat- PIIIJ ucl of the furfulal production '-it 'it 411-1 0 0 -00 0 0 o. I I ell I all 0 9 0 ~i 0 0 9 0 0 0 0 00 00 0 0 0 0 0 0 0  OSTRIN. S.F., in2hener. Using a monte-jus to feed hydrogen Deroxide into the boiling kettle. Hael.-zhir.prom. 19 no.703-34 154. (MLRA 8:1) 1. tharlkovskiy mylovarennyy zavod No.l. (Soap Industry-Iquipment and eupplieo)  112perimmi Conterning tLe use of not O'd I V- '4 Inaking I tourt (soap) brAv. S. P. t;Ntri it ,em. 16, No. Pactoryt 8,13-14(19M).-Ititbisproccutbtpasttr. soap-panfroni the rec-edinjiboilinlroperstion hirrained with causticaMall, SMQ for 1.&2 hm. ..d the Ire underneuth the soap (1) is withdrawn and reused for the sapon. of imp stork. Fresh (at and sufficient Ive are added to 1; the mfitt. is boiled for 4-5 hrs. and settIrcl. After settling for 8-12 Ism the spent lyt is run off, nn'] thr. soap then undergm settling changes, etc. It isclaimcd thm Botioda'smethod has the advantage of rapidity and cmi N, used successfully for the prepn. of toilet "&p b I f-- XTidimir N. Krukovsky   soolillealoogooo Io 0 0 0 0 400 0 960#4 0 0 0 0 a 0 a ' Oooooooooosooo 00000000000000001*009olooooogo** 0 : 00 00 0 00 * 0 11011141101 My lostil t * 0 a es 00 --h films 604 oh, hl" 'wo, 4 1h. dry-fis precovialow. " 00 .4 JI -j Imil 00 1j,", ,, A 00 00 to 00 00 oe At 00 0* es Ao go 06 to 00 -99 0 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 0 0 0 0 0 a 0 0 0 0 0 0 0 0 0 0 0  P 0 9 0 .1 is it w is 16 it a It v a bi is sh ~? x is , v 1, vu m 0 b 1, 0 N aii of,* a I I It 1111-A I I PA 0 CA 0 0,4 t it it's .6 0'.- 00. CIS Jrfij A/ Jo 0 00 Hio-fl, d1hirt "AS N' V 11'skid-tu It atid S Av .00 A, (*-fR (Ppyt 1411011"dIA6.01 P'- 2039. * No I I U.. ~M to I., 4rvins Ormu"Ilt, de .00 :o c Traws 4ryinS tirme It 4rird 41 W iwi,a, m 211* the -00 dryll"Vintedmeearvil to 14 linte-.el WO 4 90 001, 40 31111 Or"es. The hatilt"." no the 611"* incers- e . 0 oo wt the, int-irraw to (Iryinji lrvnp~ Staboliq it# filim lot l -k l d 6 i J" l h l i ll if ~% twt irri m t % sem init. % & c arkV nimirt a y * " 00 dro"I at I,%# Inglead Lit *1 21 'Ith"%torr st-lits'"I It# 00 film% levirrestra as the dryinj imip ivwteib-- Owt."m -60 m-4-tarme also lummurs wilb the iixT"- in dirving tritil, 00 C.Aw and try. 00 '"S I#,' i. * sair drV4nj 1-np At low all wit light. 4oird insirtials can be iftirif At 1AW li and initrit"t 00 '"11.8 rn.v I~ dited tba,id Ael,.,v 00 00 go 06 06 .4D 0 0 .40 00 6 00 S L 00 dA* 0 to 0 1* 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0  OSTRIK07. M.S. ; Djd4lWVk, Ye.P. Activity of cispillisry cnntroiction forcoa on thj drylN, P70)'!v- nkti bnntonittv. flont.gliny Ulr. no.)i14-?? '59. (14IRA 12: L, ) 1. Rnatovskiy-na-Donu posudarstvennyy universitat. (4antonite)  RASKATOV, Afnnneiy Ivnnovich, dotsent: ROGACHEV, F.V., rod.; OSTRIHOV,N.S., tekhn.red. [A collection of problens and examples in electric engineering for engineering schools) Sbornik zndach i primerov po elektrotekhnike dlin tekhnicheakikh uchilishch. Moskya, Vsea.uchebno-pedagog.izd-vo Trudrezervizdat, 1957. 273 p. (MIRA 11:1) (Electric engineering-Problems, exercises, etc.)  KRZHXNITSKATA, F.; OML INSKATA, N. Analysis of working capital uorms based of analytical accounting. Don. I kred. 17 n0.8:47-54 Ag '59. (KI?A 12:11) (Banks. and banking)  OSTRINSKATA, Th. Analysis of tho financial position of trade or&mnizations. Den. I kred. 16 no.10:29-14 0 158. (MIRA 11:11) (Russia-Cmmmerce) (Banka and b&nking)  OSTRINSKATA, TS. Deterstining the effectiveness and Justification of erpenalltures for now equipment. Dan. i kred. 15 no.12:14-20 D '57. (KIRA 1112) (Vinance)