SCIENTIFIC ABSTRACT KARTOZIYA, TS.I. - KARTSEV, M.A.

KARTOZIYA, TS.I. S" ificance of the chrowtographic and spectrophotometrIc ign A. determinations of bilirubin fractions in jaundice of the newborn. Soob. AN Gruz. SSR 30 no.3-.297-304 Mr '63. (MIRA 1?.-6) 1. Ministerstvo zdravookhranenlya, Gruzinakoy SSR, Institut pediatriJ , Tbilisi. Prodstavlerio akademikom V.Y. Asatiani.  KURASHVILI, P.A.; KART071YA TS. BEERADZE, G.G.; fVKEF,,'IYA, N.G. - - --I Age-related charazAeristIcs of thE! indices of protein-li-poid metabolism in white rats. Soob. AN' Gruz. SSR 36 no.1:85 91 0 -,61,. OMIRA 18:3) 1. Inatitut pediatrii Ministerstva zdravcokhraneriya Gruzinskoy SSR, Tbilisi., Submitted April 16, 1964.  S/129/61/000/001/007/013 E073./E13 5 AUTHORS: Tavadze, F.N., Corresponding Member, AS Georgian SSRI S. , Engineer, and Shinyayev, A.Ya., Candidate of Technical Sciences TITLE: Solubility of Magnesium in Iron PER 10 D I Vetallovedeniye i termicheskaya obrsibotka metallov, 1961, No. 11 PP. 33-35 TEXT: The results are described of deterinining the solubility of magn.eLium In iron of high purity at clevatid pressures. As starting materials, olectrolytic iron (99.87-J.' and magnesium (99.9%) were The iron was sattirated with magnesium in cylindrical ~:cnt3oic,.rs of commercially p,,irn iron with. 5 mm thick walls. The working part was 20 mm high with 3 diameter cq" 21 mm. Iron discs of' 19.5 mm dia and 4 mm thLck were charged into the container tntett)er with magnesium, the voltimo, of' which was approximately equal to the volume oce-apied by the Ixon specimens. The container wis- hermetically clospd. with i thrp--ided str,,)per and a lid. Follnwing tbatq the container was scaled in vacinirn into quartz ampoules and annealing was effected at 1120 OC for a duration Card 1/ 4  S/129/61/000/001/oo7/013 H073/E135 Solubility of Magnesium in Iron which was sufficient for producing appreciable diffu3ion layers. The duration of the annealing depended on the hermeticity of the container, i.e. on the pressure. The pressure in the container wan produced by the considerable differences in the coefficients of expansion of the magnesium and the iron. According to calculations7 pressures between 500 and 1500 atm can be produced by this means. For such pressures no appreciable colijbility of magnesium in iron was detected below 1000 OC. Above this temperature the solution was due to the hermeticity of the system. No microstructural changes in the surface layer of the s-pecimens, was observed after annealing for 1.8 hour,; at 1120 "IC. However, chemlei'L analysis by deposition on the morcury cathode of a 0.4 trim thiolc .surface layer showed a content of 0.17-0.19 wt.,Z- of magnesium. 'in specimens annealed for 1+0 hours at the same temperature microstructure changes in the surface layer were detected; a zone of columnar crystals, orientated perpendicular to the surface of the specimen and having an average thickness of 0.5 mm was observed. The magnesium content in a 0.4 mm thick layer was about 0.6%. Outside this layer the Card 2/4  S/J.29/61/ooo/oOl/007/013 EO73/El3 5 Solubility of Magnesium in Iron structure was the ordinary polyhedric one. X-ray structural investigations by the powder method showed that the lattice period tends to decrease on transition to layers that are saturated with magnesium (?..858 compared to 2.861 A for the pure iron) . The X-ray diffraction Datterns showed only pure iron lines. The self- diffusion power of the iron was studied by enositi on the magnesiDm-containing layer the isotopes F-A * 3~ and Fe and subjecting these Lpe~;jmcn7, cis well as referen!-le specimen!~ of pure iron to vacuum anneaLing In quartz qmpoules at tempen-itures controlled within ~ -7, The 'self -di fNs ion was determined by electrolytic -emolral ~-' '--.,yers and mensi-iring the radioactivity of each layer. ~t was, fcu_n~J that magneslum trinas about an increase in the self- diffusion of iron. at ('0 the diffusion Ln the magnesium- containing 1-.)Yer W,61 about 25 timez as high as in pure iron. -i-larticularlv notice.--ible is the Increase in the self-diffusion coefficient for ir~.n that has been subjectcd to microstructure changes as a result of magnesium dissolution. Autoradiographic investigations have shown that volume diffusLon of iron takes place rt ~Iard V4 1  .0;/129/61/000/001/007/013 E073/E13~ solubility of Vagne,.-~Ium in Iron throughout the entire depths of the dIffuslon zone, which indicates that the magnesium which is dissolved in the iron is uniformly distributed throughout the grain body; the diffusion depth in pure iron was 80-90 p and over 200 p in the magnesium-containing iron layers. This contributed to the formation of a large number of defect's in the crystal lattice of the solvent metal during the process of dissolution. Indeed, in almost all cases the micro- photographs of magnesium-containing Iron show pores; these coagulated depending on the conditions of interaction between the magnesium and the iron (temperature, pressure). Magnesium dissolves in iron only at high pro--:sures and temperatures (above I,n, oC). Ac~~.-,)rding to Bulloy and ffiimari OW.2) dislocations can become centre3 of accumulation of dissolved admixtures. In the zone surrounding the dislocations the migration of atoms is considerably accelerated. Formation of vacancies should reduce the lattice period of the iron. This is in goodagreement with data obtained by X-ray investigations. There aro I figure, 1 table arid 2 references: I '-'~oviot and 1 Fnglish, This is a condensed translation. Card 4/4  TAVADZE, F.F.; KARTOZT14, Ye.S. Surface saturation by lithium of Iron, cobalt, and nickel. Trudy GPI [Grur.] no..-.57-63 t,S2 (MIRA 17:8)  KARTOZIYA, Ye&o-_,, Magnesium diffusion In iron-chroml.um and iron-inanganese alloys. Trudy Gp'r f0ruz.] no.1+275-80 v62 (MIRA 17:8)  XARTSW, -A-. i NOLCHUGIN, K- .1 . Construction Tmdu~-tlry - Accounti-ty "Calculat'Lon of capital cons true Urin, 11 Y'. F. D'Y.,ichk6v, haviuwed. i.y: 1. a. Krart.,%-v; ". K. KollchuL7in, Bul-lig. uchet, ITO. 1) 2, 1952. I'Snthly List of Rusgian Accespions, Library oil Congress, Lay 3.952, Unclassified.  KARTSEV, AL Construction Industry "Takin,! stock of materials at construction sites." Bukhg. uchet, 11, No. 5. 1952 Monthly List of Russian AccessiolLs, Library of Congress, August 1952, Unclassified.  KARTSEY. A. in-hener-mp!:h,--,iik (Ieniiigrnd).. Vacuum cleaner for nirolones. Grashd.av. 14 no.?:23 J1 '57. (MLFLA 10:9) (Vncuum clonner)  49 Cai~bon "Organic Matter In Rooks of the Kirombad Petrole= Region A. A. lartsev, Inst Petrole=, Aca& Sci 'USSR) pp ,"Dok Ak Nauk SSSR" Vol IXV, No 3 Determined content of org.anic carbon by wat-combustion method In 35 s=ples from various levels of the Maykopskly- layer, (centers of vell &LIllings In Naftalan and Khzan-bu:Lag nreas) to 1.1arify quantitative distribution of organic substance. Submitted by Acad S. I. Mironov, 31 Jan 49. 39/49T100  KAIA""dr,11, A. A. Kart~-6!1-.~- " - "The Maykop formation of the Western Azerbaydzhan," Tn the sy-.-;-.o3iun, : Ilauch. raboty studentov gorno"'Mc-t2llurg. In-tov I-joskvv. Moscow, ;;. 1,-21, -. Bibliog: 22 items SO: U-034, 29 Gct 53, (Letopis lZhurnal Inykh StaLey, No. 1,6, 190).  Extractme coarectedstice of cauitoblolites. A.AAML- Nde' U-'i.S,K. 03, 173-0(1949)~-A called extnAuminesmice. was ernDloved for diffemntiating between org. substances Wonging to the cout sukra end thooe of the petrokurn series. Thefollowing Polvents weft used In the dews.: 2% KOH, alc.-Wf.. CffCte. CJ14, and petr. ether. Tlie wmples of caustoblo. litesviamd.werolixted. Two to Ibree ml. of& solvent were iWiled to 2-3 g. of ample, and extin. was allowed to proceed in the cold for 1-2 days. The degree of luminescence was detd. Ivy comparimon with starotards pre 1. from mAns. rI peirvicurn In C4111. Nolys $. NI.4cy Oz  KA'.RT3-r,V) A. A. "Reasons for the Regularity in the Distributioh of the Petroleum Properties in the Oil Fields of the Apheron Peninsual", Petroleum Economy, No. 9, 1951.  KARTSEV,A.A., kandidat geologo-minerallnvkh nauk Faleogeochemical investigation of Malkop deposits of Georgia. Trudy MNI n0-13'110-118 153. (MIBA 8:6) (Georgia--Geolegy, Stratigraphic)  KARTSIV, A.A.; TABAURANSKIY, I.I.; SUBBOTA, 14. 1.; MOGILSVSKIY, G.A.; ABRA- -'NOVIdIl" M.V., professor, reteenzent; GRISHIN, G.L., retsenzent; KOVA- LLIVA, !.A., redaktor; POIOSIIU, A.B.. tekhnichaskiy redaktor. [Geochemical metbods of prospecting for oil and gas poolal Gookhimi- cheekle metody poiekoy i razvedki nefi;ianykh i gazovykh mestorozUenil. Moskva, Goa. nauchno-tekha. izd-vo neftianol i gorno-toplivaoi lit-ry, 1954. 430 P. (MLRA 7:11) (Prospecting) (Petroleu&--Goology)  -' - R l A A ID P - 501 Subject USSR/Geochemistry Card 1/2 Pub. 78 - 1_5/27 Authors Kartsev, A. A. and Kholodov, V. N. Title Geochemistry of the Fergana oil fields Periodical : Neft. Khoz., v. 32, #6Y 52-54, Ju 1954 Abstract : The author describes the irregular effects of minerali- zation and metamorphization of underground water on the characteristics of oil found in various depths of the Fergana valley. In the Shorsu oil field general minerali- zation was reported to be maximum in the upper strata and metamorphization in the lower one in contrast with the opinion of other investigators. The above irregularities are accounted for by chemical interaction of oil and water, containing sulfates, excess of sulfur, iron and other components. The geociliemi.-al study of oil, water and rocks in Shorsu indicates that the properties of oil  A ID P - 501 'Neft. Khoz., V. 32, #6, 52-54, Ju 1954 Card 2/2 Pub. 78 - 15/27 are dependent upon the primary causes of initial sub- stance as well as upon secondary factors, chiefly the oxidation processes. 8 Russian references (194o-1951). Institution : None Submitted : No date  I ~ il ; . " , 7- - , 11 I I . V ~, I t) XMSU,A.A. Analysis of the distribution of properties of oils in fields of Cenozoic folding regions. Trudy NNI no,.l4:lo3-ll4 '55. (Petroleum geology) (KLFA 8:11)  VASSOYEVICH,N.B.; KA SXV,A.A. Use of vector diagrams in petroleum geochemistry. Trudy VNIGRI no.83:520-525 '55. (MLRk 8:10) (Geochemical 'prospecting) (Petroleum geology)  RARTSIV, A.A.; GRIfiHIN, N.A. Some new data on the hydrogeology of the Maikop deposits of the Kuban-Black Sea Region. Dokl.AN SSSR 108 no.3:541-543 My '56. (MMA 9 0') 1. Moskovlokiy neftyanoy institut imeni I.M. Gubkina. Predstav- leno akademikon N.M. Strakhoy". (Kuban--Petroleum gejology)  (~Wslff 0 A*A Gonditions under which sulfur erds oil is formed in nature,.Gaol, neftl 1 no.2:32-36 F '57. (NUIA lots) I (Pbtroleum-Analysis)  TASSOYEVIGH, N.R.; KARTSIV, A*&.; TABASARJLVSKIY, Z.A. I Materials on the geochemistry of cartain Kuban petroleum*. TkM4 MVI no.19:174-185 157. (MIRA 11:1) (ftban-Petroleum-Analysisy  LUMMYt A.A.; TAIMaYAN, G.P. Effect of infiltration on the formation of waters in the Apsheron oll-producing PrPn. Ttudy HUI noj~:186-195 157. (MIRA 11:1) (Apsheron Peninvila--Oil field brines)  KARTSBY, A.A.; TABASARANSKIY, Z.A. Formation of oil pools in eastern Fergana. Sov- geol. no.57:76-81 '57. (Fergana-Patro'leum geology) (MZRA lOtB)  7-f -C PHASE I BOOK EXPLOITATION 1178 Andreyev, Pavel Fedorovich; Bogomolov, Aleksey Ivanovich; Dobryan8kiyj Aleksandr Flavianovich; and Kartsev, Aleksey Aleksandrovi'ch Prevrashcheniya nefti v prirode (Conversion of Petroleum in Nature) Leningrad, Gostoptekhizdat, 1958. 416 P. 3,100 copies printed. Ed.: Dobryanskly,'A.F.; Executive Ed.: Chizhov, A.A.; Tech. Ed.: Yashchurzhinskaya, A.B. PURPOSE: This book-As intended for specialists in geochemistry and petroleum geology. COVERAGE: Theboft-givesap, -rstematic approach to problems related to the transformations of present-day petroleum deposits as systems of active substances. A.F. Kartsev wrote Chapters I II and V (0t.1); P.F. Andrevev - Chapters III, IV and V (pt.~~, A.I Bogo- molov - Chapters VI and VII; A.F. Dobryanskly - Chapters VIII and IX. References are g1ven at the end of each Chapter. C  ZHDANOV,Mi~hail Alsksayevich, KAMM, Alelisly &k44Xjrawiohqj; KHELIKVIST. '0 * - - G.A., retsenzont,; POWSINA, A.S., takhn. red. [Petroleum geology srA hycIrogeology] NefteproVelovais geologiia i gidrogeologiia. Hookwav&s. iiktfchiio-takhn. izd-vo neft. i gorno- toplivnoi lit-ry, 1958.'472 (MERA 11:11) 1. Chlen-korrespondent AN,SSSR(for -Khelli~iqt). (Petroleiim gelology) (Water, Underground)  XARTSEV, A.A. Classification of bydrogeological Indicators in the evaluation of oil and gas potentials. Trucly HNI ilo.22:91-97 '58. (MIRA 12:4) (Oil field brines-Classification)  AUTHORS: Kartsev, A. A., Sladkov, A. 1. 2)-118-5-42/59 TITLEZ Organic Phosphorus in Petroleum (Organicheskiy fosfor v neftyakh) PERIODICAL: Doklady Akademii Nauk SSSR, 19582 Vol- 118, Nr 5, pp. n8-999 (USSR) ... 1: - I I ABSTRACT: The problem of the presence of organic phosphorus compounds. in petroleum is not yet settled. Phosphorus has been determined several times (references 1 - 5 and others) in petroleum ashes, which may also contain phosphates which form mechanical admixtures in petroleum. According to V. I. Vernadskiy the presence of phoB- phorus. proves the biogenic origir, of petroleum. The authors are of opinion that this may refer orLly to organic phosphorus. In or- der to isolate this latter kind of phosphorus it was determined in fractional distillation. For thLs four samplea of crude oil were used. two with rich and two with poor sulfur content. The method is briefly explained. P04 -ions ware determined according to refe- rence 8. As can be seen from table 1 in all samples distillate- phosphorus could be detected. As it is abaolutely impossible that Card 1/y phosphates get into the distillate and as there are no other inorn  organic Phosphorus in Petroleum 20-1.18-5;,4,2/59 ganic phos-phorus compounds known in nature, the distillate phos- phorus necessarily belongs to organic compounds. This determinan tion, apparently, has been conducted for the first time. If the distillate phosphorus must entirely be of organic nature, then the residual phosphorus-can be as well of organic as of mineral (phos= phate) origin, According to table I the ratio of quantities of the total and the distillate phosphorus differ strongly for the diffem rent kinds of petroleum. Secondly, the content in distillate phoso phoru& is approximately-everywhere of the same order of magnitude, whereas the content of total phosphorus is rather different in various, types of petroleum. The highest quantities of total phos- phorus: are characteristic for the types of petroleum very rich in sulfur. The distillate phosphorus shows no relation what-so-ever with the sulfur content. The relation of the total phosphorus with sulfur leads to the following assumptions on the phosphorus genesia and on the nature of the organic phosphorus compounds in petroleum. at present it is assumed that the largest part of sulfur is of se- condary origin and penetrates into the petroleum as a result of the sulfate-reduction,(reference 9), at which microorganisms are in- volved. The increased total phosphorus;content in types of petroleum very rich in sulfur obviously derc.nstrates, that the concentration of sulfur is accompanied by the penetration of a certain quantity Card 2/3, of phosphorus into the petroleum. As there is no basis for the  Organic Phosphorus in Petroleum 2D-1l8_5-:'4V5q assumption that phosphates penetrated, a considerable part of this secondary phosphorus has to be taken as organic. Its source may well be microorganisms. The lacking of a relation between the sulfur content and the distillate-phosphorus is a sign for the independence of the latter from micro-biological processes and for its primary nature. The distillate-pbosphorus, therefore, can be considered as originating from the-original petroleum-forming organisms. This is one essential proof more for the biogenic ori= gin of petroleum. From the above listed data it can also be conclu- ded that the secondary phosphorus in petroleum is represented by more stable compounds, as the increasing content of total phosphorus is not accompanied by an increase of distillate phosphorus. There are 9 references, 2 of whic!,a are Soviet. PRESENTED: October 9,, 1957, by A. Ye. Arbuzorr, Academician. SUBMITTED: July 4, 1957. Card 3/3  3(5) PHASE I BOOK EXPLOITATION 3OV/23C2 Akademlya nauk Ukralnakoy SSR. Inatitut goologil polezny$m Iskopaye- m7kh 'ti .troblemA aLlgrat3li neftl I formirovaniya neftyanykh I ga--ovykh oko- Plonly; materlaly Livovikoy diskunal 1 8-12 mAYA 1957 a. (Problem of Oil Migration and the Formation of Oil and Gas Accumulation*; I,a Goterial:hof the Discusaton Hold in Vvov, May 8-12, 1957 Moscow, topto Izdat' 1959. 422 p. 1,100 copies printed. -rill Zda.. V. S. Partirlyev, Academician of the Ulcralniftn SSR Academy or Sciences# and 1. 0. Brad, Professor; Exec. Ed. ; P. R. Tershov; ?Gch. Zd.: A.S. Polosina; Editorial Board; 1.0. Brad, Profsasor~ X.R. Ladyzh*nokly, and V.D. Parfirtyev, Academician of the Ukrain- ton Academy of Sciences. PURPOSE: This collection of articles In Intended for a wide range of geologists and research workers interested in oil problems. COVERAGEs Articles cantalned in this book deal with the problems of algration and accumulation of oil and gas. These problems were discussed In May 1957 at Livow State University In. 1. Franko at a as ting organized jointly by the Institute of Geology and xlnez._ a, Mources, Academy of Sciences of the USSR, the Department or Geology and Oil Exploration or the L'vov Polytechnic Institute. and the L'vov Geological Soclety. Theories on the origin or p*- troleum deposits and the conditions surrounding their occurrence arw treated. There are 327 references: 232 Soviet, 66 English, 5 French, and 4 Gorman. TANS OF CONTENTSt Introduction 3 Opening Address by the President or the Organization Committee of the Conference V.B. Porrir-y&v 5 Abrzmovlch~ X.A. 3h.?. Makhtlyev, B.A. Garin, O.A. MS and _"edo! - ehe feitlary 3 0 Salay Y. formation of Oll-boaring Deposlti-yn ;iNi*uC-6rTerbaydzhan 41 SokolovA_3,A. (Institut nortil-The Possibility of the Yom -Ation - d-Xf U gration of Oil In Late Sedimentary Deposits 59 Snarokly, A.M. (Politekhnlcheakly Znatitut, L-vov).Problecto In Oil Migration and the Formatlon of Petrollrarous Deposits 63 Urta*vA_A,A. rNookovskly Inatitut In. 1.K. Oubklnal GeochemIcza C-rrfl-Ra Intlie Study or the Formation of Oil Deposits T9 Balukhovskly, N.F. (Institutgoologichosk1kh nausspl UkrSSFt) - Pormatlon of ()as and Oil Deposits In the Eastern PLrt of the Donets Downways 86 S~Lrdano.vp-A.M. and I.M. Zhivitea. Conditions Car the Formation or Petrollfarous Bads in the Tertiary Deposits of the Southern Fring@ of the Azovo-Eubanakly Downways 98  Cenozoic and Paleozoic types of oil. Izv. vys. ucheb. zav.; neft' i gaz 2 no.8:3-7 159. (MIRA 1~.-11) l.Moskovskiy institut neftekhimichoskoy i gazovoy promyshlennosti im. akad. I.M. Gubkina. (Hydrocarbons)  KARTSEEV, A. A., Doe Gcolog-Mineralog Sci (diss) -- "The geochemical laws of the location of petroleum of various compositions", Moscaj, 196o. 23 PP (Min Higher and Inter Spec Fduc RSFSR, Moscow Inst of the Petroleum-C-hem and Gas Industry (MINKh i GP) im 1. K. Gubkin), 150 cories (IM, No 12, 1960, 125)  KARTSEV, A. A. Geochemical evolntion of petroleum. Trudy MIMJGP no.27:53-64 16o. (KM 13:9) (Petroleum geology)  VAGIV, S.B.; KARTSEV, A.A.; 0174AN, N.S.; SHUGRIN, V.P. Some recent data on the hydrogeology and tectonics of the YeyskBerezanakaya gas producing area. Dokl. AN SSSR 139 no.5*. 1205-12007 AE 161. (11IRA 14:8) 1. Moskovskiy institut neftekbimicheakoy i gazovoy promyshlennosti im. I.M. Gubkina. Predstavleno akademikom D.I. Shc~erI7~ovym. (Krasnodar Territ -Ge ology , Structural) unO7 (Water,, tndergro d  .KARTSEV, A.A.; VAGIN, S.B. .. P41eohydrogeological data of the formation and disintegration of oil and gas accumulations as revealed Iry the studies of the Mesozoic sediments in Ciscaucasia. Sov.geol- 5 no.8:104-121. Ag 162. (MIRA 15:9) 1. Moskovskiy institut neftekhimicbeskoy i gazovoy promyshlowoati Jaani. I.M. GuWm. (Caucasus, Northern-Petroleum geology) (Caucasus,, Northern-Gas,, Natural-Geology)  KARTS&Y. ekney &jftka=4rovich; OVCHINNIKOVt A.M., doktor geol.- miner. nauk, prof., retsenzent; IONHILI, A.G., ved. red.; YAKOVLEVA, Z.I.,y takim. red.; STAR08TINA,L.D., tekhn.red. (Hydrogeolog3r of oil and gas fields-IGidrogeologiia neftianykh i gazovykh mestorozhdenii. Moskva, Gostoptekhizdat, 1963. 353 P. (MIRA 16:4) (Oil field 'brines)  KARTSEV, A.A. Possible role of the flow effect in the formation of oil pools. Trudy M1NKHiG? no.43F49-53 163. (MIRA 17;4)  KARTSEW, Aleksoy Aleksandrovich; SHUMIN, Valeriy Petrovich; -----DVAIJ-,- TT-.F.-,-d-bYtor geol.-miner. nauk, prof., retsenzent; BEWANY Yu.K., ved. red. [Geochomical inve3tigation wthoda Ior tho proopecting of oil and gas] Gookhimicheskie metody Issledovanii pri po- iskakh nefti i gaze. Moskva, lzd-vci Nedra, 19(4. 201 p. (MIRA 1i:6)  KARTSEV, A.A. "Formation of oil and gas pools as elements of ground water basins." report submitted for 22nd Sess, Intl Geological Cong, New Delhi, 14-22 Dec 1964.  VAGIN, S.D.; GORDINSHY, G.Ye.; GRIBOVA, Yo.A.; DUBROVSKAYA,M.A.jZflDANGV, M.A., prof. ; ZYUZINA, N.G.; KARTSEV, A.A.; KNYAZEVpV.S.,dots.; I.EONOVA, R.A.;POKROVSKAYA, L.V7,"~MAATRM,~ Yu.A. ;YUDIff, G.T. dots.; SOKOLISKAYA, Z.V.; TOMKINA, A.V.; USPENSKAXA,K.'ft.,prof.;FOMKIN, K.V..,kand.geol-min.nauk; CB39WSHEV,S.M.; YAVORCHUK, I.V.; BAKIROV, A.A., prof., red.; DEMENTIYEVA, T.A., ved. red. (Geological conditions and basi,:: characteristics of oil and gas accumulations in the limits of the Epi-Hercynian Platform in the south of the U.S.S.R.] Geologicheskie uslo- v-lia i osnovpye zakonomernosti razmeshcheniia skoplenii nefti i gaza v predelakh epigertsinskoi platformy iuge. SSM. Pod obshchei red. A.A.Bakirova. Moskva, Nedra. Vol.2. 1964. 3o6 p. (14IRA 17:12) 1. Moscow. Institut neftekhimicheskay i gazovoy promyshlen- nosti.  URTSEV, A.A.;.KVDRYAKOV, V,A.; KHODZHAKULIYEV, Ya.A. Basic characteristics of the hydrodymamics of the northern part of the Kara Kum artesian basin. Dokl. AN SSSR 157 no.5:1114-1117 Ag 164. (MIRA 17:9) 1. Moskovskiy institut neftekhimichukoy i gazovoy promyshlennosti. im. Gubkina. Predstavleno akademikom D.I. Shcherbakovym.  SAVVIN, V.K., inzh.; SEKUNDA, A.T., inzh.; KARTSEV, A.I., inzh.; GALETSKIr., 'N.S.,, inzh. - Some problems concerning-the component distribution and compensation of thermak-expansion of the GTU-50-800 gas turbine system manufactured-ty the Kharko* Turbine Plant. Energomashinostroenie 8 no.11310--13 N 162. (Gas tuAdLnes) (MIRA 16:1)  SIDOIMNYLO, A.K.; KAMEY, A.K.; SUTSKIT, Te.S.; GW PERIN, Ye. L, otvetstveniaT-teda!kt"d-ffl=A, V.I., Yedushchly redaktor; RU- IM=IT, Ta.V., tekhrLicheekly redak!;or. [Manufacture of cog and worm gear] llzgotuvleaie zubehatykh i cherviachnykh peredach. Kiev, Goo. nauchno-tekha, izd-vo ma- shinostroitelinoi I Esudostrott. lit-ry, 1954. 117 p. (Gearing) (MLR& 8:1)  YARTSEV, A.K.; KARPOV, V.F., inzhener, reidaktor; GALIFERIN, Ye.l., inzhener, LMA, V.I., inzhener, rodaktor; RUIMSKIY, Ya.V., tekhni- cheskiy redaktor. [Production of worm gears; from tho practice of the Novo-Kra-torsk machine shop] Proizvodstvo globoidiWkb peredach. Pod red. V.1.1ar- pova. Kiev, Goa. nauchno-tekhn. lzd-vo mashinostroit. lit-ry, Ukrain- skoe otd-nie, 1954, 134 p. (MLRA 8:1) (Gearing, Worm)   KARD30, A. L. KARTSEV, A. L.- "Geochemical and Geological Conditions Coverning bhe Formation of the Maykop Deposits in Georgia." Sub 12 Feb 52, Moscow Order of the Labor Red Bajij-.ier-..- Petroleum Inst imeni Academician I. Fl. Gubkin. (Dis5e:rtation for the Degree of Candidate in GeoloCical and Kineralogicnd Sciences). SO: Vechernaya Moskva January-December 1952  L 45965-66 IEWT(1) SGt8_L DD RD KT GD XT NZ) 2 AdC NRs AT6030695 SOURCE CODE: UR/0000/60'/000/000/0035/ AUTHOR: NCfedov- Yu. G;; Anisimov, B. V.. Veselova, A. A.; Zaloguyev, G. Zhuravlev, V. V.; Iseyev, L. R ; 1~omarov, Kartsev, A._N.~_; Ivanenko. G. T.; Levinshiy, S. V. ORG: none TITLE: The aeroion-composition of the air or hermetic chambers and its influence on the human organism SOURCE: _--KorjftELntsiya po kosmicheskoy bioloj..,ii i meditsiAe.,.1964., Materialy. Moscow, Inst. mediko-bi6Y' 1966-35-'-5f-"-"- .H-21b-r6~T I TOPIC TAGS: aeroionization, human physiologT, life support system, space physiology ABSTRACT: A number of previous studies have indicated that while aeroions are of minor consequence, chronic exposure to them can lead to substantial changes in the functional condition of the organism. To further study this factor, five experiments of 20 days duration were conducted on 25 male volunteers from it laboratory (not named). The first experiment was for control purposes to obtain hygienic, chemical, and physiological data. The density of ions in this experiment ranged from 50-2000 pairs of ions/cm3- The second, third, and fourth experiments entailed exposure to positive, negative, and bipolar ions generated by "Shteynbok" radioactive ionizers. Ion concentration in the respiratory zone was 700-900 thousand ions/cm3 Card l/  L 45965-66 ACC NRI AT603o695 .1000 0-:0. 9 Ileavy ions Light.- ions Charge exchange CU unipolarity coefficient fC CU-1.1 A-coel i JA~ JA cut 1/00 2 Fig, 1, Aerion composition during a 10-day experiment I Card 2/8  L_ 45965-6 I ACC NRI AT6030695 Control I Control II Negative Pos i W ve Bipolar de-ionization ,70 .r.j d)1 4~ NI. j 4 'T-6, 7' 8 S it /Z /j if Is 7'40 '1.9 20 4 10:i. D aY61. -Before Duri After Fig. 2. Pulse dynamics during-variwis experimental regimens  L 45965-66 ACC NR: tea - 120 1/0 too 50 79- .f0 Ito 13 S I is m Normal *13 5 13 5 Control OA-A ~01 j j f i 1 Iffegative Ins 113 S /jj Poidtive Ions 'Iojrsj eionizatio n Fig. 3. Puls6 Vairiations during bicycle ergometer tests Card 4/8  L 45965-66 I M ~603 65 170 ISO - 150 AO 130 V 120. f/0 100,06- e13J mm Hg I Normaf La A 1,3, S' 1,3 S 3 j I JJ of 3 3 13 S a 1 3 'S 13 P., Control -Nepadve Ions - Ftsitive lorb~ Pipcbr_)[ons - Wonizat:bit-I Fig 4. Changes in systolin pressure during exercise on a bicycle ergometer (mean values) Card  L 45965-66 Atd-~4---~T6630695 K-Control Fig. 5. Comparative characteristics of -changevlwthe-strength- of neurai_-, + 1 0 Processes In various experimental regimens control) a - Character of reactivity curves; b - changes in the coefficient of reactivity to light, (whiVe) and to /0 opening the eyes '(stri.OA). /40 r1 PO b) 89 fo 40 20 Card 61,  L 4E965-66 ACC NR, AT603005 04 0 C) 130 r-12o /00 vw, SO CO :0 Control + 0 1 A -I N JA\ I I 12 / \ Z Z 0 j S 12 /1 aJ 6'A? f 11SZO3 7 o f j if /0 3 7di Bef6re Before 'Before Aft Before Aft .] e Before Aft After er ys Fig. 6. Changes in the sensitivity of central (Eo) and peripheral (L3) components of the visual analyzer (mean values): 1 -E0; 2 - 1,3' 7/8  L 45965-66 ACC NRs AT6030695_'_______' 07 during experimentation, Allowin6 that the natural exposure dose for the lungs I 12-87 mrem/week (Sivintsev, 1960), it was calculated that 1 g of lung receives 0.33-1010 pairs of ions per day. If, in the respirato medium, there were 500 3 _r~ d pairs of light ions/cm and 5000 pairs of heaNy ions/cm , then 0.7-1010 light an 7-1010 heavy pairs of ions would reach the lungs of a man during a day. In these experiments, the average subject received approximately loll pairs of light ions per day. In the fifth experiment, the chamber was de-ionized using a system of filters and special ion traps. However, complete de-ionization could not be achieved and the density was 50-60 pairs of lons/=3. Some results of these experiments are shown in Figs. 1-6. The results of the experiment generally showed increased muscular working capacity, external respiration, and an increased level of gas exchange during exercise in the experiment with negative aeroionization. Partial normalization of some indices occurred. during the respiration of negative aeroions. However, for a number of indices, a. norimalizing effect was also noted in redponse to the respiration of positive and bipolar ions. Nonetheless, the general -trend of the majority,of shifts noted during experimentation lends credence to the proposition that prolonged exposure to positive ions or a de-ionized air leads to some changes deleterious to human health. It is possible that an effbcthe approach to this problem would be to combine negative lons with positive or bipolar ions. The establishment of optimum aeroion regimens requires additional research. Orig. art. has: T figures.. [CD] suB com o6/ Sum DATE: 14Apr66/ ORIG REF: Oll/ ATD PRESS: 5086 C,rd 8/8 h9  KOTSEV, A. P. . IPr#6inion casting with the use of ceramic cores. Lit. proizv. no.Ytl-2 n 163. (MIRA .17:1)  v KARTSEV,, A.F. Miltilayer coatings on wax patterno. Lit.-proizv. no.-5:Y7 My 162. (MM 160) (Patternmaking)  -7e V, ,q;e 7 LAZUTKIN, S.T., kandidat tekhnicheskikh naukt NOTSEV, A.Y., inzhaner; SHASHURIX, L.K., redaktor; KATSEYEVSUTX;OTe"' Pr."tAVY&icheskiy redaktor [Technical survey of railway freight care] Tekhnichaskil. osmotr gruzovykh vagonov v poesdakh. Moskva,, Goo. transportnoe zhalzno- doroshnoe izd-vo, 1953. 94 p. NLRA 7:9) (Railroads-Freight cars)  Organizatsiya I-11'atorialnorp I;n,,bzlien-.tya I Uchot. Materi~dov V. 6troitellstvc (Or,-'anisation of Naterial Suppl-.., of ~,hiterials in Buildiri,,7s) I-Ioz! i;, Gcjs. izd-vo Literatury Po Stroitelletuv I arIchitekture, 1~5J6. 10% P. Tables. OR ViB -kai  KARTSEV, Aleksey Vladimirovich (Fundamental statistics of capital construction) Osnovy statistiki kapitallnogo stroitel'stva; uchebnoe posobie dlia podgotovki bukhgalterov stroek i podriadnykh orga- nizatsii. Moskva, Gosstatizdat, 1962. 219 p. (MIRA 16:8) (Construction industry)  5(4), 15(6) SOV/2o-122-1-27/44 AUTrORS: Syrkin, Ya. K., Corresponding Member, Academy of Sciences, USSR, Mironov, V. P., Chernyshev, Ye.A. TITLE: The Dipole Moments of Some 'Silicon-OrGanic Compounds (Dipol1nyye momenty nekotorykh kremniyori;anicheakikh soyedineniy) PERIODTCAL: Doklady Akademii nauk SSSR, 1958, Vol 122, TTr 1, p., 99-1o2 (T!SSR) A13STRACT: The authors measured the dipole moments of some silicon- organic comnounds according to the heterodyne method at 25 in benzene. The extrapolated polarizations were cal- culated according to a formula of Gedostrand. For compounds which contain silicon, the atomic polarization has to be taken into account. The experimental results are given in a table. A distinctive peculiarity of the silicon compounds is the increased polarity wfth respect to the corresponding carbon bonds. According to the available data, the bond moment of Si-H may be estiM.Lted to 1D, and the bond moment of Si-C - to 0,6D. In both of these cages, the positive end Card 1/2 of tile dipole is directed towards tile silicon, In the bonds  The Dipole Moments of Some Silicon-Organic Compounds SOV/2o-122-1-27/44 Si-O and Si-halogen, the weight of the ionic state is higher. Numerous and detailed data tire riven. There are 1 table and 5 referencea. ASSOCIATION: Moskovskiy Institut tonkoy khimicheskoy tekhnologii im. M. V. Lomonosova (Moscow Institute of Fine Chemical Technology imeni Lt. V. Lomonosov) SUBMITT ED: MaY 15, 1958 Card 2/2  KARTSEV, G. N. Cand Chem Bei -- "Polarity of cortnin orEanic compounds of silicon." Mos, 1960 (Acad Sci USSR. Inst of Elementary Orgrinic Compounds). (KL, 1-61, 182) -55-  KAIRTSEV, G.N.; SYRKIII, Ya.K.; KMCHIENW, A.L.; MiROIJOV, V.F. Dipole moments of some ge=.anIwa organic, compounds. Zhir. strukt. khIm. 5 no.3:492-493 My-Je 164. (MIRA 16:7) 1. Moskovskiy institut tonkoy khi-micheskoy teklinologii imeni M,V. Lomonosova.  KARTSEVY KOKOREVA, I.Ytt.; SYRKIN, Ya..K.) WRONOV, V.F.; CHEPNYMET, Ya.A. Dipole morwnta of organic compounds %eth a Si-Si bond. Zhur. strukt. khim. 6 no.2009-~310''Mr-Ap 165. (MIRA 1817) 1. Moskovskiy institut tonkoy khimicheskoy tekhnologii imeni Lomonosova.  KARTSBY, G.U.; SYRKIN, TA.K.; NIRONOT, T-F- Dipole moments of some germanium orgunic compounds, Izv.AN SSSR Otd.khim.nauk no-5:948-949 Yy 160. (MIU 13:6) 1. Institut tonkoy khimicheakoy tekhaologii imeni M.V. Lomonosova. (Germanium organic compounds.-Dipole moments)  RX L"371 U'll 64/000. 9V64 go, AlMOM' A* j M' Le 1- Yt- priatchi TLEI., 7 1964 .,TOPIC TAGS.1 idilo a twtq~o' us vomp*10id pt&,er manes CH- Sa b Xex x F benzone p a W ----found, Sl 2_78"d L th -and, 2 81 respectly,44"'"', Me-41-1-94it n com~aied gdus--compou o -darbon, AtW,6 licon, A ind.L datinj(_Ithat _t variatiom of ub&U~;~:ldda-aulistitutoad compounds is of Ahe same character, as-for -tta'._.carbon kampounds, Isut differs from the; chan Jn the moment in this for _,-aiacotl compounds. /The ratio U(R3(.;&X): verage of IA6-ior -all the cpopoUn-da; this was not observad :U(R3CX) was at' A Ifor the corres onding Silicon,compounds, The moment. of the Ga-F bond i "tt-49- RIA14~Ak;."t, of thi Ge-1 bond 0,, . ........ . orig.. art. W-w. 2, tabLod~,__   KARTSFVP I. Concern for students' health. Prof.--takh. obr. 21 no.7:24 Jl 164. (MIRA 17: 11) 1, Institut gigiyony detey i podrostkov ANN SSSR.  MOZOLEVSKIT, Igor' Vladimirovich, inzb.; BAR.'WGOV, A.A.; KARPOV, I.V.; -XMT~~VI 4; KRYLOV, N.M.; HIKOLAM, I.V.; REVICH, V.I.; SHMAKOV, V.A.; SHOXHIN. O.A.; CHUSOY, A.I.; GUBAREVA, N.T., red.; BOMOVA, Ye.N., tekhn.red. [General course in railroad engineerirg] Obshchii kurs zheleznvkh dorog. Izd,3-, perer. rod obahchei zvd. I.V.Madzolevskogo. Moskvn, Vses.izdatellsko-poligr.obuedi,nenia H-va putei soobahcheniia, 1960. 290 p. (KIRA 111:12) (Railroad engineering)  MODZDLrkVSKIT, Igor' Vladialrovich; BARSRG(A'. A.A.,- XAMT. I.V.- XARMEV I T - KRYLOV, N.M.; NIKOLAYEV, I.T.;; RIVICH, V.I.; SHqTykwi4 ikt;iN, O.A.; CWSOT, A.I.; GORODN1:CH1V. N.G., redaktor; CEZRNTSH&7. V.I., reclaktor; KHITROT. P.A., tekhriieheakiy redaktor (General conree on-railroads] Obahchii kure zheleznykh dorog, lad. 2-e, perer. Moskva, Goo. transportme zhel-dor. lzd-vo, 1954. 316 p. (Railroads) (M12A 8:3)  C- 3C~,e.-Ce and Enj.rc----'-'I.n-, 'K.-Cv CI-dcr o f Lenir. 0 - "UP For D.gree of Cindidate in Technical Sciences  KARTSEV, L.V., kand.tekhn.nauk __ - . Evaluation of energy losses in tho turbine stage f rom the inleakage of the working medium. :Izv.vys.ucheb.zav.; anerg. 2 no.6:74-82 Jo 159. (14IRk 13:2) 1. Bryanskiy, institut transportnogo manhinostroyeniya. Fred- .stavlona kafedroy turbostroyeniya. (Turbines)  KARTSEV, L.Y., kand.telthn.nauk Analysis of the partial stage of a turbine with inleakage of the working substance. Izv.vys.ucheb.zav.; energ. 2 no.q: 69-73 3 '59. (MM 13:2) 1. Bryanskly institut transportnogo mashinostroyeni7a. Pred- stavlona kafedroy turbostroyeni7a. (steam turbines)  MnWy, Iywo lyanovich,, prof.; TABLONZ, Ralhm -iyel I Hordukhovich; _pgj~Sg, MZ INICHUS J~~ *Vladimir IC61 1.1 GOGOLIff ,Ivan Grigo, revich; J ; MMSKIT, Obunadir lys,ovich; WTANDIWO Rofftislay Ivanovich; PSHMOIBM* Aet or',DhdtA3,eylch; TWSMOV. Alek6zdr AlefoRuArovich; SHUBUMD, L.A.# retsenzent; GYMASIKOVA, D.S,, tal&n, red, Dorodynaxics of the blading of steam and gas turbines] Aerodins- slim protochnol ofiastl parovykh i gazDvykh turbin. Pod red. I. I. Xfidlloya. Moskva, Goo. nauchno-tekhn. izd-vo mohinoutrolt lit- ry* 1958* 246 p' (NIBI 11-10Y 1 Bryanskly institut transportnogo nashinostroVeniya (for arlilov). 2: Chlen-kerrespondent Akademii nauk USSR (for Shubenko). (Tubromachines-4erodynamics)  8(6), 14(6) SOV/143-59-6-11/21 AUTHOR: E!!:t~qe Candidate of Technical Sciences TITLE: The Estimation of the Energy Loss in a Turbine Stage from the Working Medium Induction PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy - Energetika, 1959, Nr 6p PP 74-82 (USSR) ABSTRACT: The energy losses from the induction of the working medium thru the open root gap in the space between the nozzles and the working blades reduces essential- ly the efficiency of a turbine stage. The efficiency reduction is caused by the energy dissipation losses, changes of the flow conditions at the blades and ad- ditional leaks thru open gaps because of an increased reactivity degree. Usually, when estimating the ener- gy induction losses, only the dissipation losses are considered without giving consideration to the changes of the degree of reactivity. It may be proved that such a Tqethod of determining the losses-produces con- siderable errors. The author estimates the increase Card 1/2 of"the degree of reactivity caused by induction, based  SOV/143-59-6-11/21 The Estimation of the Energy Loss in a Turbine Stage from the Work- ing Medium Induction on the necessity of passing thru the rotor channels an increasing amount of working medium. He then pre- sents formulae for determining the losses with criti- cal and subscritical outflows. The results of theo- retical calculations show an adjeuate coincidence with experimental data of fR-ef 1 . There are 2 dia- grams, 3 graphs and 2 Soviet -references. ASSOCIATION: Bryanskiy institut transportnogo mashinostroyeniya (Br ansk Institute of Transportation Machine Build- ing~ PRESENTED: Kafedra turbostroyeniya (r!hair of, Turbine Building) SUBMITTED: January 20, 1959 Card 2/2  KARTSEV, L.V., kand. tekhn. nauk, dotsent; ILIZAS101FO, A.A..., inzh. Investigating the strength of detachable tapered couplings of hydraulic transmissions. Vest. mashinostr. 44 no.9:18- 22 S f64. (MIRA 17:11)  JUEMEVICIUS, J.; KOVELIS, Vyt.; KATINAS, J.; MEDONIS, Ar., red. [Anyksciai and vicinity) ArrjkBciai ir ju ap,,linkes. Vilnius, Valatybine politines ir mc.kslines lit-ros leidykla) 1959. 25 P- [In Lithuartianj (MIRA 18:1)  a KARTSEV, M. A. Engineer "Arithmetical-Unit of the M-2 Calculatiig Machinei" lecture delivered at the Soviet Computer Congress, 12-17 Mamh 1950', Moscow. Translation of abstract - D 499674  PHASE I BOOK EXPLOITATION 474 Kartsev M.A., Aleksandridi, T.M., Knyazev, V.D., Tanetov, G.I., ----Legezo, L.S., Lavrenyuk, Yu.A., Shchurov, A.I., Brusentsov, N.P., Kuznetzova,V.P. Bystrodeystvuyushchaya vychislitel'naya mashina M-2 (High-speed Computer M-2) Moscow, Gostekhizdat, 1957. 228 p. 10,000 copies printed. Ed. (title page): Bruk, Isaak SemenoVich, Corresponding Member, USSR Academy of Sciences; Ed. (inside book): Bezborodov, Yu..M.; Tech. Ed.: Gavrilov, S.S. PURPOSE: The book is written for engineers and students of vuzes, specializing in computer techniques, and for specialists interested in computer applications. COVERAGE: The book describes the M-2,a small-dimensioned, universal, high-speed digital computer developed by the Laboratory of Control Machines and Systems of the Academy of Sciences, USSR. A detailed description is given of the basic computer units: the arithmetic Card 1/13  Righ-speed Computer )1-2 474 unit, internal memory devices, control devices and output devices. This description is supplemented with an exposition of the guiding principles of computer design, the binary system, coding and programming., and the design of basic components of the system. This makes the book accessible to readers who have no Apecial training in electronic computers. The basic characteristics of the computer are as follows: the calculation system is binary; the code presentation is with a floating and fixed binary point; the number of binary digits is 34; the computation accuracy,with a floating binary point, is about eight decimal bits, and with a fixed binary point, about ten decimal bits (computations with doubled accuracy are also possible); the yange oE.numbers in operations with a floating binary- point is from 23 to 2--.11; the coding system is a three-address code; operations performed are: addition, subtraction, multiplication, division, congruence with modulus, algebraic congruence, logical (signed) multiplication sign inversion, transfer of numbers, and auxiliary operations (30' in a14- the, average speed of operation is Card 2/13  High-speed Computer M-2 474 2000 operations per second. Of the internal memory devices the basic one is electrosttL_tU,. consisting of cathode-ray tubes of the 13L037 type, for 512 numbers; the access time is -",S-_1,Vsec;' the auxiliary consists of a magnetic drum for 512 numbers; the speed of rotation is 2860 rpm. The external memory device consists of a magnetic tape with a capacity of 50,000 numbers; its length is 600 m and speed 0.4 m/sec. The data is fed in on perforated paper tape at the rate of about 30 numbers per see. The decoding of data is in tabular form., the printing-speed Is 24 numbers per min. The power supply is from a 3-phase a-c metwprl 127/220-v, the power intake Is 29 kw. The area covered by the computer is 212 sq. m. The total number of tubes Is 1879, of which 1676 are used in the computer itself and 203 in the power supply. The types and numbers of tubes used in every unit are given in Appendix 2. The personnel consists of two people per shift. The cost of building the computer was about one million rubles, and the cost of 24-hr operation is 16,ooo to 18,000 rubles per month. The various stages of development of the M-2 involved Card 3/13  High-speed Computer M-2 474 the following engineers: M.A. KartBev-,_V.V. Belinskiy and A.B. Zalkind,.who developed the arithmetic unit; the electrostatic zmery device -%" developed by T.M#Aleksandridi and Yu.A. Lavrenyuk; control devices by L.S. Legezo, V.D. Knyazev and G.I. Tanetov; magnetic memor-y devices by A.I. Shchurov and L.S. Legezo; input and output devices by A.B. Zalkind; the power supply system by V.V. Belynskiy, Y-A Lavrenyuk and V.D. Knyazev; the control panel by V.V. Belyndkiy and A.I. Shchurov. The design work was supervised by M.A. Kartsev. The following laboratory constructors, technicians, mochanics and assemblymen also worked on the project; I.Z. Gellfgat" A.D. Grechushkin, N.A. Nemtsev, F.F. R::heutskiy, I.K. Shvillpe, D.U. Yermochenkov, L.I. Fedorov, and G.J. Korostylev. The following ersons collaborated in the writing of the book: M.A. Kartsev ~Chapters I to VI and XI), I.M. Aleksandridi (Chapter VII), V.D. Knyazev (Chapters II, III, VII-and IX), V.P. Kuznetsova (Chapter XII), Yu. A. Lavrenyuk (Chapters V and VII), G.I. Tanetov (Chapters VI, DC and XIII), A.I. Shchurov (Chapter VIII), N.P. Brusentsov (Chapters VIII, IX, XIV) and L.S. Legezo (Chapter X). Card 4/13  SUBJECT: USSR/New Electron Computers Developed at Lower Cost AUTHORs Kartsev, M.A. and Matyukhin, N.Ya., Engineers 25--4-17/34 TITLE: Computers (Vychislitellnyye 11ashiny) PERIODICALt Fauka i Zhizn' - April 1957, # 4, pp 44-45 (USSR) ABSTRACT: In this article two newly developed types of electronic compu- ters are describ*d. U-2 performe about 2,000 arithmetical operations per second, but is much cheaper and dmpler to operate than the "Strela", an earlier constructed computer of equal efficiency. In the H-2 for the first time semiconductors and cathode ray tubes, which are cheap and easily obtainable were used. Another computer, the M-3, is such smaller, requiring only 3 eq m of space. It has only 780 tubes, 3,000 semiconductor appliances and needs no long adjustment. It can perform thirty operations per second, but can easily be extended by additional cabinets, which are able to multiply its efficiency. The article contains two illustrations of the M-2 and V-3 Card 1/2 computers respectively.  TITLEz Computers (Vychislitellnyyo Mashiny) 25-4-17/34 ASSOCIATIONs Laboratoria. upraylyayushchikh mashin i aintem an SSSR (Laboratory for Control Machines and Systems of the Academy of Sciences of the USSR) PRESENTED BY: SUBMITTEDt AVAILABLE2 At the Library of Congress. Card 2/2  28(2) PHASE I BOOK MWITATION SOV/1453 Kartsev, Mikhail Aleksandrovich Arifteticheskiye ustroystva, elektronnykh telfrovykh mashin (Arithmetic Units of Electronic Digital Computers) Moscow.Fizmatgiz, 1958 . 158 p. (Series: Biblioteka prikladnogo analiza. i vychislitellnoy matematiki) 10,000 copies printed. Sponsoring Agency: Macaw. Universitet. Kafedra vychislitellnoy matematiki Chief Ed. of Series: Sobolev, S.L., Acadecdcian; Ed.: Bezborodov, Yu.M.; Tech. Ed.: Yermakova, Ye.A. PUFdWE: The book is intended for scientists and engineers designing electronic computers and for graduate students of iruzes. COVERAGE: The book discusses general problems of designing arithmetic units: selecting the system of number coding, developing binary adders, selecting methods of performing multiplication and division with a binary nmber base, and developing logical systems of arithmetic units. The book also presents a description of existing constructions, methods of their comparative evaluation and some new solutions. Material for the book is bEu3qd largely on work done at the Labora~ toriya uprav1yayuBhchikh tiashin i a istem AN SSSR (Laboratory of Control  Arithmetic Units of Electronic Digital Computers SqV/1453 Machines and Systems, AS USSR), and represents a part of a broad study in the field of computer technique. This study was made under the supervision of I.S. Bruk, ConvepondIng Member, AS USSR. The author thanks N.Ya. Matyukhin, V.V. Belynskiy, Doctor of Physical and Mathematical Sciences A.L. Brudno, Corresponding Member, AS USSR, L.A. Lyusternik, and participants in the seminar given by the Chair of Computer MathematiCB at Moscow State University, all of whom read the book in manuscript form and introduced several valuable suggestions, There are 29 references, of which 13 are Soviet (inclucung I translation), and 16 English. TABIE OF CORIENTS: Foreword Ch. I. Systems of Coding Numbers 7 1. Classification of coding system 7 2. Number base 10 3. Succession of columns in a number. Digital quantities 4. Representation of negative numbers. Operations with algebraic quantities 29 5. Placing the point 45 C mw*4  jtg,r. N " A, KART3EV, ".A., Cand Tecii bci -- (dis.,j) "Bases of' QQZIL;-W,, tTn of arith~netic devices and the enginecring solution o'" the 11-2 Vie aritnmeti c 4owt L of / -ovMMii-tink :,,achine. 11 110, jQqi 16 pp (Min f-.f di?her Education U&;R. ~,!os t~rder or tenin Power tngineering inst) 100 cn:li-cs (FL, 23-56, 106) - 63 -  PHASE I BOOK EXPLOITATION SOV/3671 Akademiya nauk SSSR. Institut elektronnykb upravlyayusbebikb mashin Tsifrovaya tekhnika I vychislitellnyye ustroystva; [Sbornik] (Digital Technique and Computing Devices; Collection of Articles) Moscow, Izd-vo AN SSSR, 1959. 184 p. Errata slip inserted. 4,000 copies printed. Ed.3 N.S. Bruk, Corresponding Member, USSR Academy of Sciences; Ed. of Publishing House: G.Yu. Shteynbok; Tech. Ed.: V.V. Volkhova. PURPOSE: This,collection of articles, Is Intended for persons specializing in computer technique. COVERAGE: Most of the work in this first issue of the Collection of Articles of the Institute of Electronic Control Machines of the Academy of Sciences, USSR., was carried out during 1958-1959, and was dedicated to digital technique. The Institute conduc- ted studies aimed at creating a high-speed memory device of large capacity. one of the results of this work was improvement of the C&Td 1/q  Digital Technique (Cont.) SOV/3671 M-2 computer by replacing its static storage device with ferrite ,memory cores. Other articles concern the use of transistors in digital computers, stability of analog computers equipped with d-c operational amplifiers, and the use of the M-2 computer in solving various problems. Future issues of this dollection of articles will present the results of work in digit;al tech- nique in mathematical investigations, and in control machines and systems of control which operate ork the principle of digital technique. Some personalities are mentioned in the articles. References accompany some of the articles. TABLE OF CONTENTS: From the Editor 3 _, V.P. Konstantinov. Glukhov, Yu.N., V.I. Zolotarevskiy, E.A,, Kart~ey and R.P. Shidlovskiy. Ferrite Memory Device With 4096 Digits 5 The authors present a general description of the ferrite core memory device. It has a 4096 wor,d capacity, each word consisting of 36 binary bits, two of which are reserve. The access time is  Digital Technique (Cont.) sov/3671 about 30 microsecj part of this cycle overlaps other computer operations. This memory unit Is equipped with 526 electron tubes and 103 additio'nal tubes are used In the power supply. Thes*e specifications constitute a great Improvement over the previous memory device, in which the operational electrostatic storageand the reserve magnetic drum storage had a capacity of 512 binary, 34-bit words each, and in which acoess time was from 37.5 to 50 or more microsec. It was equipped with 644 electron tubes and 150 additional tubes were used in the power supply. The new ferrite core memory device was developed, executed, and adjusted at the Institute under the general direction of I.S. Bruk, . Corresponding Member of the Acadenry of'Sciences, USSR. Prelimi- nary studies were made in 1955-1956 under the'direction of. ON. Rosnitskiy. The essential part of the work was done under the supervision of M.A. Kartsev by engineers T.M. Aleksandriai, V.B. Borok, Yu.N. Glukhov, V.I. Zolotarevskiy, L.V. Ivanov, V.P. Konstantinov, Ye.N. Filinov, and R.P. Shidlovskiy; and technicians I.I. Gallyamova, N.S. Zhdanov, V.K, Minayev, M.Ya. Natanzon, Z.N. Sidyakova and V.S. Sokolov. The construction group was under the supervision of A.N. Patrikeyev, and the gar4-137"  Digital Technique (Cont.) SOV/3761 assembly shop was under the superviaion of A.D. Grechushkin and the mechanical shop of the Institute. Ivanov, L.V. and Ye.N. Filinov. Checking Installation Used in the Production and Adjustment of Ferrite Memory Device 28 The following checking operations which are considered indis- pensable, were carried out during production of tle ferrite core memory device: selection of the cores according to es- tablished requirements; testing the finished matrix frames; and checking the whole memory device. There is very little reference literature concerning the methods and equipment for carrying out such workand the article was written from naterial acquired in developing such checking arrangements. This work was done at the Institute)and the following persons)in addition ,to the authors of this article, participated In it: V.P. Kon- stantin'ov, M.Ya. Natanzon and V.S. Sokolov. There are two references, both Soviet. Chernov, A.N. Utilization of a Dynamic. Trigger Equipped With a Junction Transistor in Arithmetic Device Circuits 42  Digital Technique (Cont.) SOV/3671 press these'quantities by means of discrete electrical states. He presents, in table form, conversion methods or converter types together with the characteristics of each method or type. There are 8 references: 3 Soviet (one- of which is a translation) and 5 English. Brudno, A.L., and Yu.A Lavren uk Operation of the M-2 Electronic Digital Computer (Briei Report~ 1 168 This is a report-concerning the operation of the M-2 and results obtained from It in the period 1953-1958. ---Kartse-v, M.A., V.D. Knyazev, and V.P. Kuznetsova. High-Speed Elec- trostati-F-FrInting Device 175 The authors describe an experimental model of an electrostatic parallel printing device developed at the Laboratory in 1956-1957. The printing rate is 300 lines per sea. Reynberg, M.G., and V.A. Tretlyukhin. Ferrite-Transistor Trigger With One Transistor 179 The authors describe the trigger device which they developed at the Laboratory. They compare it with a similar one-transistor  AU15023i Womldov,1.3., sad R"ov&,Z.3. 30T/42-14-1-27/27 21TIM. Saw fttLIc&tic" an Applied Analysis &M lh-orical, MathoustIts, (Novyyo lsd&&Lys pa prlkladwm ---It.u I vycZ1.lLt.l'moy "Smomwetka) TMODICALs Uspokki ustamo,tLabookikh nak.1959.Val 14.1r I." 261-265(U331) AUTIAM It to stated that in the 0331t the" exisu as p*rtodical an vmmwrIca4 mathe"tice &ad *Lmil&r dcoatne. The vacers of the- dam"" QbIvfl7 appo~ in the earf*- 'MalostlCof on Applied A..Lyu a" Wwwrical vasbo~tlcs* (DPATM) &Ad I. single WIX-ot-d welmomms. fte *arias SPAM began in ?955 and catil no. It sousalwa the following ~azgraphlwss 1. O.S.Sel.kh.w 'Coloul.tim of Series-I 2. A.Z.Zkvv~kiy -Appliostion of Continued Fr"ttcoe Is Us Apjroxl~te A~lysio'j 3. T.S.U.1own-ki I A ptlippow -90abLILSY of Difference Zquatiom .40 FFFAV M a rt - .. gromem's 3 3A.Mal-skly -quadrat== Yo ar.ta-s 7-'Vt'y.- DL is A t; .1 f 51 t I Aftu b mbe e 608 o - "M G . pp C I-M , tt". a d uth. Bt Ii . e " vow k*d is App 1 -Torob ZbSplev. F-5 a the" app~d the following callwased volmae.. 'Numerical 1homsicS and CONPUtUe ?*chains- (TOT) stace 1953,~Immsrical z thd4MItlas' CVN) since 195T. a" -Cosputing Twobatco* (TT) sin" 1956. Vatil now two vol~m of TM appearwd. with contribution. of W-L.Ditkia. L.A. A~A.Abrmma-. X.2. soon votimok. r-S.M-.Wk.- p-M-3414 "AtIFIRTI.B. I Tu.V.V. b- T. Ys A Valk" T 1 5 1- to . . Gain. A.%. , Y, D*rl mrs. F r TaL.M. evok --..ki D.N.D,otd-, A.G.r...s, 71- --- N341a ear T M wolums QTW G..TMB - - to" ef d .1~SbcksrbLkzv, t.T.Mayorov, F.P.Golortattkov. ~74. 1. To.A.Tolka,, L.W. Y&. a". a,-O.T. :. - -qLwaov, Yo.11 -Sesides in-TY58-Y.-u.3 . "wv.k'y '-"ad th. collectwd -I-* . stions ~cr tho~-?F"-F; r -mjttt~!!� a- ('r6promy r; SOGY'll Mttwbatlakoa~kh mma-hla-) with ocatribetloss of Ts.Ta. 2"Llovokly. I.Ya.Akskokly, TI, B.A.M.sbpe. 1L.K.  KAgrszv, Mikhail Aleksandrovich Aritlimetic units for electronic digital computers. Wright- Patterson Air Force Base, 1960. 152 p. (MCL-285/V) Translated from the original Russian: Arifneticheskiye ustroystva elektronnvkh ts:Lfrovykh mashbi, Moscow, 1958.  H 4 a ol Ilk  67 S/044/61/000/007/055/055 C111/022 AUTHORs Kartsev.-X. TITLEs Logical methods for the acceleration of the multiplication in digital computers PERIODICAM Referativnyy zhurnal. Matematika, no. 7, 19619 519 abstract 7 V 329. ("Probl. kibornetiki" vYP 4. M., Fizmatgiz, 1960, 111-120) TEXT: The author considers the influence of the choice of the base of the positional arithmetic system to the effectivity of the application of logical methods for the acceleration of the multiplication. The author considers logical methods which reach an aaceleration of the multi- plication only by a more complicated control acheme without an en- largement of the quantity of devices in the basic scheme of the arithmetic unit. The author determines the mathematical expectation of the number of tact# of addition and sulitroko-Son being necessary for the performance of the multiplication as well as the mean number of tacts of addition- subtraction per one digit of the multiplier. Several bases of the Card 1/2