VELIKORETSKIY, D.A.; LORIM, K.M.; FINKEL$, I.I.; GRIGORCHUK., Yu.F.; BERGER, L.Kh.; 'XTROBINA, V.P.; 11,2SHMERYOV, A.V., student V kuroa; OBERMIMCMUTKO, Ya.V., kand.med.nauk; NIKITIN, A.V.; WK110YEDOVA, S.N.; KUSFARTSM, L.V., asoistent; KUMETSOV, V.A., dotsent; KUKHTINOVA, R.A., assiatent; BONDARENKO, Ya.D. (g. Fastov); KURTASOVA, L.V. (g. Fastov); PYWCHIM, V.V.; CHURAKOVA, A.Ye.; BABICHY M.M.; KU~~T PAVLOV, S.S.; SHEVLYAKOV, L.V., kand. med.nauk; IG11AT1Y--,VA, O.M.; ZZYGEMWER, G.A.; GUTKIN, A.A.; POLYKOVSKIY, T.S. Resumes. Sov.med. 25 no.11:147-152 N 161. NIRA 15:50 1. Iz Instituta grudnoy khirurgii AW4 SSSR (for Velikoretskiy, Loriye, Finkel'). 2. Iz bolinitsy No-3 Gorlovk! Stalinskoy oblasti (for Grigorchuk). 3. Iz Tyumonskoy oblastnoy bollnitsy (for Berger, Utrobina). 4. Iz Yaratasskoy rayonnoy bollnitsy Yuzhno-Kazakhstanskoy oblasti (for Kharchenko). 5. Iz Gospitallnoy khirurgicheskoy kliniki I Moskovskogo ordena Lenina maditsinakogo instit-ata Lmeni Sechenova (for Meshcheryakov). 6. Iz kliniki propedevticheskoy terapii Stalinskogo meditsinakogo instituta na bazo oblastnoy klinicheakoy bollnitsy imeni Kalinina (for Oberomehonko). 7. 1z kliniki goopitallnoy torapii Voronezhskogo meditsinskogo Instituta (for Nikitin, Mukhoyedova). 8. Iz kafedry obshchey khirurgii Kishinveskogo med-itsinskogo, Instituta (for Kusmartseva). (Continued on next card)  VELIKORETSKIY, D.A.--(continued) Card 2. 9. Iz akushersko-ginekologicheskcrf k-liniki Stalinskogo, institut-a na baze bollnitsy imeni Kalinina (for Kuznotsov, Kukhtinova). 10. Iz gospitallnoy terapevticheskoy,kliniki lzhovokogo meditsinskogo instituta (for Fevchikh, Churakova). 11. lz Nosovskoy rayonnoy bollnitsy Chernigovskoy oblasti (for Babichl. 12. Iz Vyborgskoy mezhrayonnoy bollnitsy (for Pavlov). 13. Iz 1-y gorodskoy bollnitsy Tyumoni (for Ignatlyeva). 14. Iz 2-y infektsionnoy bollaitsy g. Zaporozhlya (for Zeygermakher). 15. Iz infektsionnogo i prozaktorskogo otdeleniy-Petrozavodskoy gorodskoy bollnitsy (for Gutkin, Polykovskiy). (MEDICINE--ABSTRACTS)  , KUZIMINO K.P. (Pekavskaya oblastl) - ------ -l---------. Rare observation of a thoracoabdminal wounds Xhirurgila 37 no,lsl26 A 161. (MIM 14t2) (CHEST-4iOUNM AND INJURIM) (ABMW-VOUNDS AND INTURIM)  V.V.1 karid.med.riaok; OZIMIN. K.P. Pancreatic cyst. Vast. khir. 93 rm..12~9F,99 D (MIRA 180)  L 36829-66 bVT(d)/EWP(1) 1JPkc) GU/bb ACC NR: AP60179?9 SOURCE CODE: UR/0378/66/000/OOZ/0057/0102 AUTHOR, Karolev, M. A.: Kuz'min K. S. Lavrov, S. S.; LetichevskiZ, A. A.; Stol.varov, G. K.;.Sliura-Bura, 14. R. ORG: Non6-' LG TITLE: Report on the A' EK algorithmic languap_e SOURCE: Kibernetika, no. Z, 1966, 57-102 TOPIC TAGS: algorithmic language, economics, information processing, com- puter application, machine translation ABSTRACT: This paper presents a description of an algorithmic language termed ALGEK (algorithmic language for economic problems). It extensively uses the data on the ALGOL-60 language, the SUBSET ALOOL-60 (IFIP) language, and the input-output procedures developed for ALGOL. The present work also makes use of the ideas of COBOL-60 language and the input-output procedures developed elsewhere (D. E. Knuth,L. L. Bumgarner, P. Z. Ingerman, J. H. Werner, D. E. Hamilton, M. P. Lietzke, D. T. Ross, A Proposal for Input - Output Conventions in Algol-60 (A Report of the Subcommittee on ALGOL of the ACM Programming Languages Committee). Communications of the ACM, V.7, N 5, May 1964.) The proposed language may be utilized for the composition of pro- UDC: 681.14Z.001:330.115  -66 ACC NR: AP6017929 _J171 grams for some typical problems in the processing of economic information and makes it possible to start the development of translators. The preliminary ver- sions of the language were discussed at several conferences and seminars. The draft of the language was sent out to several organizations. The present publica- tion has been approved by the Group of Algorithmic Languages for Processing Economic Information attached to the Commission for Multilateral Cooperation Between Academies of Sciences of Socialist Countries on the Problem of "Sci- entific Problems in Computing Technolog (Gruppa algaritmicheskikh yazykov po pererabotke ekonornicheskoy informatsii ~~AYaPEY) liri komissii mnogostoronnego sotrudnichestva mezhdu akademiyami nauk sotsialisticheskikh stran po probleme "Nauchnyye voprosy vycheslitellnoy tekhniki") and is being recommended for a description of economic problems and for the creation of translators in the coop- erating countries. GAYaPEY recommends that the authors of the language per- form work on the creation of an input-output apparatus and retains the right to insert corrections into the language. The following are treated in great detail: the structure of the language; fundamental symbols, identifiers, digits,. quotations, and fundamental concepts; expressions; and operators. Comrades Yu.-Ya. Bazilevski , M. N. Yefimova, and A. S. Frolov rendered a great deal of assis- tance in the work, and the authors express their gratitude to them. Orig. art,, has; 9 tables and 3 figures. SUB CODE: 05/ SUBM DATE: 04Dec65/ ORIG REF: 000/ OTH REF: 007 Z/Z  AYNHERG, V,.Do; DUVALYAN, S.V., tMIMIN, K.S.; SRAGGVICH, T.G., land. fiz6-natem. nauk, otv. d. (Input, output, and exchange programs for 4Ural-3" and "Ural..4* a-imputers. Part 1.1 Programmy vvoda, -,-yvoda i obmena d-lia "Ur&la-3" i OUrala-41". Moskva, Pt-, 1. 1965. 72 P. Wkacemiia riftuk SSSR. Vyr3hislitellnyi tsetitr. Stwidartnyo i t1pov3re lrogrammy dlia mashin "lJral,-' no-5) (MIRA 18:8)  AID P - 46og Subject USSR/Aeronautics - bibliography Card 1/1 Pub. 135 - 21/23 Author : ~Kum~in, K~.S. Col. Title : Reconnaissance aviation of the USA and British Air Forces. Periodical : Vest. vozd. flota.. 3, 87-91, Mr 1956 Abstract On basis of the United States and British periodicals the author reviews the reconnaissance aviation of those countries and their equipment of aerial photography. Four photos. Institution : None Submitted : No date  I 1 0 11 - .. "V 86-9-36136 AUTHOR: Kuzlmin'. K.S., Colonel TITLE: Reconnaissance'Units of the Strategic Air Command of the USAY (Razvedyvatel,naya aviatsiya strategicheskikh VVS SShA) PERIODICAL: Vestnik Vozdushnogo Flota, 1957,, Nr 9, PP-93-96(USSR) ABSTRACT: The article summarizes smie of the information at the dis- posal of the Soviet arimed :sregs concerning: - The organization of the reconnaissance units of the USAF Strategic Air Command, and the type of planes these units are f ormed of . - The missions strategic reconnaissance planes may be charged with, and the tactics they are likely to follow in carrying out these missions. - the photographic equipment used by USAF for strategic Card 1/2 reconnaissance purposes.  86-9-36/36 Reconnaissance Units of the Strategic Air Command of the USAF (Cont.) - The ways the radio-communications between the re- connoitering planes and their bases may be expected to be maintained. In the concluding paragraphs of his article, Col. Kuzlmin offers also Soviet figures on the alleged violations by US planes of the air space above the Soviet Union and other Eastern countries, and criticizes the Eisenhower "open skies" plan as aimed simply at facilitating the peacetime air reconnaissance of the defenses of the Warsaw pact owners. The article is said to be.based on the information gathered from Western publications. As sources are named: "Air Force" ~April 1956). "Janels" ~1955-1956), "Canadian Aviation' (February 1956) and Forces A4riennes Frangaises" (October 1955). but occa- sionally-the author refers directly to "the experience gathered at USAF exercises". As far as exact sciences are concerned, the article contains no data of value. 3 drawings. AVAILABLE: Library of Congress Card 2/2  MOURA, Aristoteles; KUZOMIN L.F.[tranalator); FILATOVI A.I. (translatorl-j-X12-S~KET, O.Cp' red.; BORODIN, Tu.V., red.; DZHATIYEVA, F.Kh.p tekbn. red. (Foreign capital in Brazil] Inostrannyi kapital v Brazilii. Pod red. i a predial. O.G.Klesmet. Moskva, Izd-vo inostr. lit- 1961. 435 p. Translated from the Portuguese. (MIM 15:57P (Brazi.-I-Investments, American)  REVYAKOV, V.F., rou'ovsKA-"I, G.M.; TH,~'.y()v, , , A PANFILOVI R.A. Increasing the durability of --;n`ngs ir ~ nw-f reLpiin,-,.7 ' ri J"~, -'-,i C!! J~ ~ i .1 u - - channel ~Iurnaces. Tolvet. met, 58 no.8381-83 Ag 16%  KUVMIN~ L.I. Comparing the properties of quartzites from the Gvruch and Pervourallsk deposits. TSvet. met. 38 no.801-92 Ag 165. (MIRA AM  KUZIMINO L.K., inshener. '. Rapid unloading of local freight from through trains. Shel.dor. transp. 37 no-10:75 0 155. (KIRA 9:1) l.Stantsiya Prokhladnaya, (Railroads--Freight)  PA ;-"-IT19 UM/ChdMiAtfT - El"trOIGG, Irm Apr 1948 Chemistry - Powder bbtaUurg3r "Irou Powder Slectrodoe. I. The Effect of Dleperelon and Cmpoeltion of the Powder on the Properties of Iron Mectrodes," L. L. MitImin and L. V. Borisov&, lVanoTO lust 3f Chem Techp gi pp- "Zhur PrItlad Xhimil" Vol XII, No 4 Describes stMles conducted to determine properties of Iron powder and relationship of its character to nature of its formation by reducticn of iron oxides with k-drogen. Submitted 5 Ifer 1947. 75T19  H(MAKOV, V. G.; 1,MSMOMS, V. P.; MIMI, L. L. IM4IN) L. L. Tehnologiya Elektrohimicheskih Froizvods-tv (Technology of Electrechemical Production), Moscow-Leningrad, 1949. -t,7L 0.  ussR/Chemiatry - Irani, Metallurgy of) *k~ Powder Chemistry - Powder Metallurgy 'Mectrolytic Method of Obtaining Povdared Irm and Properties of Iron Obtained in This Mm sr." L. L. kuzlmin, V. L. Kieeleva., Ivanovo Chel~lco_ E-4 tech Inst., 8 pp -Zhur Priklad Rhim- Vol. =, No 3*311-18 Blectrol,vtic methods do not permit obta=rIg iron grains of equal size. When a -'11 q,~Autity of hydrates is released, it is noticed that. ir= deposited on the cathode Is active. Trivalmt, , : iron; power Is created by oxidation of. the ourface 4W USSR/Chemistry - iron, Metallurgy of, Mul 49 Powder (Contd) of iron. This process passes through all pointo from FeUto Fe304- Capacitances of alectr6dee produced from porwdered metal obtained by elec- trolytic method are not stable. Additiona,of mercury tend to stabilize the capacitauce. Sub- mitted 15 Sep 47. Lq PA  KUZ IMIN L. L. 62/49TRO Ch"detry Blectrodes "Hydrogen Owervoltage on Porous Iron," L. L. UzImin, V. S. Ivaaevo Chemico- tecbnol Put, 5 1/2 pp "Zhur Prik Rhim" Vol MaT, izo 6 511 Determtwe that bydrogen overvoltage is Omost 0.3 V less on electrodes vith surfaces developed metalloceramically than on smooth Iron. Submitted 29 mar 48. 6 2AM  A -T -11ilf-JO-7,710 5 -t- L--M- Pa. ix SO jrx4j 4 so so 38-34. Illevilmllft I ron Powder, W L. go V* and V. L K 61 S t 1 iselevaj chemicai " Ul , ep . 3, Pie'viously Abstr 9. . 320-322. W'frOM Zhur- al nat PrIlkladsol Xhimif 4ournal of A MUed Chemistry). See Itegn SES-17, 0o 11 B it N J3 IN v a w 0 0 4 it-l Lill RAI L&I CLASSIMATION ill-ii, -4K Q-V -i-$i,- u --- j,--r a 0 0 1 w of 9 a a 3 0 v SiATIO ILI" R AA P" O&WOK slams Kucc 1111tw U I I 0 o 0 0 ~400 q- *o 66000-46 Rso to  SOV/1 37-57-1-452 Translation from: Referativnyy zhurnal. Metallurgiya, 1957, Nr 1, p 60 (USSR) AUTHORS: Kuzlmin, L. L., Gunyayeva, M. M. TITLE: Cathode Reduction of Mercuric Oxide (Katodnoye vosstanovleniye okisi rtuti) PERIODICAL: Tr. Ivanovsk. khirn.-tekhnol. in-ta, 1956, Nr 5, pp 34-36 ABSTRACT: The author investigated the reduction of HgO in electrolysis during direct contact between Hg particles and the cathode in relation to the current density D and the cathode material used. A 500-cc battery container was used as the electrolyzer. The horizontal cathode was located on the bottom of the bath. An Ni anode was placed 17 mm above it. A 30/o NaOH solution served as the electrolyte. The upper surface of the cathode was coated with a uniform layer of HgO. Cu, Ni, and Fe plate5 were used as the cathodes. The electrolysis was carried out with I = 0.25 amp for 4 hours, the ratio of the cathode sur- face to the anode surface being < 1.10. The reduction of HgO with toA,D densities proceeds very rapidly. Graphs of the results of the experi- ments are submitted. Card 1/1 G. A.  SOV/137-59-1-551 Translation from: Referativnyy zhurnal. Metallurgiya, 1959, Nr 1, P 73 (USSR) AUTHORS: Filippova, L. I., K.uzmin, L. L. TITLE: Investigation of Cermet Electrodes Manufactured From Magnetite and Metallic Iron. Report I. Process of Compaction of a Two- component System (Issledovaniye metallokeramicheskikh elektrodov, izgotovlennykh iz magnetita i metalliclieskogo zheleza. Soobshcheniye 1. Protsess pressovaniya dvukhkomponentnoy sistemy) PERIODICAL: Tr. Ivanovsk. khim,tekhnol. in-ta, 1958, Nr 7, pp 69-74 ABSTRACT: The authors studied the electrical resistivity (ER) of compacted mi-x- tures of Fe304 and Fe powders of various compositions. It was established that ER depends not only on the composition but also on the structure of the Fe particles and on the relative sizes of the Fe and Fe304 particles. ER is at its minimum at a 400 - 600 kg/cn-12 compacting pressure. An increase in ER is observed when the pressure is raised to 1000 kg/cm2. I. B. Card 1/ 1  SOV/137-59-1-552 Translation from: Referativnyy zhurnal. Metallurgiya, 1959, Nr 1, p 73 (USSR) AUTHORS: Fillippova, L. I. f Filippova, L - I., according to Index], Kuzlmin,L.L. 0_1~ TITLE: Investigation of Cermet Electrodes Manufactured From Magnetite and Metallic Iron. Report 2. Process of Sintering of a Two-component System (Issledovaniye rnetallokeramicheskikh elektrodov, izgotovlen- nykh iz magnetita i metallicheskogo zheleza. Soobshcheniye 2. Pro- tsess spekaniya dvukhkomponentnoy sistpmy) PERIODICAL: Tr. Ivanovsk. khim,tekhnol. in-ta, 1958, Nr 7, pp 75-86 ABSTRACT.- The authors investigated the effect of the conditions of sintering in an inert atmosphere on the properties of the electrodes made of a mix- ture of the following powders of magnetite and Fe: a) 80016 Fe304 + 20% Fe and b) 60% Fe304 f 40% Fe. It is established that during sintering, besides recrystallization, a chemical reaction takes place with the formation of a new crystalline phase, namely wUstite. An increase in the temperature and length of sintering time decreases porosity and elect rochemic ZLI activity and increases mechanical strength and electrical resistance, Elect rochernical activity depends Card 1/2 not only on the active component but also on the strength of the  SOV/137- 59-1- 552 Investigation of Cermet Electrodes Manufactured From Magnetite (cont. ) current- conducting skeletal structure and depends but little on the dispersion and activity of the Fe powder. I. B. Card 2/2  50p 2) SOV/153-2-4-20/32 AUTHORS: Filippova, L. I., Kuzlmin, L. L. TiTLE: Cermet Iron Electrodes j . for Alkaline Accumulators PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Khimiya i khimicheskays tekhnologiya, 1959, Vol 2, Nr 4, PP 573-577 (USSR) ABSTRACT: The accumulators mentioned in the title which are produced in serJes are usually provided with an active mass enclosed in a thin perforated metal envelope by means of electrodes. Thus, the electrodes gain mechanical strength. Morsovetp the access of current to the active mass is thereby to be ascured. This construction# howevert has a principal shortcoming: the envelope mentioned does not secure a uniform current supply. At the same time, additional internal resistance is formed in the accumulator causing an unfavorable effect in the dis- charge of the accumulator by a current of high amperages The production of electrodes Without lamellas for alkaline so- cumulators (Refs 1-6) by using - cermet products has recently been attempted. These electrodes can be given new valuable properties by the sintering of iron electrodes from active iron powder (Ref 7). The practical utilizatiori Card 113 of this method shows certain difficulties: the eintering has  BOV/153-2--4-20/32 Cermet Iron Electrodes for Alkaline Accumulators to be carried out in a reduced atmosphere with accurate observance of the temperaturej otherwise the quality becomes inferior. It was assumed that these shortcomings could be eliminated by the production from a mixture of iron-aAd iron- oxide powders because these have different recrystallization temperatures. The strength of such electrodes is then secured by iron sintering whereby a skeleton is formed at comparative- ly low temperature. Iron oxides having higher reorystallization temperature, howevert will maintain their activity under these conditions; and thus secure the applicability of the electrole. The paper under discussion is devoted to the investigation of these problems. The powders mentioned above which had been carefully mixed were briquetted at 600 kg/cm2l the briquettes were sintered in nitrogen atmosphere at various temperatures and for a varying period of time* Figures 1 and 3, respectively, show the discharge curves at various current densities and temperatures. Figure 2 and table 1 show the capacity dependence of the electrodes on the discharge tem- perature. Figure 4 shows the dependence of the electrode capacity on the duration of oasehardening. It was found that Card 2/3 electrodes of powdered Fe3 04 + Pe or P203 + Fe have high  BOY/153-2-4-20/32 Cermet Iron Electrodes for Alkaline Accumulators electrochemical activity and sufficient mechanical strength (Table 2). These electrodes have a higher specific capacity as well as a smaller specific volume as compared with a usual iron-powder electrode. They can be shaped more quickly, and work better under hard discharge conditions. Thust they can be used in starter accumulators. The production method of the eleotrodeo suggested is much aimpler than other methods. There are 3 figures, 3 tables, and 9 references, 7 of vhich are Soviet. ASSOCIATION: Ivanovskiy khimiko-tekhnologioheskiy inatituti Kafedra takhno- logii elektrokhimicheskikh proizvodetv (Ivanovo Institute of Chemical Technology; Chair of Technology of Elea trochemi cal Industrial Processes) SUBMITTED: May 13, 1958 Card 3/3  FOBEDINSK.TY, S.N.; BULYGIN., B.M.; KNIMIN, L.L. 4zz~ &Yhavior of magnesium anode in galvanic cel2s, Izv.vyseucbeb*zaV*; Iddm.l. khim.tekh# 4 no&6.-1006-1010 161. (MIR& 15:3) 1. Ivanovskiy kbimi oe-tekhnologicheskiy ijastitut, kafedra tekhmlogii elektrokbimicheskikh proizvodstv. (Magnesium) (Electric batteries)  BULYGIN, B.M.; POBLDINSKIY, S.N.L KUZININ, L.L. Anodic dissolution of magnesium in oxidizing electrolytes. Izv. vys.ucheb.zav.; khim.i khim.tekh. 5 no.1:120-125 162. f %MA 15:4) 1, Ivanovskiy khimiko-tekhnologicheskiy institut, kafedra takhnologii elektrokhimicheskikh proizvodstv. (Electrodes.. ~hgnesium) (Electrolytes)  S/l53/62/OO5/Oo6/ooq/oi5 E071/E333 A~THORS. Pobadinskiy, S.N. and Kuzlmin, L.L. TITLE: Anodic behavior of magnesium in solutions of some salts in the presence of an alkali PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Khimiya i khimicheskaya telthnologiya, V. 5, no. 6, 1962, 954 - 959 TEXT: The authors investigated the anodic behavior of magnesium in solution of sodium chloride, sodium bromide, potassium iodide, sodium sulfate and potassium thiocyanide in the presence of an alkali in order to study the possibility of decreasing the unproductive consumption of metal in magnesium calls. (autosolution of anode). lirtroduction of a certain amount of sodium.or potassium hydroxide into solutions of sodium chloride or sodium bromide sharply decreases the rate of autosolution of the metal without noticeable change in the electrode potential. Salt solutions in combination with alkalis give better results in cells at low current densities. There are 5 figures. Card 1/2  S/153/62/005/Oo6/oO9/015 Anodic behavior I ... E;07l/E333 ASSOCIATION: Xafedra teldinologii elektrokhimicheskikh proizvodstv, Ivanovskiy Ishimiko-tel-chnologicheskiy Institut (Department of Electrochemical Production Technology, Ivanovo Institute of Chemical Technology) SUB1141TTED: May 23, 1961 Card 2/2-  L 11057-63 EW~(q)/EWT(m)/BDS--AFFiC/ASL~-JD ICCESSMN Ms AP300(Y+76 S/0153/63/006/001/0119/014 AMORz Lukomskiy, ju. Ya.; Kuzfmin L- TITLEs Study* of the effect of electrolwis conditions an the adhesion of a nickel_ coating to an aluminum base SOMM lzv* VM Khi~dya i k%im. tekhnologiya, v. 6, no. 1, 1963, 119-124 TWIC TAGSt electrODiating., chloride ionss electrolyte,, HaF, K sub 2 S sub 2 0 sub 8 ABSTRACT: The authors studied the adhesion of Ni to an Ll bass under various con- ditions* Mi was plated directly onto Al. with no intermediate lays-- of anothe-z metal. It was found that the passive tilm, on the Ll surface -was chiefly responsible for preventing good adhesion of the Ni coatirq. Zlectroplating carried out at, tem- peratures ranging fromm 20-70C showad that at highter temperatures and in the presenaft of chlorides,, the quality of the material obtained was unsatisfactory as a result of Interaction between Al and chloride ions in the electrolyte* To elimi-riate iater- ference with the adhesion of Ni$ the authors recomand that electrolysis be carried out at a high temperature in a bath containing W and K sub 2 S sub 2 0 sub G* The material should be heat treated after platinge By this method.9 good quality Card 1/2 ------------  L 11057-63 ACMSION HR; AP3000476 Hi-plated A-1 can be obtained aver a broad range of conditions,. Origo art* hast 6 figures. ASSOCIATION: Kp-fedra teldmologii e1ektroZAm1cheskikh proizvodst7s Ivanovskdy khimik-o-tekhnologicheskiy institut (Department of Electrachemdeal Production Tech- nology, Ivano-rskiy Chmical Technological Institute) SUBMITTED: 3jFeb62 DATE AM 21J=63 =L; 00 SUB CODEE: CH,. ML NO RE? SGV-. 010 OTM.- 000 L/42 ------------------  LUKOMSKIY, Yu.Ya.;-K-UZIW.N.,j.L. . Electrolytic nickel plating of aluminlim and its alloys. Izv.vys.ucheb. zav.;khim.i khim.tekh. 6 no.4:637-642 163. (MIRA 17: 2) 1. Ivanovskiy khimilko-tekhnologicheskiy inistItut. Kafedra tekhnologii elektrokhimicheskikh proizvodstv.  POBEDINSKIYI, SA.; KREST(YV, G.A.; !TZ,IM.IN,,-:~-.L. Possibility of electrode processes taking place in the presence of the singly charged ions of alkaline earth metals. Izv.vys.ucheb.zav.; khim.i khim.tekh. 6 no.5t768-773 163. (WRA 16212) 1. Ivanovskiy khimiko-tekhnologicheskiy institut, kafedra tek-hnologii elektrokhImicheskikh proizvodstv i kafedra neorganicheskoy khimli.  a-, ~e Wn ABSTRACT: Copper coated polystyrene powder would. dplive prr!fabricated particles for the elec"rical conductive whIch cam be more e4aonornical  wim ettianol, degyreasirig Ln 151a nnt;qczrl~lr-l  Hum W-7 OMM  'E W~- L ACCESSION NR: AP4025262 S/0153163/0061006/1002/1010 AUTHOR: Shorokhova, V. L; Kuzlmin, L. L. TITLE: Production of electrically conductive plastics. II. Properties of plas- ties prepared from copper-coated polystyrene powder SOURCE: IVUZ. Xhimiya I khimicheskaya tekhnologlya, v. 6, no. 6, 1063, 1002-1010 I TOPIC TAGS: electrically co'nductive plastic, conductive polystyrene, mols- 0 i -ture. absorption, forming temperature, forming pressure, residaws dmelpst"14 size, resistivity, continous conductive film, AMSTRACT: Preparation of electrically conductive plastics from poly,- styrene powder coated with a conductive layer of copper has been studi*d,, The effect of the conditions of preparing the material 4~mperaturb, forming pressure, rsaidence. time) on its properties (resistivity.. echanical strength, density. and mcfature abaMt1m) ' Wab studied. The effect on the electric resistance of the particle size of the powders used in the preparation of the sam-, Cc'r-~-, 117  11'ACCESSION NR: AP4025262 ples is indicated inFige 1. As the particle size of the polystyrene is reduced a limit is reached where a given weight of copper (the tests were run with 25% Cu by weight) cannot cover the particle surfaces with a continuous strong coating,' At this point the electric resistance becomes much higher and increases signifi-~ cantly with increased forming temperature. The mechanical strength of the formed polystyrenes increases, with higher forming temperatures; the strength :i of samples made from pure polystyrene is higher than that of "mples, made of I copper-coated polystyrene. The density and the water absorption of samples formed above 120C are constant; 100C gives'a completely uniform mass on 2 forming. Examination of forming pressures of 100-700 kg/cm andvarious Periodsof residence dufLing froming showed that compact masses were obtaineJ at a 2 P _-l-,wassure of 100 kg/cm and a cycle time of 10 min. Increasing pressure or residence time did not lover resistivity or enhance mechanical strength of the sam- ples. - The effect of parti6le size on the resistivity, strength, density and water 1; resistaAce.of the samples is summarized in FLS.2. Fig. 3-shows the minimum copper content to form a continous metal coating on the polystyrene. surface (with 2000 micron particle size) is 15%. With increasing copper content the _CT.  ACCESSION NR: AP4025262 resistivity decreases; -the mechanical strength decreaoei, then levels off; the fusion of the polystyrene decreases; and water adsorption re- mains constant (Fig. 4) The plastic material obtained from copper coatect poly- styrene has a resistAvity of approximately -one ordet loss than a mass containing the same amount of copper in finely powdered form. Orig. art. has: 8 figures, 2 tables and 2 formula&. ASSOCIATION: Ivanovskiy. khimiko-tekhDologicheekly Institut, Kafedra tekhnologl elektrokhimicheakikh prolzvadstv (Ivanovsk Chemico-t logical Institutes,, Department of Electroobanical Production Tosobnology7*W SUBMITTED: 11Veb63 DATE ACQ: 10Apr64 ENCL: 04 SUB COD HT NO RE? -SOVs 003 OM8jK1- 000 ATD MM s 3044 ;'Card 3j 7  ACCESSION NRt AP4025262 ENCLOSURE 101 '7 . ......... 7 J2 0 'w Fig., 1. Effe et of forming tam- perature on r ' esistIvity, of Sam- L ared -plea prep from polya tyrene vith average , particle size, IAr? 1 - 1206, 2 342, 3 1260.-4 ' 2000 (forming pressura'100 -kglcm dvall t~ime-10 min, Cu conts nL 24-25Z . Extrusion temperature C Ca rd 4/7  ACCESSION NRiAP4025262 FW W lie. ENCLOSUREs 02 Fin. 2. iffect of polystyrene particle size on sample proper- ties (forming temperature 160C. k 2 pressure 100 g1cm g copper cone tent 24-25%) urear.'Lngpoinvj Mg/cm-6,J water kb*' AN density$. gm/cm 4 sorptiow;)x 9). '011~ Polystyrene Partial* size, Micron, Card*5/7  iCCESSION NR: AP402$262 ENCLOSURE: 03 of copper content on fig. 3. Effect .1 .4 1- 10 1e properties, obtained with pol samp styrene with average particle diameterL of 2000 microns (forming temperature 160C. forming pressure 100 kg/cm2 790 dwell time 10 min,) f - ~S 1,- Resistivity, ohm. cm, 2';- breaking 2 3 oi't 3 - Aensity. gm/cm kg/cm p n wt , . wate'r abooprtion, t V - 9 .4t P# 40 V . C pper content, Z 'Card 6/7 0  W a Rill ACCESSION NRs AP4025262 EXCLOsuRz,04 ;4 j 4. Effect of copper content on Fig. sample properties, samples obtained f u J-!d from polystyrene with averavo particle diameter of 342 microns (forming tem- perature 160C; forming pressure M me ;J. kV, 100 kg/c 2,dwell ti' 10 inin.) AV I -- ResistUvity ohm. cm, 2- breaking point k;/cm2, 3- densityb. 3,* M N J~_40 -je-MILJ gm/cM 4 Vater' absoprt'i'on, Z' Copper,contenti, x Caird'7/i St- J.  KUZ4ffN&, A.V.; KUZ Behavior of the aluminum awde in galvanic ceUs with an alkal In electro- lyte. Zhur.priklekh"-'36 no*2-.356-36-2 F 163. (MIRL 16:3) L, Ivanovskiy',-?Jitdko-tokhwlogicheakiy institut. (Electrodes., Alunimum) (Electric batteries) (Alknlies~  NEMODRUK, A.A.; KTJZMRT, L.I., Behavior of a positive pressed electrode of a cadmium-nickel accumulatoi.--, Izv. vys. uchab. zav.; khim. i khim. tekh. 7 no.2-.263-266 164. (MIRA 18-4) 1. Tvanovskiy :1 IIIYI-17b-i-~ -1,  v 1ACCESSIOU YR: AP5oo655T S/0191165P=1003/00SVO025 AUMOR: Shcrokhova, V. I.; Kuzlmin, L. L. -7 5~nn-.- nnnniartipi7. :-7-,f-.dUc:t.(',(e -,,OlY-lt-;-7eTl2 smd nickel f'i 1 le d. wt hcomer flakes wais one order of T, a gn i t u d clower t,,ar, that of the same  C~!  Resistivity, ohm-cm-, 2 bending 1 4-91 it ~  ego**** 0 16 it IV a Vw to it IP AA 0 1 41 0 ferikirmulde by olloctiolytic oxidation of pul,im4111n, (pr do is &J"Out swittloot, V. K Wrothav AND F L. XVININ. til"11 10,11 19, 181 VNIn (kirmAn IM 7XIlk0h; cl pmer,11itig jbi-or Olk"tion with a 11if cathinfe wilikKit a (flaphraxot it not vmmmltrol With a .11.1 6' the twat e a giving "4rly l(x)'" curvilt CMCIIWY 14 1) 1111 A 4.1,11 ~-'l I- . : ; 00 with thit r if the alky tit ,1w cowle &4 it IN-mly 44-11.1 Ill, -111-14 jNI'V 'A.046- the m1trial (if indiwwri-im, tit tit., hit,-, .00 with a fix colhoilto anif a N1 anoodir the twoln. at the an,wlr olumild Ito L,-I,t alk . it it 1. .00 drilhM to krolp thboWn. neutM. Ill nititt tie subitituted for Nl~ there4olliarrint.0 closet the mum. The flnW oonen. of ksl`e~00. is Increaved by qatn )( Ow 2tifoife, 1.4o .00 outside of Ot anodic vace. 71w process has twen caffird out cootinumaily F%ptl z: resullt are rivrn in 11 tabim 06 j a gee d of we 0 tie* t:09 0 140 0 r '71 0 At a '3 i tt I( x lit 0 0 o 04 91 IV so I$ I IV to to IF $9 it 6 Ito o a 0 0 0 111 0 so 4 4 0 0 O'o 0 9 0 0 0 O'o 0 0.0 0 0 0 0 0 0 0 o 0  08i 001 0 00 00 o0 00 00 04P OIP 00 in a 0 0 0 0 0 0 00 so* " or 1 0 a 0 V 0 . .40 ! "gin " I_JLIIIAA I o lot .10 jf* yq"foq --to 0 Ab 0 -do 0 '-00 .00 mad a 641116111ris 111~ V. F. you'romw AxuL.LXvjVvtx, J.AWWCkw.(U.Itk;. Fm_409v).-TI*N*t"w 1 -00 H9M + 2H0 am Au&4 tor wwYwg tbt &111100. .00 "m del. of I of the qwwmy di aff, 0 ..4 sum 4d 94 .00 am tm "0-= -mrord ww "X; " ohm" t1w catairtk: of a. RXIMIIII of Cie mpeow Ow pwk, of 144M kwmrd. V. KALACKINVIMW M 660-SLA SIT"LUMACCA LMRATWI KATM CLAW SIT1411190 __ - - - - %oitoozi At env Got 9141" 101 q -V I ; j F U. 9 AV 10 Is oor a a No it at W a Ill Joe S-9-- ts. a - 1. ZIA g- 1%. oo a dow *0 =00 Zoe  f 4 1 0 1 a it u u st to is u, 4 ?t N 11 a m a A A It x v At a Ad a a 0 is a a it a a a O.C to -1. ji-I v f 4. -k-t, I - s 0-0 0 0f 1 -00 -00 -00 *0 -00 60 1 The qv*dW of pwifirAdw of nlhw.bvnw pus *0 MWRM9 wealms o" by Oewbbkg ft IN mgwk add. 0 600, 00 a V. P. PeAvIlLow, L. L. Ku=&W wW N. K. Varob'cv. I A ()M. food. (stbab-Owr'".-HO. 9. 5".-The hot *60 pamed throucb 77--79% HpSO4 and then th 004 Macid. 140isautanowtWaiencygmalv%mt. Them, GO* ,I Aft()~ mW SOv rtvav"rd hom the add Is wasbed mpidly *18 with Hit mW oriv" tws"imlly purv Ao.().. It. St. L. 0 00 0 t$ to 0 boo 4L A 1, S. L A ttALLIJACKA L 111RATtAl CLASSIPKATtOX i Isom 11" 1'.. 11*0 *0 wit Q-( Olitiled io b u v At mc All; it a a It IN KID A 1 6" 00000010000000*000000oeoeo;oooooooooososooo0001 OT-44 00006010*00000*0 a 0 0 0 0 0 0 0 0 0; 0 0 0 4 0 0 4 0 1 0 0 0 0 0 a 0 0 0 Oll  9 U 0 X 9 0 MP 4N 0 a 0 4194 00 4 so 0*4 00 fe 00-3 f1welfat Aid -it ue~Wc 66ni iuWmrk add GbcW abwcvdm In rAphuric Mu. V. L IMM. am N. R. VOKWOT (J. Cbew. Rm,-jWj4','N9. % " -The w4abihis at, 'N w1j. 2 a !&Is wa (Q JwMM W1 the temp.. a dto MM d1i OOMM d (1) tO 0% fWG 60 A WAX. at "% "A aft fab spilL go, !:br, ta is but fmd bm*O~~ tj~f= a wn mt"9% t 11) as Imad tthw%* s anoad wnbber 31% R. T= impstai" fwn the oocled acid amt4ho 66% IL T. Ate-SLA WTVAMMAL MULAT9K CLAUVXATM *000004 0 0 0..o 0:: 0_0'#'G~O;S~q *00 00 .0* ZOO 400 9*0 goo see gof, qoo 00 00 00 boo sedw Not" NOW Mail M a" All 04 -A& load* asivilvale 30 IZZ 00600000000000000001 0#0t.009040000*00000A  rj 00 00 06 4 to 00 00 so 0 00 ie 000060 00 0: 14 %4 %1 10 W 0 " --11 - p - a - - w - - ii I a D , 3 - I ~J'v .1 ~-LlTii 16X T-Org -$y .-F Jw_~.'-qfgs sit' AM Peep Ohtdh1ji4 sulfur fmm cattim V. 1- 040 1 C -06 lNihithMV. L, L, Ktto'mI 1-119. K401.1v 1, Che". joul. No. I. tj I.- I'sill't .%mfg. C 1. tittled wAtb Nit! and heated to NXI-ftim* In a *tmxtn of Sm dEGrkmt in CL Frm 8 e4 f-vused in yis-kils q4 .0 :1 Layer of pyrites AMLM be "ther thick. Ami tht -Yalte of pwroing the gas high. At the torOrning of Me rr- -0 action H,,i is formed from the HjO in the reactants. As theCisu"up.50itorgimfol,orm. Arontinummspyw-t-so with dry re-wo ettm iq threfwr rvr-wnm~rukd. .0 0 A 14. L A &ItALAWGKAL LITINATWI CLAHVICATION Bit I venals -4- 1 11111040 to a.. oat U : As to It p I -r a a T .. u4 a t 0- 0- 0-t : lot 011 60 a 0 0 0 0 Op I a 0 0 0 0 0 off 0 0 0 0 0 0 0 a 0 a 0 0 0 * 0 0 0 0 6041 A 0 At 0 to &0 0 tit 0 m0 0 so I -Iij 0 a - -I w 0 -1 p- awl 000000000000 0 0 0 0 0 a 0 0 0 0 0 0 0 0 0 0 0 411  03 11111juns U4 tomilin visa AVAITIM31 UU140 h a a p 4 It 4? 43 44 a 1 1 -f__k_A_j_L_L a F 9 1 3 t y L -1 -1 1 - I &A 0 CC 0 a t of ,r lor.tof (I -KII -00 A: 110 -00 a: -00 /vjac"doa of fi=Wg and U%ftd sulfurls acid sad -60 imAm WW#. V. F. Po"kov wid L. L. Kuit'miv .00 Kkiw~~#l 6. 527 40434). --Tabula PtcA%TUMW-kX1W- 0 'fli 600 :0 101do 170*and& wide ronvolconcm. Fortheviwosityb zoo of dil. 11AA cf. Rbo&"W Rabours (C. A. 17. 2W7). 00 Cis". Maw GOO 0* age 00 7, goo 04 21 ire 0 0011 06 00 fie A I I L A ETALLUP.GICAL LIT194TURE CLASSWICAMN U00 00 too -T _v~ M OF .1 R U U fit MW A I go And, 0 0 4p 0 0 0 a 0 41 0 0 0 0 0 0 0 0 0 01; 9 0 so* 0000 0 0 0 0 4 00 so  0 ~90 - ~ Wo a Fee . 1; 11 is 0 ~l 14 U11 1. JU P r D M 15 A v 1) w is A, v &i A f 9 9 1 v y A-A. I-I A4 N cc tc R, A P 00 , 06 -00 V. r. Postnikov. : 4 I.&M, Feb. 221. iMa Gbimtrd with emwd. H.%V. 0 tw JjJKh until It Ij ;;ityleldy &mAytd. 1* 0 a. see goo -4* 410. di !we jp 40 ii AS* 3L. -tl*LluPfKAL LlYfXAT"e CLASSIFKATION t i too e, A *V" ss 0 MI 00060 so 0 9 000 0 9 0 0  *S! As I d 0 a 0 a if Q it W 16 It 0, 1, 814 NOUN 49x0441 444 *i _4_1 ~ t-a-L-4. 6 .4 i__v J_ 8 -AL-1 -00 tt (4ofel Rum, 00 44,232, Ftpt. 30, iTj3, (Nlf,~sltlf . ~)j .~ 4 OrAn. if heAled undtf pfebute. 11W a 8 that mp, is draim off, likewise under pressure, 71m pressure is tt~ea rd=W J, &HOWL't tO cy'P. until N11.),S0, crystallizes. to 4 so -31 i Ago* 0 -4 SO 906 zoo see A; VI v.I 1-00 o" Is* 'z ;q AS4.1LA AtTALLUPWAL LITCR IWE CLAISWKATIGN aii i';' so U AV F0 v r-q-j--vT r -r-y-r-Tv '~j r- I (W a 0 a I W It Y-W-7-W is , I . (I . :. 0~ IT44 0 No 0 0 *L' 0 00 " 0 0 & 0 on 4*14" One,* 0 *0 C04 00000 00*00 0 0 a 0 a 4-0-i so 0 000.00 : s 0 * 0 0 0.? 0 0 0 0 * * a 0 0 1!4 6 0 0 0 * 0 0 9 0 0 0 0 0 0 0 0 go!  0 & 010 0 Is 0 0 0 - 0 e 0 0 0 0 0 0 0 o o o 0 0 0 0 0 0 0000000000086;,Ooooooooooooooooooo!ooooo:o 'Ito a c 1, 9 6 11 X L a 0 0 u on x 31 u u u a x v x 43 Q a &A (A f A- t- . 1 It 01 AT a n 0 m It'll. mz dl~, -c,tmt 00 ..Tt-LI -Z-3 lonlysilli 1INW111,11. T1110%v % tt 002 "1 son 0 0::1 0 get 00, go= f oes 00, 00- 00-i 0 41;;r~ ato o 9 o 0 o 4-ttiff-H 'Y Y "04% PUP MINOlu"Ird 00 00 %mdujavpAjajajduAc&sWjjIOH "WAH11PP"'ON11 it 00 00 -pmo3 ul pdtuo3jp 1"q" of it *Oaffvw Pon TWI noo 'J"JoOmmaimalpg IMM ()Nlf Tp 1111mal 2111 n 0 0 e 011114*aj I jolly IN in wimns 9 111 d Pill IN va"11JO ma ^ a II fullAult'lidulosp 11111ildufm UW3 1 A)dlf(c + HH9 - O l I q I P P 11MI411M *fYst VIIC I + ONff III IUIPJO"v 'Poe 1 paApt;%IpAp)ajdtw3$1I!.M1V -.081-11"bl"APlun r 0 *Ooil Ag NAPIMP W3 PWO PM31119 IOU 11 INtd THN 700 U! Vd X-T-q) POqPtu NVIIIIS III fu Ma Im Id Pow JOWO !N) SISAf"10 jo aMsUd Mp V! -1-4--!p a00 utlilm 3qj Aq ON pill d UMIJ pan JUAS 3111T6 )0 0 w 8, '? r ~ 10 0, - ..,A -.1 Wqj PP P" "V91111,04 O r Pay, sairaismadal -OPPIP mli~ : 00 00 114W 4811424.104 ally M11juit'l 00 4-( ii.v III 0 I 0 0 0 0 0 0 o 0 q 0 o o 0 o 000 0 00 Ab AD Ah Ah.  1111a I 'A 4 0 0 0 0 0 0 0 0 & 0 a 0 Ills 0 0 0 0 0 0 0 0 0 0 004 0 0 e 0 0 1 1 4 3 1 0 0 so it I:iiw Isis It to if D is"XIN Ifif 1: 1) w a he 1) a m a; 41 a a 40 0 f: A.-" A P Q A J.-I A M V, M W", ist 1~v P.0f.1 7%0 feaction at seeitt" dioxide with water vAdef licensers. 0 0 R 09 L1 0 0 00 0 0 4 *0 L. L. Kier'neles and V. F. flastnikose. 1. Chrm. lied, rumilltv", A71 rah-rim I Alm that in the kwerstatkirs of HiSCee and 8 lions ';CN and 11.0, Itre-Atues c%miting " alm. sa-rd not Lw u%Nt. Usipts. Atm that im-triewrl te"Its. fewlsi the In a "Icel tube at XN)' an appiow. to% snums. of 3(), fra,I. emupirtirly In W brem. A smaller vri. el gas istsiviest tber liquitt is Wplul. lluwvwr. H tomes abuse escii.ma mail no that as If SO is A n d th di veree e erea C . s m y, rate falls sharply. Ills effect nm he pankilly awfareamw I l ,v vwrm~iiirss she prr4plav of SO, In the OAS., but eversts riff,it litloill S(h In added to the tulve the veressit. frown sit C.0 0 whierb "if Iw obtainesl Is 2.5%. 8 asset Ner act wi =00 visialvists mdv at I,m lemps.. nod (Mlldi4lt Is 6111, 1~11- Mus. attlessugh the 3 which Is famtd I% vrry Insist. the Z** r~iimi has liffe.itatiefirs4. A beffert userthfel is lei u9c a %411 fit anti rrwt %ne,withiv Its furni, iNHOr~4h, 'I ant) 11.0 at rerialivelv X* Ills trmp guil ift anie, emwit It. 11.11. Ije-ir-firl A ilk* tf .jj,~- b I v '?A Is It 1 94 t, it ter u it % a if 09 10Z o 0 so Gio 0 o o 9 o 0 o 0 0 0 0 0 0 # 0 40 0 SAI 0 0 00 0 0 0 0 0 0 0 9 * 0 0 0 so* -00 too An I a Cw a w a. as* a If A- 111, 9 0 0 0 0 0 4 0 00 0 00 00000 0 0 0!  JL Goo SIMULTAMMS PRODUCTION OF SULFMIR AXD AWN- U~UTI By LACOWNITION OF AWMMI IUM su Goo &ULPHITUS UNIDEk RMLOBe L. .~jjkqWv (J- '~hm- so a Ind. kuss., l9W# 139 411-418)'o-Theorstioal YW44 so* art obtained in the rotation 211~,003 (1)6(1%)2803 so 4r ->20%)2800 (111)& 5&%0 (W min. at 200-300 th 001 3 i e Usint Cana* solutions of the substratest with inoreasin idl t 1l i , 0 6 e s rap on volacity of the reatt g y 00 0 dilution. An industrial-scalo prooO84 to desoribod. 00,3 Low yields of 5 are obta'ned when (II) alone Is useds t1w 0 0 rsuation belints 12(U) & 004 (UHj)2S30C, & 2(IM4)26903- R. T. &$*.It 151TALLUOISKAL WHOM CLASWICA11" U U At 0 19 It 4 0 0 0 0 "s 00 00 '0' "s' *0 o oo o o"62:04 ease 1060046600*000 1 . A AA L t 6 OW 0 tw a I ISO ON1*0009900*000*0900 w0 00000000*000000000 ip, 0 0: :0 IMI* .00 1-00 coo goo ZOO goo see too U00 goo 1900  Is It of IV I* a' id a is 1? 0 0 0 46 Q 4) 440 A A. ME; --law f ~.J- 00 sell -00 '00 OwWa d On" Nsimkb by WOW md GdW- a' 1 a*% see SWIPA% ud voubd =A A41A Ammobs Web* PA L L Sumlo jjAsr, KAjoh pnmjAk fj. Ckm. IPA~ see HKW I& 847-m I DM. Mci~ Abe., IMMS2,49).-Ilm Rmkml In 00 1,HSO, + (NH,,),80, 2( + 8 + H'O' at 151y- 40* mution 21q1 4 to o6rTualm by tin"UJIM; pktLntLm WA 2w a. gom is raw" dLrmiuw an alm"t estimy go; am slamwtim, tin. Id-, nkkel. and -oded. Of nwiamo m&te&6. chrovilm-platad see mdmium am MOd1Y MA CortaJA ratkM A5006 an aWtable for mactim 11000-8. 0. 004 go* goo A 1 0 - I L 011 A6LLIJRGKAL LITERATLA9 CLASSOKATMA via., IV 0.9 449 An I I a 0 13 43 4 3 4 1 u 11 19 it it 2 It I 0 * 0 0 0 0 0 0 0 0 0 0 0 * 0 We 0 0 0 0 0 0 0 0 a fill ~04:4 '00 0- Voo Soo 0-0-0 # 0 0 0 0 *--Oo 0 -0. obi-o-oo- * 0 0 0 0 0 0 0 0 0 0 a 0 0 4 NJ  OOW~ so& 'it go Sol a ft v 4d too ------ PMK91141 AND 02 Otxl-lk 11441 wA N. IL Tum (J. CbrmL ImL 1348--1350).- 41VW!O~%R. ~W Arp""d . . & wbift Sion is abohid 16 Maim '- -*- with i ;= amft am NO Is i of 1!!W of dw milftre, wIft bi 0 but aar"lont of R. T. coo woo I A, A Id TALLMUCAL WIROM Ct&SWKATIN low 41T.611WO a low 5*0009 -9 gh 'a u 0 AT 10 woo" a 0000 0*1010, Ifte;gs 0 0 see  IrM" MR ,l la is 10 ly a 31 a if 0 11 LAI k . a L A-AL-1- a 1--I- Avg a- A--& A 049 Refivue" At mwmu pbos*te with O"um fullato And V 06 - F. Puktaill"lle 'min, N. N. Kwabov and U. N. M ~ 0 ". J'ark. Itaxam (U.S.S.R.) Mishhan, Tres"I' M No. 1, 42-7(1939).-The possibility of PrWuLing Na A pboaphates by mactim cd Cse(M)i with NOISLN and Nal- zich in aq. sat". at high, temps. was dttd. Adefiniteaust. of the compoont* W" placed in a glaw tutm uW heated in ti b h th h l t A f on e reac e u t t t e Clu o t a lububw dw. *veil. was 00oled GW I he Cowlents were Mulylod for PA, With an Optimum talio of 1.4 for W)' I a th At bkt d d P . e . w ~ M rcomp OOt won Cas( cTp droompa. declim".shily. In the exptx. with N&IL*U. j . was obimincil wbvn N&IISLI~ the ben decom1m 00 , was 4, 1, temp. 100., and time of braling 0 bra. %1CLI- tempa. the decompts. decreased. Theformaticts Q( the vol. piwatihates was favored in dd. "in. cunta. 2% 041 N0118041 00 a the docampo. Hxpls. were Also awde W PbOAPIV-Vitv, dl&dtitt CQOCCW AtC. and btMt MM With 001"A. CU01g. 414 s Wl' N4LHS0a and a NaIISLk-C&*04A), satio of 4:1. In t" cu" I., the dcotope- with na,'ce"ing tvmp, The toWvftg max. rmilts wem ubtaiwd~ ~I) spatile declompil'. 66.9% MOW% (2)bunctresideompa. ' ; and (3) phosphorite dtcompa., d7.0% 17.0% at IOU 1 V. Z. Ramich At W. Al*~SLA AITAkLUROCAL U191141UNt CLMOKATOG" u A, to a F I v a P a a a a -.&,A _4 IA I I a ad a N T I Ir At I a a I A IF o o 90 .00 -00 .00 .00 -04 .00, 00 a-* ago 9&0  At I& to 21 v n j# A At 0 4 )v 10 h V 13 M a It V so JO 6, W it 0 1' 0 00 A -V J-0-1 U.1- AA 10 It 9 1 t i, volt.1 14"Astel of -60 00 PrsvpGradom ad vultur Rod ammonium WUMO hs the I 00 ti presence o11 a caulya. L. L, Kutmift and V. P. Losev. JI'IffW)CkM. j11,11 - Tn-Tv(in C.Iman. oo a MIMI 9W ; Cf. C. A. 30. 4". 71071,--,rbe reaction .0 0 2NUJISOs + (NHJ*~Ot - 2(NlWSO, + S + 110) 00 oil --o 0 i I was carriM out in the preftence At( So. 8 and a catalyst fir obtainittl by heatius (NIIJO), to 9M)". Sr or S was f1. Gutty pound M4 pa-ed Wough a 1K..vn with FAM .04 Ij* upevings per sq. rmt, Me requirrd amt. of the raWyst 9 a was then shaken in a 110-m1. meamuing R&A for 10 min. see 010 withtitesoln. Se was completely dissolved and the win. be- came tnumiartut and acquired a brownish color. The 00 cat&, 'himutfate and polythionatcS " prelkl. us 0 by nevtral mued. soln. of (Ntf,).S(IN for I hr. 0 rellow qWu. obtained was added to the Vi Itamon IIIIILI, rhr with4"it atsit,sts at tiw is my slow,, *bib in ifie prestrurr of ratal"Is undry thr 00 abo"coudit;msitamimintsto&15%utgization(A5(h- . i lit 110 0 .!0 A very satisfactory con%Ttsion was obtained in t he presence of O.M&33 X. Sc in 10 nil. of the w3la. by hmting for 2 hts. at too*. A temp. of 1;',0* permitted the use of only 0.137 kj. of Se per cu. m. of soln. for ow hr. The efftvt of S at IW' was insignificant, even with O.H1211 g. of the Ze 0 catalyst per 10 mi. of the soln. Hipts. with the third cataIrst met! entirely Unsatisfactory. A. A. B. wee too bo 0 '00 SITALLIONICAL LITERAT01 CLASSIFICATION 00 woo lk tat '1 .10 ~,, J.c 0 1 IN so 9 a a 5 4 v - 0 U 19 At 00 Is of IT to tt epic Kit 010 Ittlet Ifal W M I I& o o o oto o 0 o 0 0 % e 0 o o o o o 0 0 o o 0!0 o * 0 o 0 0 0 4 0 * 0 0 0 0 0 0 0 01 PI 0 0 0 0 1:0 o o o goo 0 0 o 0 o 0 0 o 0 0 0 94 o o 0 000 0 0 40*0090000i  !I to 11 If It hl 11 0 11 1, m IV u -16. it Asra ItI -- t **A I"D r-01*1 41119,11 '' '..1411-t A U'SAR. 66.029, Afillift j~ 41111milled fly th. 11441ing M411%. of Alkall- 1w alk, .404. It is I III cli, I ".h. r" I'l- It Ific C.A. A S 11 - S L 11 41ILLUINKAL UTINATIP114 CLAWFICATION 14"041 111 1 Q.W -24( U SAW tPolip cost Ka of X ees 9 * a 0 o 0 0 0 * 14 TV 111 1) a R0.1 If to a 4110 I 1 6 A ..so roe Nee nee logo Cleo It 2- uo* laii" a-K 0"' is w 0 IIA 0 0 410 t. 2A 00  J) 14 1$ N 1" 10 pp I L 0 I L is Y, is 4 FJ&cttolylic,iiwt~iieno(mercuticoxid*- L.A.. I'll's arul I floph"I I *A.,.,. W R.1 19, Moll m I'l-11"Ime mid'affAs of ll# nmis 4 vati.stal .01 It it :41 -4114iol (1111-.1m vis, -,it% p-1 vl'ld~ M :0 Ill'* JjKo m (fit- pt ,, I j-, , "- If , It,, " ,, I, ~ ts, A it, is 110 1. W I . .,!,I m" -1 m \,0 111 j I it L I j_,j .,I :4j I- . a it ~t imp ~I. (lift. Alt, to, r4i-- Ill l.Kq .4 JI&O c 111,1 , &MIgh 411.111. ,1 MArull. Kciatill, And glut t;,4v-jtjI, 1 2 st. I- isl the [After Ism UI)jlf,%SA 1WfTIM11111 'If 11W Addtv d I g.11. sul ',tlitr,l lit !1*-' 7', 1101. Willi ;it v.d. I -Ini 00 J Its, is m 1.0 I'm 'I'm Itig 11 fill o had m, ds.,plt Ow HKO .4)IIII-M Isom S7 t*" -1 -itil"'Ise r"ItIctilm of th, All-I, 11'sm lhi~lxsillt 44 view. t1mr. ft f,willid At ills F. it rI 11 a 1) e4 p jis 'f 7 K 1; Is 9 0 All 1/ 0 41 41 C( W If ~UL !1-M) a lip IM lis?.11111K 11101 -011 OW bill A., 11tollioN litaillill.k. Im. ., lit ti'm of it,,- di-I'd ,I, I 'Ifi., 11c No listint sy, N", IV' 1 1, m. a j q '1'l, . 1, 'j. ; k%ith Ili 4 --o'K, It'. 0 . .'s I.- I 1..t 'Im 1'. -'Imw .- .J~ iti'l.f I, h. spl )),.I I'll, strut thruplota 14111M we" 11W V31111-11- 11-111111- ill ~111-0111 - lift P Mll ; At fM)III ti-itill. , tile N.4011 :pp. N.t!cf~'. It 1 0.", arrift.".44. r rk,- Ill, ;, fix() 1N p I I to, I IX() If 1.2",; - /V1 - -,f ug r, rA. I -p ~q. 1 ell$. I I K( I ill; -, If 1 6. K- 1 is' f, P Ill FUIII Of 12 llr- 1111111, r itins; I's N I)II I'll, I., $I.,, J,ra. 11-11v fu":17, f. ' I is) [-'ir,t I-Ition. of Ow t III Ow 1. Ki'llmix I( if itto lrolva-ur..i-a I., isliti"I.f. :a is, of CA ' J I t l 0q ;~ 1~. Nufaij ~4 file lit f-4v-)r% MIJOV') of Iliv, Z: Zi too 160 r" S it W 0 v -4 4 1 u 4, fit it st 0 n I 0 0 0 00 0 0 Of 0 0 St 0 4; -,0 00 wo 0~111` Zola * 0 go 60 a 0 0 0 0 *1* 0 00 0 0 so 0001  ACC NRs AP6019566 SOURCE CODE: UR/0080/66/039/006/1327/1332~1. AUTHOR: Shmukler Yu S.; Kuzfmin, L. L. ORG: Ivanovo Chemical Engineering Institute (Ivanovskly Rhimiko-tokhnologicheskly Institut) TITLE: Behavior of Vanadium pentoxide 1~n certain salt electrolytes SOURCE: Zhurnal prikladnoy khtmil, v. 39, no. 6, 1966, 1327-1332 TOPIC TAGS: vanadium pentoxide, ammonium salt, ammonium sulfate, electrolyte, electrode potential ABSTRACT: The article presents d on the,~cfthodic behavior of vanadium pentoxide in the aqueous electrolytes NH4ClnN1H4)2S_9VZnS04, NaCl, and CaC12. The best elec- trolyte for studying this behavi-or was foirid- to be 4 N NH4C'- The following reac-~- tions are thought to occur at the electrodet V205 + 2H+ + 2e - V204 + H201 V205 + 4H+ + 4e - V203 + 2H20- V204 + 2H+ + 2e - V203 + H20- 881+54  L 4olol-66 ACC NRo AP6019566 For these three reactions, the dependence of the potential on the hydrogen ion acti- vity In the solution at 250C is expressed by the equation ~ - Y6 0 - 0.059 - PH. The formation of vanadium tetroxide was demonstrated by analyzing the electrode mass. On the basis of the mechanism of phase transfornation of vanadium pentoxide to the tetroxide during the discharge of the electrode, an explanation Is provided for the behavior of the pentoxide in the various electrolytes studied. The discharge of the V205 electrodelin NaCl and CaC12 solutions Is accompanied by a fast rise of the PH of the electrofy-te present in the pores of the active mass; this causes electrode polar- ization and a sharp potential drop. In the ZnS04 solution, particularly at low cur- rent densities, an Increase in the acidity of the initial solution has a favorable effect, as does the buffering effect of the electrolyte, duo to the precipitation of Zn(OH)2- However, this shortens the operation of the electrode. The smooth course of the discharge curves In the ammonium electrolytes Is explained by their buffering action and the formation of V204, which has a much higher conductivity than the Ini- tial pentoxide. It is concluded that the V205 electrode can be used in chemical cur- rent sources in ammonium chloride and sulfate electrolytes. OrI3. art. has: 3 fig- ures, 4 tables, and 5 formulas. SUB CODE: 07/ SUBM DATE: O2Mar65/ ORIG REFt 003/ OTH REFt 003 Card 2  L o-99N.,-67 W/,E-,IT(.t)/ZrI ACC NRs AP6002200' Soullck; cooz: IJIV0153/65/008/005/0804/08 ~17 AUT11,101t: Agapov, it. MI.; Mollnikov, A. M.; Y,.uz Irnin, L. L. ORG: IvanovO Chanical-Teehnological Institutep Department of Technology of Eloctro.- cacmical Products (Ivtinovrkiy-k~Iiiiuko-tekhnolo jt~~Cfi. o,-ltiy Institut, Wedra. tekhnologil clektrokhijaichaskikh proizvods'%-Iv) TITLE: Possibility of using a titanium,anode in a galvanio cell. 1. Corrosion of titanium in acid electrolytes SOURCE-.""'IM. Khimiya, i khimicheskaya tokhnologiya.. v. 8,'no, 5, 1965, 804-807 TOPIC TAGS: titaniump corrosion resistance, electrolysis, perchloric acid, hydro- fluoric acid,, oxide formation ABSTRACT: The corrosion resistance of Ti was determined by weighing 10 x 10 X 0-5 MI, samples of titanium BT-1 shoots sunponded in a polyethylene vessel and exposed to tho e'roct of 30 ml acid solution (HO10 ') a., and their mixtures) at 25C. The Ti had a A.. .4 high corrosion resistance in HC10,: no decrease in woip)it and no visible changes wori observed in samples exInsed for 6 months to HC10 having concentrations of 100-800 9/' although the stationary potential of Ti increased with increased concentratLon of Helo from 0.160 to 0*309 v.-The addition of HF to the H-010 solution sharply de- 4 creased the corrosion resistance of Ti up to a certain mQ* tZ The corrosion of Ti Card 1/2 uDc: 620.193.414621.352.8  L 08904-67 ACC NRl APO'002206 in a pure HF solution increased proportionally with an increase in the concentration of HF. The presence of RF in the HCIO 4 solution in all cases caused tho activation of the Ti surface probably because of the deitruction of the oxide film by fluoride ions. The activation effect of HF decr~oased at a larger rate at a higher concentration of HC104in solution. An increase of the HC104 concentration from 100 to 800 g/1 in- creased its activity from 0.932 to 1138. The concentration of fluoride ions, therefore decroased with increased concentration of HC1040 This caused a rapid accumulation of corrosion products on the surface of Ti. The dissolving of Ti in HC10 J. containing HF, occurred under mixed anode-cathode control and the process was dXlerated equally on tho anode and the cathodes The increase in concentration of HC10 promoted (1) an increase in thickness of.the oxide film which was indicated by changes in the values of the stationary potential, and (2~ an increase in activity of H ions facili- tating depolarization of H and causing the formation of maximums on the corrosion rate curve. 7he displacement of the maximum to the loft side of the curve, ieeop to the side of lower concatrantions, during enrichment in HF of the,.solution, was related to a stronger effect of corrosion agents resulting in rapid passivation of the anode sections* Orig., art. bass 2 fig. and 2 tables. SUB CODEs 09 SUBM DATES 15JunW ORIG RWs 002/ OTH WWs 004 Cord 2/2 .~6  KUZ 'MIN, L.K., inzh.; GUSU, V.P., mashiniot Our readers discuss the book wSwitching diesel locomotives." Elek. i tepl. tiaga 6 no,10:400 p.3 of cover 0 1629 (MIRA 15:11) 1. Depo Kinerall Vocly Severo-Kaykazskoy dorogi (for Kusl2nT. 2. Depo Lyublino Moskovskoy dorogi (for Gusev)a (Diesel locomotives) (Railroads-Making up trains)  KUZIMIN, L.M.; FEWLISUTSYM, I.I.; MIZOMOVA, A.I.; BEWV, I.F. - , ". -.!"' I Studying the operation of sav-toothed drams in the front section of single-proceaR pickers during table feeding. Inv.vys.ucheb.sav.; tokh.tekEt.prom. no.2:94-99 158. . (MIRA 11:5) 1. Ivnnovskly tekstilInyy institut. (Cotton machinery)  VUZIKIN, L.N. .. 1 - - I., Rheostat transmitting synchro for solving photogramustrical problems. Geod.i kart.no.7:19-25 J1 157. (MIRA 10:10) I (Photocrawstr7--Apparatus and supplies)  AUTHOR: Kuzlmin, L. P. (Moscov) 03-1-9-4-1/12 TITLE: Graphical-Analytical. Method for the Di-termination ~ f the 1. V Characteristics of a Relay System (GrafcaLaliticheskiy sposob opredeleniya kharakteristik releynoy sistemy)- PERIODICALt Avtomatika i Telemekhanika.. 1,958, Vol., 19~ lir 4, pp, 285-295 (USSR) ABSTRACT: Here the gra hical-analytical method for the detarmiration of the JJ(435 - and Jl.(,,.,) - characteristic of a relay system is given. These characteristics are necessary for the investiga- tion of the periodical mode of operation of the relay systems according to the frequenoy-method, The theoreTic-al foundation of the method is demonstrated- The characteristics of a relay system are connected with the amplitude-phaee-chcLracteristic of the linear part by the formulae (4 ).. The es8en,~e of the - graphical-analytical method for the computation of the Jl(C-)) and Tt(63) -characteristios --;s the rqpre5ertat~.on of their components, which correspond to the values m andf - 1, for each fixed frequency value in form of vectors, then the determination of the hodo~-,raphs of these vectors in case of a modif ication of X' In the domai n 0 phenyl cyclopropane> phenyl cyclobutane> isopropyl benzene (Table 1). Card 0 The same frequencies in the spectrum of p-tolyl cyclobutane