SCIENTIFIC ABSTRACT ZYATKOVA, L.K. - ZYBALOVA, G.P.

ZY-AT-YOVA, L. K. CLux; Geol-1.1ineval Sci Imi t~f gqola~,.- geomoil~jl,hololdcal motlious for e-yplainini- ~~he lu.,xil t; txuut~zes o f the central area of tl,-e 1.1e~i --,,rn Siber-Lan lovilaxid,- Novosibirsk: p 1960, 17 pp, 150 cOP (To,,,)sk State U I'm V, Kuyj),,',C~l ev) (U) 4)-60:~117).  ZYATfKOVAv L.K.. fletLod r-ta-w-tur-I cnd goornoryholo-ical in-10:3~."'ations in "ho central part of the Itost Silborian Plain. Geol. i ,mfiz. no,, L~ - 20 100, (UP-11 14:2) 81'birt;ko~lo olldeleniya AIT ss$R1 1. InAitut 1-eolo.-ii i ("IcA Slb~uian !'lain--r,,colc:,Yp 3tructurul~   ZYATIKOVA. Luiza Konstantinovna,- NIKOLAYEV, V*Ao 1, kand.geol.-mineral* nauko ALEKSANDROVSKIY, B.14.p red*; LOKSHINA, O,A., tekhn'.0red, [Geological and geamorphological.-mothods of detecting local struc- tures, the central part of the West Siberian Plain.j Gevlogo~-gao- morfologichookie metody vyiavleniia IftalInyich struktur; tsentralt- naia chast' Zapadn~ibirskoi ni=ennesti* Novosibirsk., Izd-Vo S1- birskogo otd-niia AN SSSR, 1961* 76 pa (Akademiia nauk SSSR.:Sibirs- koe otdelenie. Institut geologii i geofizW- Tradyp no..3,4) (;UR.k* 16:9)      KARPOV, Boris Dmitri-yevich; ZYATYUSHKOV, A.I., red.; LEBEDEVA, G. T. , tekhn. red. [Work hygiene in industrial painting] GigjarjA truda pri mallarnykh rabotakh. Leningrad, Medgiz, 1963. M p. (MI11A 16t11) (Painting, Industrial--Safety measures)  BURLOVA, Lidiya Ynkovlevna; LEBEDEVA,Alekoandra Filippovna; TARASOVAP AMa Vladimirovnao- ZYATYTJSHKOVA. I. red.; BUGROVA,T.I.j* tekhn.rod* (Work bygiene in plants of the textile industry; cotton- spinning and weaving manufacture] Glgiena'-Lruda na pred- priiatiiakh tekstillnoi promyslilennosti: V bumagopria- dillnon i tkatskorl proizvodstve. Leningnid) Medgiz, 1963. 49 P. (14IRA 16:12) (COTTON FIMUFACTURE-HYGIENIC ASPECTS)   SHAGOVA, Yokaterina Mikhaylovna; 2YATYUSEKOV. A_..L 9-j-P4. jLEDEDEVAp Z.V.p tekhn. red. (Guard children's eyesight; eye i'njuries and their preventi~nj Beregite zrenie detei; povrezhdoniia glaz iiikh preduprezbde-. . (MMA 15:8) nie. -Leningrad, Yedgiz, 196',. 22 P. (M-WOUNDS AND INMUES) (EU-PROTECTION)  ROZENFELID, Aleksandr Semenovich; ZYATYUSHKOV A.L., red.; LEBEDEVA, G.T., tekhn. red. .. ~~ ~- (Water and healthj hygiene of water supplyl Yoda i zdorov's; gigiena vodoonabzheniia, Leningrad, Medgiz, .1963. 29 p. (MIRA 16slO) (WATER SUPPLY--HTGIENIC ASPECTS)  TONKONOGIY, Iosif Moiseyevichj ZYAMSHKOV, AJON red.; BUGHOVAP T.I., tekhn. red. [Speech disorders, their prelention and treAmeni],Rechevye raostroistva, ikh preduprezhdenie i lecheni6, Leningrad Medgizp 1963. 34 P. (MIRA 1701   RETNEV, nadimir Mikhaylovich; ZYATYUSHKOV, A.I., red.1 ONOSHKO,, N.G., tekhn. red. (Work hygiene in concrete production) Gigiena truda pri izgotovlenii betona. Leningrad, Medgiz, 1963. 99 P. (MIRA 160) (CONCRETE PLLNTS--SAFETY MEASURES) I q~ fl, mt. I I  AUTHORS: _jygtnjqhkQy*-AL-, Colonel of the Medical Corpql, Candidate of Medical Sciences, and Tsukerman, B,G. TITLE: The Accommodations and Sick Rate of Submarine Crews. (Usloviya obitMmosti i zabolevvZemosti,lichnogo sostava na podvodnykh lodkakh) According'to Data From Foreign Publications (Po dannym inostrannoy pechati) PERIODICAL: Voyenno-meditsinskiy zhurnal, 1958., Nr 4t Pp 74-80 (USSR) ABSTRACT: The article is.founded on data from American, Getman and Italian literature. There is 1 table. Card 1/1  ZYATYUSHKOV, Alfey Ivanovich; DINBO, A.G., red. (Reduction of pulmonary gas volumes to nor tail conditions and calculations of some proper values; priheiples and tables] Privedenie legochnykh ob"emov gazov,k normalInym. usloviiam. i raschety nekotorykh dolzhrWkh velichin; oboanovanie i tablitsy, Leningrad, Meditsi6ap 1965. 137 p. (MIIIA 16:9)  PLEAWOV. A.F.; PODVALINYY. A.T. Removing copper from the cobalt oxide produe tion c le. Tsvet. met. 32 no.2:49-52 7 159. iVIO4 I RA 12:2) (Cobalt metallurgy) (copper)  AUTHOR: Zyazev, A.D. 136-2-14/22 TITLE: Jimplified Method of Protecting Plant from Corrosive Solution and Pulps in Cobalt Production.~ (Uproshchennyy sposob zashchity apparatury ot aFSressiv*kh:rastvorov i pullp koballtovogo proizvodstva) PERIODICAL: Tsvetrorye Metally, 1957, ,Iqo. 21 PP- 77-78 (USSR) ABSTRACT: The disadvantages (slowness, complexity, expense, etc.) of the method used, e.g. at the Ufaleyakiy Nickel Works, for protecting plant metalwork from the corrosive action of material being processed to obtain cobalt are outlined., A method is. proposed by B.V. Aleshintsev based on the use of type 500-600 Portland cement with bricks and plates. Exalkoles given of applications to different shapes of units inclade pipe connec- tions, Pachuca tanks, collectors, cisterns fortransporting hypochlorite and suction filters. Per unit of protected area this method cost about about a tenth compared with the method described by K.A. Polyakov in "Non-Metallic Chemically Stable 1/1 Materials", pp. 80-86. It is recomniended for wide use not only in cobalt production. There are 6 figures AVAILABLE: Library of Congresa   SOVAIJ.36-59-2-11/,241 AUTHORS: Plekhanov, A.F., Podvallnyy, S.T., Zyaze--.r, A.D. and Kalugi-na, A.T. TITM: Elimination of Copper from the Cobalt-O~cide Production Cycle (Vy-,,-od- medi iz tsikla. pri pro,izvodst,,-e oki;si kobal'ta) PERIODICAL:Tsvetnyye Metally, 1959, Nr 2, pp,49-52,:(USSR) ABSTRACT: The existing method at the 'Ufaleysltiy Nilmlevyy Zavod (Ufaley Nickel Works) for removal of copper from,cobalt solutions is to precipitate with soda ash. This gilres a copper cake with 0-3 to 0.5% cob 'alt which has'-to be reprocessed, leading to deleteriou,s acv=ilatuion of copper in the first stage of cobalt--omide production. The work described had. -the obieG', of exploring the U possibilities of using sodium hyposulplLata fo2.1 the precipitation, giving a copper cake whiah coulUbe eliminated from the product-on cycle. Laboratory experiments showed (Fig 1) ~~at 3001% (or 7.5 kg per kg copper) of the theoretical aaoiint of hyposulphate -was necessary to precipitate all the copper independently of acidity (0.04 to 0.05% 00 inthe precipitate), that Card 113 the best temperature for precipitation was 80 to 9000  -OV/136-5c)-2-11/24 ,,Elimination of Copper from the Cobalt-Oxide Production Cycle' the best hyposulphate concentratiop-.10 to 2091o' (Fig 2) and duration 12 to 15 minutez (Fig 3). Oh t-he ba'sis of these satisfactory results prodrctim trials on a mechanically-sti-rred vessel of "'.2 0 CaL:~-Iclt-y were organized. In one series i-ron-free ~so.10111_ons wer's used, in the other the solutions contaiwd~ tra"I. The results (table) were substanti_,,.~-,Ily the same in series but the duration of the subsequirant ope7.a~-ion.of cobalt, precipitation by chlorine took 3W, loyige~~ wit-h the*li~ron- free sol-utions. The consu-aptloa of hrirjos~tlphate could be reduced to 4.8 kg/kS coplie-r by the time interval between successive additions to 30 minutes and the cobalt, cont--nt- in t1t~_ cake was low enough (0.1% ma4 to make fuxther treatm-=t v_nne,_,eos_-._r7. The Wield of copper cake was twice as low as with sodalash. The, Card 2/3 authors conclude that the possibility of copper     ZYA2DCT, T.; KAMNSKATA, A.; MALTSINV, A.; SHUSTOV, At Using the qrsten of closed ciroLits In orgazilsing interurban freight haulage. Ayt.tranap. 38 no.9:11-~4 S '60. (KIRA 13:9) tTransportation, 'Automotive)  ZTAZET, V. Interurban trucking and vehicles used for it, Avt. trane-P, 3 ne.10'.' 23-26 0 '59. (MA 13:2~ loNauchno;-issledovatellskly Institut avtomobillnopp traneporta. (Transportation, Automotive)   BILIBINA, N., kandidat ekonomichookikh nauk; ZTAM, V., inshener; SEMIN, V., inzhener. The efficient organization of centralized hauling In theregion of Ivanovo Province. Avt.transp-33 no-10:5-7 0~155- (HLRA 9:1) (Ivanovo Province--Transportation, Automotive)  ZYA,ZXV. V.. 'Lnzhanar; SHUSTOT. As. inthener. Intercity automotive transportation In Poland. Avt.transp. 35 n0.3:39 Mr 157. (MM 1015) (Poland-Transportation, Automotive)   ANDRIYEVSKIY, M.; ZYAZEV, V.  ZYAZEV, T.; NAKASHIDZE, D. lVew method for sugar-beet transportatlon.~ :Avt. transp. 41 no.5:10-U My 163. (MIRA 1611o) (sugar beets-Transportation)   ZYAZZY, YS 14 - .. 1, NNOWMa-MMI Nil- =Ve op and improve intercity freight haul4ls by means of small shipmenti.'Ayt. transp. j5 no.5:10-13 MY '37. (KLRA 10:6) Automotive)    ZYAZ,EY, T.L. (Sverdlovsk); RML131118VA, M.N. (Sverdlovsk) Cases in copper ingota ;,nd their determination. Trir, AN SSSR Het. i gor. delo no.2t-132-136 Ix-lb'64 (KRA 17t8)   S/137/62/000/006/011/065 Aoo6/Aio1 AUMORS Ivanovskly, L. Ye., Ilyushchenkoj N. G., P16.khanoyj A. F., ZyazeV, V. L. TITLE: Separating rare-earth metals by fused salt electrolysis PERIODICAL: Referativnyy zhurnal, Metallurgiya, no~ 8, 1962, 27, abstract 80188 C'Tr. In-ta elektrokhimii, Ural'skiy'fil. ANISSSR", 1961, no.,2, 131 134) TEXT: Separation of rare-earth metals was investigated in fused bath electrolysis containing a mix ureof rare-earth chlorides'. it was found tfiat,at all the D. (0.25 - 1.5 amp/am ) and temperatures (850 - 870) 560 - 76000inves- tigated, alloys are obtained which are considerabli impoverished of La (3 - 5 weight %) and enriched with Ce (up to 8o%). The total Priand N.d amount remains practically constant. The nature of cathodic deposits varies noticeably with temperature. Their salt'content varies from 75 to 80% at 5600C and from 30,to 40% at 7000C. There are 11 references. [Ab Istrac..t~r's note: Complete translation] 0. Svodtseva Card 1/1   27213 B/081/61/000/'014/010/030 B106/B110 AUTHORS: Ivanovskiy, L. Ye., Ilyushchenko, N. G., ZyazeV, V. L.,' Plekhanov, A. F. TITLE: Oxychlorides of rare earths of lowest valency PERIODICALt Referativnyy zhurnal. Khimiya, no. 14,~1961, 57, abstract. 14915. (Tr. In-ta elekt.rokhimii. Ural'skiy fil. AN SSSR., no. 1, 1960, 55 - 6o) TEXTt The authors studied the reaction of a mixture of chlorides of, rare earths with mishmetal in the pr esence of 0 2. They separated a mixiu re of oxychlorides of lowest valency, M 2ocl2 (M - La, Cey Pr, Nd). They studied some properties of these compounds. In the electrolysis of chloride. baths where the possibility of a contact of 02 of air and moisture with the melt was not excluded, it was shown that the oxidation of the salts apparently yielded oxy cations M OC12+ which were discharged on the :cathode and, tbas, 2 2 were transformed to the oxychlorides of lowest valency, M20012. The anodic Gptrd 1/2  27213 S/061/61/000/014/010/03P Oxychlorides of rare earths of lowest B106/B11O dissolution of the mishmetal was also examined. In the anodic dissolution, the chlorides of bivalent elements are formed in the meltij, whose reaction with 02 also leads to the formation of oxychlorides of the compositi on mentioned. LAbstracter's notet Complete translatioh.3 Card 2/2  "Electric Conductivity of Vanadium Slags, lecture given at the Fourth~Conference on Steelmaking., A.A. Baikov Inatitute.,Of Metallurgy, Moscow, July 1-6, 1957   AUTHORS: Yesin, 0. A., -9-23/38 SOV/78-3 21TLE: The Electric Conductivity of the Syst,ems V 2 05-PbO, V 205-CaO, -Ca 0 1 istem V -PbO, V and V -MgO (Elaktrop::o vodnostl s 0 0 9 1 2 2 2 . 5 5 5 V 0 -MgO) 2 5 PERIODICAL: Vol 3,:Nr 92 pp .2143-2149 Zhurnal neorganicheskoy khimii, 1958,, , (USSR) ABSTRACT: The electric conductivity in the syste~mq VP -PbO, V 0 -CaO, 5 2~5 and V 0 -MgO was investigated within the temperature range of 2 the liquid and solid state. Three coiqgruently melting,compounds occur in the system V 0 -PbO,. V 0 2PbO, V 0 .3PbO, and V-0 .8PbO. 2 5 2 5* 1 2 5 2 5 The electric conductivity is investigated in pure V 0 and PbO 12 5 as well as in nine melts containing 23,5-95% PbO. The:isothermal lines of the electric conductivity an& theyalues of the activation energy E'were compared as.vr'ell in the phase' diagram. Two maxima occur on the curve of the activrition energy,. 14,4 k.cal/mol in the case of 67/4 PbO and 15,2 k.cal/mol in the Card 1/3 case of 98% PbO. These maxima correspond to the occurrence of  50'1/78-3-9-23/38 The Electric Conductivity of the Systems V 0 -PbO, V 0 -CaO, and V o,-mgb 2 5 2 5 2 5 the following chemical compounds; V 205-3FLO and V 20 50 8PbOo The electric conductivity Is increased with rising PbO-content up to 45~. The elentric conductivity in the system V 0 -CaO was 2 5 investigated for melts of V20 5- CaO with 11,7 - 37,dc-C,90. The -irelt has ionic conductivity at 23,40/6 CaO. The compound V20 CaO exists in the liquid melt* In the initial period the electric conductivity decreases rapidly to io%'.CaO in these melts,', probably in consequen-ce of the dissociation of V 0 at higher 2 5 temperatures. The system V 20 5-MgO is completely analogousIto the system V20 5-CaO* The melt has ionic conductivity at a MgO content of 20,7%. MgO, CaO, and PbO influence the structure of V 0 in the melt. The form of the isothermal lines of'the. 2 5 electric conductivity and the ou.-vea of the* activation enargy indicate the presence of the following~comppunds in the melt of the systems investigated- V 20 5* 3PbOj V2 05.8PbOt V205 CaO,- Card 2/3 2V20 503MgOo There are 6 figures, 3 tables, and 12 refe:rences,  SOV/78-3-9-723/36~ The Electric Conductivity 6f the Systems V 205-PbO, ~V~205- CaO, and 11 20 5'-4~go 5 of which are Soviet,, ASSOCIATION: Ural'skiy filial Alkademii nauk SS$Rj. Institut: metallurgi-I (Ural Branch7AS USSR,,Institute of Metallur'gy) SUBMITTED: January 15, 1957 Card ~/3  31671 S1631 6010C)0100110081014 V. Lij OD B117)B147 AUTHORSt Ivanovskiy, L. Ye., Ilyushchenko, N. G-I-&xazevL V- L.) Plekhanov, A. F~ TITLE: Oxychlorides of rare earths of lowest valencies SOURCE; Elektrokhimiya rasplavlennykh solevykh i tverdykh elektrolitov, no. 1, 196o, 55-6o TEXTt The interaction of oxygen and rare earth metals with chloride melts of rare earths was studied. In the first series o:f experiments, the authors used a misch metal (% by weights 22.5 La, 53-0 Ce, 4.53 Pr, and 16.3 Nd) obtained by electrolysis, and a chloride mixture (% by weights 26 La2 53.9 Ce, 4.85 Pr, 11.42 Nd) obtained by chlorination of oxides of rare earths with gaseous chlorine in the pre Isence of carbon, The result was a deposit of oxychlorides of lowest valenoyt 116 OC1 , where Me stands 2 2 f 'or La, Ce, Pr, and Nd. This mixture is slowly hydrolyzed in water to,give hydrates of highest valency. When boiling, decomposition proceeds1rather quickly. During heating, the product readily reacts with acids, particularly Card 113  31671, S/631/60/000/001/006/014 Oxychlorides of rare earths of lowest ... IB117/B147 0 nitric acid. It oxidizes easily at 300-400 C forming mixtures of oxides of rare earths at higher temperatures. In another series of experiments, the reaction of oxygen with chlorides,of rare earths in,an open bath at 580 - 6000C was studied. A graphite vessel was used as electrolyzor and anode, and molybdenum rods were used as cathodes. ~The dlectrolyte.was a mixture of chlorides of rare earths and potassium chloride (50~ MeC 13and XC1). The amount of lowest oxychlorides formed in all experiments depended on the amount of products in the bath obtained.by decomposi-cion of salts under the action of oxygen and moisture. Finally, the misich metal in the potassium chloride melt was anodicall~r dissolved at 8500C in an open and a closed bath. The authors always found oxychlorides of lowest, ,ralencies with a ratio equal to that of initial subBtances. Summarys-In the case of interaction between oxygen, chloride melts of rare earths, and misch metal mixtures of low-valency oxychlorides of rare earths were obtained. The summational reaction can be written downi 4MeCl3 + 302 + 8Me = 6 Me 2OCI 2' The formation of oxychlorides on the catitode may be explained by the formation of Me2Oci4 soluble in the melt by Card 2/3  31671 S/63 60/000/001/008/014 Oxychlorides of rare earths of lowest ... B117XB147 decomposition of salts. The formation of MYC1", whose discharge on the 2 cathode yields Me2001 2' is well possible. At the same time, direct: reaction of decomposition products with the metal deposited on the cathode is also possible. Bivalent chlorides of rare earths are formed in the melt due to anodic dissolution of the misch metal. Their reaction with~ oxygen also yields oxychlorides of the same composition. There are 4 figures, 2 tablesj and 5 referencest 4 Soviet and 1 non-Soviet. Card 3/3  ZrAZRV, V.L.; YISIN, O.A. Viecosity and density of the systems T205-C`G and T 0 Isr.81b.otdd AN SSSR noo*9:3-9 158, Vol- 3-1) I* Ural'skly filial Akademii nauk SSSR. (Tamaditus oxides) (Viscosity) (ftsion)  24567 3/137/61/000/005/005/060 ~~~00 A0061AI06 AUTHORS., Ivanovskiy,..L;Ye., Ilyushchenko, N.G., Zyazev, V.L.., Plekhanov,A.F. TIM: On oxychlorides of rare earths of lower valences. PERIODICAL: Referativnyy zhirnal. Metallurgiya, no. 5., .1061,16, abstract 5Aj4 ("Tr. In"ta elektrokhimii. Ural'skiy fil. AN SSSR". 19~0,no.l, 55-60) TEXT- An investigation was made of the interaction of mixtures of rare. earth chlorides and "mishmetall" in the presence of *02' A mixture of low Valen- ce oxychlorides, Me20C12, was singled out where the metals were La, Ce, Pr,, Nd. Some of their properties were investigated. It is shown that in electrolysis.o chloride bathes, where the possibility of a contact of atmospheric 02 and mois- ture with the melt was not excluded.. Me20C12 2+ oxycation6 are apparently formed as a result of the oxidation of salts. The discharge ofl~these oxycations.on the cathode causes the formation of oxychlorldes of lower valence; the %0%. The anodic dissolving of mishmetal was iniestigated. During the anodic dissolution in the melts 2-valent chlorides of rare earths are formed,, whose Interaction with 02 causes also the formation of oxychlorides of the same composition. T.,.K. [Abstracter's note: Complete translation] Card 1/1    ZYAZEV, VA.; YESIN, O.A. 0 - Fe 0 V CuO sind Viscosity and density of the systems v2'5 2:3 2 V205 - CaQ - Fe203. Izv. Sib. otd..AN SS4R.mo.Ift13Qd, :(KM M-.712) laUrallakly filial AN SSSR4 (Systems (Chemistry)) (Viscoaty), (Fusion) n wiaiii 1"  SOV/11T-59 ~3-5058 D Translation from: Referativnyy zhurnal, Metallurgiya. 1959, Nr 3, 24 (USSR) AUTHOR: Zyazev, V. L. TITLE: Physicochernical Properties of the Simplest Va'nadium Slap (Fiziko- khimicheskiye svoystva prosteyshikh vancidiyev!ykh shlakov) ABSTRACT: Bibliographic entry on the author's dissertation for the degree of Candidate of Technical Science's, presentedto the UraL'skiy polite- khn. in-t (Ural Polytechnic Institute), ',Sverdlovsk, 1958 ASSOCIATION- Urallskiy potitekhn. in-t (Ural Polytechnic Institute):, Sverdlovsk  AUTHORS: Zyazevt V. L., Yesint 0. A. 78-3-6-100 TITLE: Viscosity and Density in the V 20 5-PbO.-Systsm (Vyazkost' i plotnost' sistemy V 0 -P,bO) 2 5 PERIODICAL: Zhurnal Neorganicheskoy Xhimii, 1958,, Vol~~3, Nr 6, PP* 1381-1385 (USSR) kBSTRACT: The viscosity and the density of the e namels of the V PbO- 0 , 2 5 system inoludirig the pure oxides of V 0 -PbO were 2 5 determined. The determinations of density were pe rformed by heating and cooling the enamel. The dependence of temperature'on the viscosity and ienisity in the V 0 enamels with a PbO content of 28,3-88,9% waa~, 2 5 investigated. The density of the enamels of the V 20 -PbO-system waa 0, ~000- investigated at temperatures Of 80 :and 120000! At 68% PbO a minimum is observed in the density ourvelan4 in alloys with 79t7% a break was found. Pro'bably the atomic groupings occur in the enamel -under formation of the Card 1/2 following chemical compounds:  Viscosity and Density in the V 0 -PbO-System ~13-34-15/30 2 5 V 0 2PbO, V 0 3PbO, V 0 8Pb0,1 2 5~ 2 50 .2 50 It was found that in the enamel of th e system at 1000 0 C a relatively high specific conductivity,~and little viscosity are prevailing. The existence of the above-mentioned: chemical compounds was confirmed by the curves of viscosity and the determinations of density of the enamels of the V 0 -PbO-system. There.are 3 figurest 2 tables, and 10 2 5 referencest 7 of which are Soviet. ASSOCIATION: Institut metailurgii Urafskogo filiale Akademii nauk SSSR (Institute of Metallurgy, Ural Branch AS USSR) SUBMITTED: July 29, 1957 AVAIhABLE: "library of Congress 1. Enamels--Viscosity 2. Enamels--Density ~Y- Viscosity--Temperature factors 4. Density--Temperature factors Card-2/2  YESIN, 0,A.; ZYAZBV, V.L, (Sverdlovsk) Xlectric conductivity of binary systema CompogIad of vanadium pentoxide with Iron oxide and copper oxide and a number of intricate alloys, IzY.AN SSSR, Otdotakh.pauk no#6:7-11 Je: 158. (MiTtA 11: 8) l.Institut metallurgii Ural'skogo filialfiL AN SSSR. (Vanadium alloys-Electric properties)  cc.2_ Vr YESIN, O.A.; ZTAZIT.--ViL.-- Electric conductivity of oxides of vanadiumjeacl, and coppers Zhur.neorg.khime 2 no.9:1998-2002,S 157. (~IM l0ii2) l.Urallakiy filial AN SSSR, Institut meltalluz-gii AN SBSR. (Vanadium oxideo--Zlectric properties) (Ioad oxides-Electric properties) (Copper oxides--Electric properties)  0~'110E~l I VZ t AUTHORS: Zyazev, V. L., Yesin, 0. A. 57-1-2/30 TITLE: On the Influence of the Short Range Order on the Character of Conductivity (0 vliyanii,,blizhneEo porya#ka na kharakter provodimosti). PERIODICAL: Zhurnal Tekhnicheskoy Fizikit 1958, Vol. 28) Nr 1, pp. 18-22 (USSR) ABSTRACT: The authors refer to the works of A~' F. Ioffe (reference 1) and Regell (reference 1). These st ated that for th6:chaiaoter of the condr-ativity the short and not long range order of the atoms is of great importance, The measurement"Fbsults of the electric conductivity of binary alloys of V 0 with~ 2 5 PbO, CaO and MgO in various compositions and at various temperatures are given. The measurements;ere carried ~ out in open resistance furnaces (i n. the air) with alternating s zero current, looo c frequency, usual resistance bridge (a . instrument served a cathode osaillogra'h). As V 0' when p 2 being cooled oxidizes to V 0 the,measurements wilh the 2 5 second heating were more reliable end only these results are given here. The authors show thai the~transitionl~froin the Card 1/3  On the Influence of the Short Range Order on the Character 57-1-.2/30 of Conductivity semiconductor mechanism to the ion.mechanism, in the systems begins with unequal MeO concentrations. Iwall.oys of V2CP5with CaO it begins at 23t4 $ CaO, in the V20 5-490-- system at 27P7 $ M90 and with VO,,-PbO at 71 %. PbOi In' all cases the transition-begin corrts~onda ifith the first , chemical compound in,the reapective~_system. Such a,regularity points out the important part of the short range order in the atomic distribution for the realization of the semiconductor electric conductivity in alloys. The.character of the polythermB for the electric conductivity shows that in the V20 5-PbO, V20 5-CaO and V205-MgO alloys the'semicanductor', mechanism passes over to an ion mechanism with compounds which correspond to the chemical compounds with the least' second component (MeO). The regularity determined proves the opinion of Ioffe. There are 4 figures, and 13 references, 6 of which are Slavic. Card 2/3  L On the Influence of the Short Range Order on the Character 57-1-2/30 of Conductivity ASSOCIATION: Institute for Metallurgy.of the Ural Branch AN USM~ Sverdlovsk (Institut metallurgii Ural'skogo filiala All SUR, Sverdlovsk). SUBMITTED: March 26, 1957 AVAILABLE: Library of Congress Card 3/3  ZYAZZV, V.L.; TANUTROV, I.N. Effect of vacuuming on the composition and properties of cast copper. TSvet. met. 36 no.500-34 Mv (MIRA 16ilo)  SOV/94-584-2/35 AUTHORS: O.A. Yesin and V.L. Zyazev, TITLE; Electrical CondU_C_t,_VT_~Yo ; : -Bifiiry Unadium'Pahtokde- Iron Oxide and Vanadiva Pentoxide!-Poppe~.,Oxide Systemsi, ' oprovodn6st': and of someattan Complex gyat=a_ (Elektr dvoynykh sistem pyatiokisi vanadiy4 3 okislyu zheleza i okislyu medi i iyada slozhnykh splavov,) PERIODICALs Izvestiya akademii nauk SSSR, Otdoloniye tokhnichaskikh nauk, 1958, Nr 6-i'-pV 7-11 (USSR) ABSTRACT: The electrical conductivity of sevbral,oxide systems was investigated to ascertain the exten't to which tholy con- stituted semi-conductors J-n the s6iid and liquid:states. The quasi-binary systems.V205 - Fe2O3 And V205 -:CaO were studied together with three compositlons based on the ternary system V205 - .CaO - Fe 03 (see';the table'on.p 10). S O 1 8 9 % i % Cao .1 9 Two quaternary melts (V_oO 32 , %7 2 - O 4 , 1 2 10%) G M O V S 0 M 6 J 8 2 4% 2% n a 1 10%, and pOq 1 . 3. 2 7. % . g , , , of industrial Won-'Laxoe . were also investigated. A JL' ~ carbon element resistance furnace:was used for the researah7 Card 1/7 the reaction between the carbonland metallic oxides at high temperatures being prevented by a porcelain lining  11 SOV/24-58..~6-?J35 Electrical Conductivity of the Binary Vanadium Pentoxide-Iron Oxide. and Vanadium Pentoxide-Copper Oxide Systems~, and of some,*otbr-_-.- complex iystZ,= tube. The conductivity measurements were made Over temperature ranges covering both~:liquid and solid states. The melts were held in corundum orucibles. The. resis- tance was determined by means of~a bridge fed:with a 100 c.p.s. current, using a cathode ray oscillograph to indicate the balance conditions.'~ Platinum wite : electrodes were employed for imme'rsion into the oxide mixtures. The accuracy of the measurements Was 10 to 15%. The experimental mixtures wpre,heated to the maximum temperature and held at that temperature for 15 to 20 minutes, after which~the malt w6s cooled and reheated. The most reliable conductivity measurements were obtained during the second heating oycle~' and only these values a-.-- discussed in the papero ChomicAlIanalysis after the final cooling showed that disso(:.,IatiIon had oodurrbd to a high degree, thus explaining the vigorous gas~evolution Card 2/7 observed during melting. The composition containing 15% Of P0203 wag a critical one in -the V205 Fe~03 systams  SOV/21+-58-6-2/35- Electrical Conductivity of the.Binary Vanadium'Pentoxlde-lron~ Oxide and Vanadium Pentoxide-Copper Oxide Systems) and:of some~ Oax;- complex syst~--MB below this composition vanadiumipentoxide dissociated, while above this composition iron oxide decompo~se& Decomposition in the'V205 - CuOsystemlwas confined mainly to the copper oxide..: Tfie temperature dependence of the electrical conductiiity of the V205 - Fe203 system is illustrated in Fig 1, graphs 1,2 and 3 corresponding to FepO contents of 159 19.1f and 3'0-5%,;respectively.: it can L seen thatt (a) the conductivity depreased with temperature over the 550-6500G.ra'nge, ex Icept when:the iron oxide content was very high; this negative temperature coefficient is attributed to the saturation of thosq impurity levels to which solid V205 owes its P-type conductivity; (b) abo--re 6500C the conductivity increased smoothly with tempeyature, but.in some instances a decrease in conduotivity was obser7ed in the 800-8500C range, The reason for this behaviour is not understood: Card 3/7 but according to Martinet (Ref 3) and Grunewald (Ref 4) it can be attributed to the admixture mechanism of  Electrical Conductivity of the Dinary Yanad~-um Pentoxide-Iron Oxide and Vanadium Pentoxide-Copper Oxide Systems~9 and of some Ot'hw- complex q'jdtas.;, conduction by which Fe203 is,cha~a'cterised. Ths presence of FeO as a decomposition produ6t wcs:believed~to explain why many of the investigated compositions did not display this.conductivity decrease; (a) ~the conductivity increase is accelerated at temperatuns of about 900 to 9500G. The weight losses observed at high temperatures with pure V205, and with the V20~ - rich melts'indieated considerable dissociation Of V205 and,,Fe203. The.decom- position products,V20-4 and FeO appeared to influence the temperat.ure/conductIVIty relationships; for mo~gt 'of the alloys the curves for the liquid'state are not exponential in character and therefore the aetivation energies;could not be determined. The conductlvity,~isotherms repro- duced on Fig 2 indicate an accel6rated increase ofithe electric conductivity at 15% Pe2O Above this compo- sition conductivity due to FG203phys the predominant part. Card 4/7 For the V 0 CuO system, the, conductivity-ter4perature relationsQs-of the 109 20, 302 40 and 50% CuO alloys  SOV/24- 58-6-2/35 Electrical Conductivity of the Binary Vanadium Pentoxide-Iron Oxide. and Vanadium Pentoxide-Copper Oxide,Systemsp and of. some 41*-~,~,F.-,,' Complex ~~Stekq are shown in Fig 3. (graphs I 'to resipectively)I. In this case, the conductivity also decreased with temperature over the 500 to 6250C range, but the decrease was much larger than that observed in the~prevlams system,, ~(The table, p 9, gives the factors by which bhe electria conductivity of various alloys dropped In this temperature range:for the 30% CuO alloy this ractor amounted to 8o.) Compositions containing 10 to 35% CuO,Ihad a high ~ conductivity which was attributed to an increased transfer of electrons from the copper oxide to~thoss impurity levels which determine the p-type' conductivity.of solid V205. The decrease in conducti:,Wity observed within this temperature range might have been 'intensified by the volume changes which,, according to Lucas et al.:(Ref 1), occur when alloys containing UP to 3% CuO are heated to 650-7000C. At temperatures higher than'800-9500G~the Card 5/7 conductivity increased with increasing temperatureo; This effect is attributed to the presence of the dissociation  SOV/24-58-6-2/35 Electrical Conductivity of the Binary Vanadium Pentoxide-Ir.on Oxid~~ and Vanadium Pentoxide-Copper Oxide Systems, and of some uhir ,Complex Systems products, mainly Cu20, The conductivity isotherms of tho V20k - CuO system reproduced on Pig 1+ (graphs 2 to 7) exh bit two sharp maxima at 25 and 60% CuO. The first maximum was observed only at 500..46000C. The second maximum, whose magnitude increased with temperature, is probably due to decomposition of.CuO which brings about an increased eQncentration of the-currient carriers.~ The conductivity isotherms of the tornary.and quaternary systems are shown on Figs 5 and 6 respectively: in these cases, no decrease in the conductivity with rise of temperature was observed. The experimental findings indicated that all compositions 6f the two studied quasi- binary systems behave as semi-conductors both in the  SOV/24,56~6-2/3 5 Electrical Conductivity of the Binary Vanadium Pentoxide-Iron Oxido and Vanadium Pentoxide-Copper Oxide Systems,* and:of some Complex Systems solid and in the liquid states.. There are 6 graphsv 3 tables and,13 referencesl.ofwhich 6 are Soviet, 1+ English, 2 German~and 1 French. ASSOCIATION: Institut Metallurgii Urallskogo Filiala AN SSSR (Institute of Metallurgy Ural Branch Ae.8,1. USSR) SUBMITTED: Februaryl)+, 1957  ZYAZIKOV, B.Kh,,,,,mayor zapasaj GRINCHtNKO, V,Ye.) po,lkovuikj, red.,- M.M., podpolkovuikp red.; SUKHCCLINOVp P.M,p mayor# red.j GOLUBKV, G,O.j polkovxilk zapaoup red.; FAVLOVI ?.I,, polkovn!X v otstavke, red.1 YABLOKOVA, 0,1.# red* (Gold Stars of the Chechen-Inguish A.S.S.R.; 6ketchns on Herose of the Soviet Union] Zolotye zvezdy Chinoheno- Ingushatill ocharki o Oaroiakh Sovetskogo Soliizis Grozrqi, Chsobono-Ingushokos )wAzhnoo Izd-vo, 1964. 310 p. (MIRA :1814.)  BITEKHTINA, V.A.; ZYBIN, A.S.; KNYAGINICHEVP N.I. Developing fisheries on the Ik-Saltaim-Tenis Lake system. Izv. Omsk. otd. Geog. ob-va no-5:131-136 163. (MIRA 17:5)  ZTAZIN, G. Locating the point of contact of a line an4 an electric wire. ROAL6 no.6:45 is 156. (MLRA 9:8) 1. ZaporozhskV& DRTS. (Ilectric lines)  ZYAZIN I.G. Significance of work arrangement for patients in a dispensary: serving a rural population. Sov.med. 26 no.103144 145 0 162o, (MIRA 15:12) 1, Iz Vorontsovskoy uchaetkovoy bollnitay (glavnyy vrach SA: Yershov) Voronezhskoy oblasti. (PUBLIC HEALTH, RURAL)(REHABILITATION)  ZYAZIN, I.G. (selo Vorontsovka Voronezhakoy oblasti) ----------- Role of the feldsher-midwife center in lowering the Incidence of dysentery. Falld. I akush. 24 no.12:23-27 D 159. (MIRA 13:2) (VORONTSOV DISTRICT--DYSMUnT) (PULIC IMLLTH, RMIAL)  ZYAZIN, I.G. Var itAble work schedule and preventive work. in n district Sov~xdr a ATIP 17 no.94.49-50 $158 IRA 11sB)' 1. Is Vorontsovakoy rayonnoy bollnitoy (glar!W vraob L.V.-Yadykina) Voronezhako3r oblastie' (HYMIGI10, FRumm" in Russia (Rua))  UAM, I.G. (g.Bobrorl) Results of four years of d1jobnaary seTviow-for the rural populatim. Sov. zdrar. ;..L noo9t 59 162 (14M 17 1. 1z bollnitsy VorontAdikogo rayonap Vorairmhskoy oblesti.,      BLMJMBERG, I.B.; ZYAZINA,_T.M.; TERGUMV, G.I. Investigating changes In the quality of the photographic ims e during printing. Tekh.kino i telev. 4 no-7:10-18 n. 160! (NIRA 13:7) 1. Leningradskiy institut kinoinzhenerov I TSentralluoye- konstruktorskoye b7wo Hinisterstya kulltuxy SSSR. (PhotovaphYr-Printing)  BLYUMBERG, I.B.; ZYAZINAt T.M. Rating the quality of the cinematcgrapUc imp. Usp.nauch.fot, 30.150- 57 164- (MIRA 17s'10)   ZY3AI W, A. V. Podgotovka proizvodstva na avtomobillnom -.avode (,Propar&tion of produf-tion at an watornobile~, plant). Mosiva, Mashi,-iz, 10,50. 116 p. SO: Monthly IAst of Ibissian &neqsions No. June 1953 Vol 6, 1 3, IHPMR~ H ! i "Imb, wil 7  SHEVTSOV, Ye.I., inzhener; TATSOVSKIT, S.A., inzh9ner,H4PWX,"tgm, inshener; RABIN, P.N., inzhenere' Overla7 welding of basic hearths. Stal.proizv.;no.l:10q-nq 156. (KRA 9:9) - 1.1azakhakiy metallurgichookiy zavod (for Shevtsov, Tatsovskiy)~. 2,Institut arkhitektur7, stroitel'stva i stroitelinyih materialov AN XazSSR (for Zubakov, Babirk). (Opere-hearth furnaces--Repairing)  ZYBIN, A.G.; POPOV, L.P. FrotectIon of electric mine motors. Vop.bezop.v ugoll.shakh. (MIRA 18:1) 4s224-227 164#  NOSYREV, V., nauchnyy sotrudnik; YAKUININA, A.; ZYBINt B., mladshly nauchnyy sotrudnik Poppy pests. Zashch. rast. ot vred. i bol. 10 no.8-54-55 165. jMIRA 18:11) 1. Vsesoyuznyy nauchno-issledovatellskiy inatitut lekarstvennykh i aromaticheskikh rasteniy (for ffosyrev).~ 2. Przhevallskqa zonallnaya opytnaya stantsiya Vsesoyuznogo nauahno-isaledovatell- skogo instituta lekarstvennykh i aromaticheskikh rasteniy (for Zyubin).  1"'BALM, G.P., ~ir and firo fl w-thr~;agh cotinactlon hriking ii~Angrcn. NauJ..trudy VIIIIPodz(!mgaza no.10slf5-51 t63 ),) (MIRA 1715) 1. Laboratcriye. gaztfikatall burykh tiglojy issledovat-illskogo inslihita pcdZemnoy ugloy.  NUSINOV, G.O., doktor tekbn.hauk; ZYBALOVA, G,P., kand,tekhn.rauk; Prinimili.uchastiye: PETIVSKAYA, A,N., inzh., ZVYAGINTISZV, K.N., inzhe; DUSMIUVA, N.N., inzh,,- KARNASH, E.M., inzh. First data on the underground coal gasification in the experimental gas producer of the Angren "Podzemgaz"I Gas Producer Plant. Nauchs trIudy InIII Podzetgaza ~no.6:3-10 62. (MIRA 15: 11) 1. Laboratoriya gazifikatsii burykh ugley'VsesoyUznogO nwachno-issledovatellskogo institute. podzemnoy gazirikatsii ugley. (Angren Basin-Coal gasification, Underground)  L 2094~66 _6R(1)/kfA(h) ~XMMMN NR: ARS008345 S:/ AsiladVY: 602MO 161A0 10 !SOURCE., -Ref. zh. Elektronik& i Veye prinioneniya, Mail,. 9A36 'AUTHOR: Zybimt G. Tra&qhav,,~:V.jF.; ............... . ........... TITLE. Triede electron for shiving'an: electrow beeizi it low~i roth=- tu a z~4. r4 rid potentials a. vvo., TOPIC, TAGS: electron gun, ectron beitmi triode Olectl~pft guA: TION: Operation is consider-; d il 'lactr6n~ i0i WA tta~ --con "-,gr 'TRANSLA e 0 1 an: a the _ ,,;,j, ~~ ; ] --___:_--itiear-its--c.athode under conditions- whe'n rid ~,oterti : i low' r than the Aatul~~al 9. potential (the latter existed at the place now occupied by the grid). Running the grid below natural potentials ia aecessary in order to redurm the grid-;heating average power. However, this also reduces the beam spatld.-cLtrge paraniater and a leno effect occurs of the grid calls. The leas effect may considerably increase the beam diameter. A formtaa ia derived for the velattau of the ormce- LIZ ard C allI #AMMM  start with selecting a diode syeteM With a defInIte curreAt Margttrl_ AS M(h MIN- effect-caused variation of the beam diameter is Unpossible to calculate, the designing must be completed by an electrolytic cell mimula.,tiort. A gun was designed which ahapes a 4-mm diameter electron beam with a 10 &/0/1" space charge, at zero potential an the grid with a gain of about ZO and &a accelerating voltage up to 20 kv. The basic diode aystem had at nipace-ch"ge parameter of 3.6m 10-4 amp/v I/f. The estimated gun Varnimaters are in pod agreement with the experimental. Bibl. 4. SU13 CODE: EC EXCLs 00   ZY]BALOVA, G.P.- ZVYAGIIVSEV, K.N. Effect of certain lignite properties on fire drift,movements advancing toward the blow* Podrem.gaz,ugl. no*.2:46.!.51 153. (Xiu. 12:9 1. VSSSOTU2My nauchno-ionledovatellskiy i proyektiW7 inatitut podzemnoy gazifikateii ugley. (Lignite--Testing (Coal gasification, Underground)  TXMINO I.Y.; ZTBALOTA, G.P. Ef feet 4F ~strogrmphla characteristics of oool.on theefficiency of pre-heating In the undergroundganification proces8b Padvem. gas. ugl. no. 2:59-64 158. (HIUU 111:7) 1, Institut goryuchikh iskopayerV n . _~h im.G.H.Xrzbizha'ovskogo All SSSR I Vaesoyuzny7 nauchno-iseledovatell,skiy institut PQdzemgmz. (Cosi-,-Seting) (Coal gasification, Un(larground)  ZYRALOVA, G.P. Angren coal for use in underground gasiflcatlon~o Pod.zem,.Saz.vgIi no.2:110-113 057. CV-9A 10- 7) Vesaoyuznyy nauchno-iseledovateliekly Inatibat Podsagat. (Coal gasification, Underground) (Ingren Ysiley-4-oal)  IYBAW LAVROV, N.V., akademik; Reactivity of Angren and Moscow coals. Izv.AII Uz4SSR. Ser.tekh.4uk no.6:58-63 '61. (MIRA 14:12) 1. Institut goryuchikh iskopayemykh AN SSSA~11 Institut energetiki:, i avtomatiki AN Uzbekskoy SSH* 2. AN Uzbekskoy S$R (for Lavrov).'~ (Moscow Basin--Coal--Analysis) (Angren Basin-Coal-Analy'sis)  ZY-AT-YOVA, L. K. CLux; Geol-1.1ineval Sci Imi t~f gqola~,.- geomoil~jl,hololdcal motlious for e-yplainini- ~~he lu.,xil t; txuut~zes o f the central area of tl,-e 1.1e~i --,,rn Siber-Lan lovilaxid,- Novosibirsk: p 1960, 17 pp, 150 cOP (To,,,)sk State U I'm V, Kuyj),,',C~l ev) (U) 4)-60:~117).  ZYATfKOVAv L.K.. fletLod r-ta-w-tur-I cnd goornoryholo-ical in-10:3~."'ations in "ho central part of the Itost Silborian Plain. Geol. i ,mfiz. no,, L~ - 20 100, (UP-11 14:2) 81'birt;ko~lo olldeleniya AIT ss$R1 1. InAitut 1-eolo.-ii i ("IcA Slb~uian !'lain--r,,colc:,Yp 3tructurul~   ZYATIKOVA. Luiza Konstantinovna,- NIKOLAYEV, V*Ao 1, kand.geol.-mineral* nauko ALEKSANDROVSKIY, B.14.p red*; LOKSHINA, O,A., tekhn'.0red, [Geological and geamorphological.-mothods of detecting local struc- tures, the central part of the West Siberian Plain.j Gevlogo~-gao- morfologichookie metody vyiavleniia IftalInyich struktur; tsentralt- naia chast' Zapadn~ibirskoi ni=ennesti* Novosibirsk., Izd-Vo S1- birskogo otd-niia AN SSSR, 1961* 76 pa (Akademiia nauk SSSR.:Sibirs- koe otdelenie. Institut geologii i geofizW- Tradyp no..3,4) (;UR.k* 16:9)      KARPOV, Boris Dmitri-yevich; ZYATYUSHKOV, A.I., red.; LEBEDEVA, G. T. , tekhn. red. [Work hygiene in industrial painting] GigjarjA truda pri mallarnykh rabotakh. Leningrad, Medgiz, 1963. M p. (MI11A 16t11) (Painting, Industrial--Safety measures)  BURLOVA, Lidiya Ynkovlevna; LEBEDEVA,Alekoandra Filippovna; TARASOVAP AMa Vladimirovnao- ZYATYTJSHKOVA. I. red.; BUGROVA,T.I.j* tekhn.rod* (Work bygiene in plants of the textile industry; cotton- spinning and weaving manufacture] Glgiena'-Lruda na pred- priiatiiakh tekstillnoi promyslilennosti: V bumagopria- dillnon i tkatskorl proizvodstve. Leningnid) Medgiz, 1963. 49 P. (14IRA 16:12) (COTTON FIMUFACTURE-HYGIENIC ASPECTS)   SHAGOVA, Yokaterina Mikhaylovna; 2YATYUSEKOV. A_..L 9-j-P4. jLEDEDEVAp Z.V.p tekhn. red. (Guard children's eyesight; eye i'njuries and their preventi~nj Beregite zrenie detei; povrezhdoniia glaz iiikh preduprezbde-. . (MMA 15:8) nie. -Leningrad, Yedgiz, 196',. 22 P. (M-WOUNDS AND INMUES) (EU-PROTECTION)  ROZENFELID, Aleksandr Semenovich; ZYATYUSHKOV A.L., red.; LEBEDEVA, G.T., tekhn. red. .. ~~ ~- (Water and healthj hygiene of water supplyl Yoda i zdorov's; gigiena vodoonabzheniia, Leningrad, Medgiz, .1963. 29 p. (MIRA 16slO) (WATER SUPPLY--HTGIENIC ASPECTS)  TONKONOGIY, Iosif Moiseyevichj ZYAMSHKOV, AJON red.; BUGHOVAP T.I., tekhn. red. [Speech disorders, their prelention and treAmeni],Rechevye raostroistva, ikh preduprezhdenie i lecheni6, Leningrad Medgizp 1963. 34 P. (MIRA 1701   RETNEV, nadimir Mikhaylovich; ZYATYUSHKOV, A.I., red.1 ONOSHKO,, N.G., tekhn. red. (Work hygiene in concrete production) Gigiena truda pri izgotovlenii betona. Leningrad, Medgiz, 1963. 99 P. (MIRA 160) (CONCRETE PLLNTS--SAFETY MEASURES) I q~ fl, mt. I I  AUTHORS: _jygtnjqhkQy*-AL-, Colonel of the Medical Corpql, Candidate of Medical Sciences, and Tsukerman, B,G. TITLE: The Accommodations and Sick Rate of Submarine Crews. (Usloviya obitMmosti i zabolevvZemosti,lichnogo sostava na podvodnykh lodkakh) According'to Data From Foreign Publications (Po dannym inostrannoy pechati) PERIODICAL: Voyenno-meditsinskiy zhurnal, 1958., Nr 4t Pp 74-80 (USSR) ABSTRACT: The article is.founded on data from American, Getman and Italian literature. There is 1 table. Card 1/1  ZYATYUSHKOV, Alfey Ivanovich; DINBO, A.G., red. (Reduction of pulmonary gas volumes to nor tail conditions and calculations of some proper values; priheiples and tables] Privedenie legochnykh ob"emov gazov,k normalInym. usloviiam. i raschety nekotorykh dolzhrWkh velichin; oboanovanie i tablitsy, Leningrad, Meditsi6ap 1965. 137 p. (MIIIA 16:9)  PLEAWOV. A.F.; PODVALINYY. A.T. Removing copper from the cobalt oxide produe tion c le. Tsvet. met. 32 no.2:49-52 7 159. iVIO4 I RA 12:2) (Cobalt metallurgy) (copper)  AUTHOR: Zyazev, A.D. 136-2-14/22 TITLE: Jimplified Method of Protecting Plant from Corrosive Solution and Pulps in Cobalt Production.~ (Uproshchennyy sposob zashchity apparatury ot aFSressiv*kh:rastvorov i pullp koballtovogo proizvodstva) PERIODICAL: Tsvetrorye Metally, 1957, ,Iqo. 21 PP- 77-78 (USSR) ABSTRACT: The disadvantages (slowness, complexity, expense, etc.) of the method used, e.g. at the Ufaleyakiy Nickel Works, for protecting plant metalwork from the corrosive action of material being processed to obtain cobalt are outlined., A method is. proposed by B.V. Aleshintsev based on the use of type 500-600 Portland cement with bricks and plates. Exalkoles given of applications to different shapes of units inclade pipe connec- tions, Pachuca tanks, collectors, cisterns fortransporting hypochlorite and suction filters. Per unit of protected area this method cost about about a tenth compared with the method described by K.A. Polyakov in "Non-Metallic Chemically Stable 1/1 Materials", pp. 80-86. It is recomniended for wide use not only in cobalt production. There are 6 figures AVAILABLE: Library of Congresa   SOVAIJ.36-59-2-11/,241 AUTHORS: Plekhanov, A.F., Podvallnyy, S.T., Zyaze--.r, A.D. and Kalugi-na, A.T. TITM: Elimination of Copper from the Cobalt-O~cide Production Cycle (Vy-,,-od- medi iz tsikla. pri pro,izvodst,,-e oki;si kobal'ta) PERIODICAL:Tsvetnyye Metally, 1959, Nr 2, pp,49-52,:(USSR) ABSTRACT: The existing method at the 'Ufaleysltiy Nilmlevyy Zavod (Ufaley Nickel Works) for removal of copper from,cobalt solutions is to precipitate with soda ash. This gilres a copper cake with 0-3 to 0.5% cob 'alt which has'-to be reprocessed, leading to deleteriou,s acv=ilatuion of copper in the first stage of cobalt--omide production. The work described had. -the obieG', of exploring the U possibilities of using sodium hyposulplLata fo2.1 the precipitation, giving a copper cake whiah coulUbe eliminated from the product-on cycle. Laboratory experiments showed (Fig 1) ~~at 3001% (or 7.5 kg per kg copper) of the theoretical aaoiint of hyposulphate -was necessary to precipitate all the copper independently of acidity (0.04 to 0.05% 00 inthe precipitate), that Card 113 the best temperature for precipitation was 80 to 9000  -OV/136-5c)-2-11/24 ,,Elimination of Copper from the Cobalt-Oxide Production Cycle' the best hyposulphate concentratiop-.10 to 2091o' (Fig 2) and duration 12 to 15 minutez (Fig 3). Oh t-he ba'sis of these satisfactory results prodrctim trials on a mechanically-sti-rred vessel of "'.2 0 CaL:~-Iclt-y were organized. In one series i-ron-free ~so.10111_ons wer's used, in the other the solutions contaiwd~ tra"I. The results (table) were substanti_,,.~-,Ily the same in series but the duration of the subsequirant ope7.a~-ion.of cobalt, precipitation by chlorine took 3W, loyige~~ wit-h the*li~ron- free sol-utions. The consu-aptloa of hrirjos~tlphate could be reduced to 4.8 kg/kS coplie-r by the time interval between successive additions to 30 minutes and the cobalt, cont--nt- in t1t~_ cake was low enough (0.1% ma4 to make fuxther treatm-=t v_nne,_,eos_-._r7. The Wield of copper cake was twice as low as with sodalash. The, Card 2/3 authors conclude that the possibility of copper     ZYA2DCT, T.; KAMNSKATA, A.; MALTSINV, A.; SHUSTOV, At Using the qrsten of closed ciroLits In orgazilsing interurban freight haulage. Ayt.tranap. 38 no.9:11-~4 S '60. (KIRA 13:9) tTransportation, 'Automotive)  ZTAZET, V. Interurban trucking and vehicles used for it, Avt. trane-P, 3 ne.10'.' 23-26 0 '59. (MA 13:2~ loNauchno;-issledovatellskly Institut avtomobillnopp traneporta. (Transportation, Automotive)   BILIBINA, N., kandidat ekonomichookikh nauk; ZTAM, V., inshener; SEMIN, V., inzhener. The efficient organization of centralized hauling In theregion of Ivanovo Province. Avt.transp-33 no-10:5-7 0~155- (HLRA 9:1) (Ivanovo Province--Transportation, Automotive)  ZYA,ZXV. V.. 'Lnzhanar; SHUSTOT. As. inthener. Intercity automotive transportation In Poland. Avt.transp. 35 n0.3:39 Mr 157. (MM 1015) (Poland-Transportation, Automotive)   ANDRIYEVSKIY, M.; ZYAZEV, V.  ZYAZEV, T.; NAKASHIDZE, D. lVew method for sugar-beet transportatlon.~ :Avt. transp. 41 no.5:10-U My 163. (MIRA 1611o) (sugar beets-Transportation)   ZYAZZY, YS 14 - .. 1, NNOWMa-MMI Nil- =Ve op and improve intercity freight haul4ls by means of small shipmenti.'Ayt. transp. j5 no.5:10-13 MY '37. (KLRA 10:6) Automotive)    ZYAZ,EY, T.L. (Sverdlovsk); RML131118VA, M.N. (Sverdlovsk) Cases in copper ingota ;,nd their determination. Trir, AN SSSR Het. i gor. delo no.2t-132-136 Ix-lb'64 (KRA 17t8)   S/137/62/000/006/011/065 Aoo6/Aio1 AUMORS Ivanovskly, L. Ye., Ilyushchenkoj N. G., P16.khanoyj A. F., ZyazeV, V. L. TITLE: Separating rare-earth metals by fused salt electrolysis PERIODICAL: Referativnyy zhurnal, Metallurgiya, no~ 8, 1962, 27, abstract 80188 C'Tr. In-ta elektrokhimii, Ural'skiy'fil. ANISSSR", 1961, no.,2, 131 134) TEXT: Separation of rare-earth metals was investigated in fused bath electrolysis containing a mix ureof rare-earth chlorides'. it was found tfiat,at all the D. (0.25 - 1.5 amp/am ) and temperatures (850 - 870) 560 - 76000inves- tigated, alloys are obtained which are considerabli impoverished of La (3 - 5 weight %) and enriched with Ce (up to 8o%). The total Priand N.d amount remains practically constant. The nature of cathodic deposits varies noticeably with temperature. Their salt'content varies from 75 to 80% at 5600C and from 30,to 40% at 7000C. There are 11 references. [Ab Istrac..t~r's note: Complete translation] 0. Svodtseva Card 1/1   27213 B/081/61/000/'014/010/030 B106/B110 AUTHORS: Ivanovskiy, L. Ye., Ilyushchenko, N. G., ZyazeV, V. L.,' Plekhanov, A. F. TITLE: Oxychlorides of rare earths of lowest valency PERIODICALt Referativnyy zhurnal. Khimiya, no. 14,~1961, 57, abstract. 14915. (Tr. In-ta elekt.rokhimii. Ural'skiy fil. AN SSSR., no. 1, 1960, 55 - 6o) TEXTt The authors studied the reaction of a mixture of chlorides of, rare earths with mishmetal in the pr esence of 0 2. They separated a mixiu re of oxychlorides of lowest valency, M 2ocl2 (M - La, Cey Pr, Nd). They studied some properties of these compounds. In the electrolysis of chloride. baths where the possibility of a contact of 02 of air and moisture with the melt was not excluded, it was shown that the oxidation of the salts apparently yielded oxy cations M OC12+ which were discharged on the :cathode and, tbas, 2 2 were transformed to the oxychlorides of lowest valency, M20012. The anodic Gptrd 1/2  27213 S/061/61/000/014/010/03P Oxychlorides of rare earths of lowest B106/B11O dissolution of the mishmetal was also examined. In the anodic dissolution, the chlorides of bivalent elements are formed in the meltij, whose reaction with 02 also leads to the formation of oxychlorides of the compositi on mentioned. LAbstracter's notet Complete translatioh.3 Card 2/2  "Electric Conductivity of Vanadium Slags, lecture given at the Fourth~Conference on Steelmaking., A.A. Baikov Inatitute.,Of Metallurgy, Moscow, July 1-6, 1957   AUTHORS: Yesin, 0. A., -9-23/38 SOV/78-3 21TLE: The Electric Conductivity of the Syst,ems V 2 05-PbO, V 205-CaO, -Ca 0 1 istem V -PbO, V and V -MgO (Elaktrop::o vodnostl s 0 0 9 1 2 2 2 . 5 5 5 V 0 -MgO) 2 5 PERIODICAL: Vol 3,:Nr 92 pp .2143-2149 Zhurnal neorganicheskoy khimii, 1958,, , (USSR) ABSTRACT: The electric conductivity in the syste~mq VP -PbO, V 0 -CaO, 5 2~5 and V 0 -MgO was investigated within the temperature range of 2 the liquid and solid state. Three coiqgruently melting,compounds occur in the system V 0 -PbO,. V 0 2PbO, V 0 .3PbO, and V-0 .8PbO. 2 5 2 5* 1 2 5 2 5 The electric conductivity is investigated in pure V 0 and PbO 12 5 as well as in nine melts containing 23,5-95% PbO. The:isothermal lines of the electric conductivity an& theyalues of the activation energy E'were compared as.vr'ell in the phase' diagram. Two maxima occur on the curve of the activrition energy,. 14,4 k.cal/mol in the case of 67/4 PbO and 15,2 k.cal/mol in the Card 1/3 case of 98% PbO. These maxima correspond to the occurrence of  50'1/78-3-9-23/38 The Electric Conductivity of the Systems V 0 -PbO, V 0 -CaO, and V o,-mgb 2 5 2 5 2 5 the following chemical compounds; V 205-3FLO and V 20 50 8PbOo The electric conductivity Is increased with rising PbO-content up to 45~. The elentric conductivity in the system V 0 -CaO was 2 5 investigated for melts of V20 5- CaO with 11,7 - 37,dc-C,90. The -irelt has ionic conductivity at 23,40/6 CaO. The compound V20 CaO exists in the liquid melt* In the initial period the electric conductivity decreases rapidly to io%'.CaO in these melts,', probably in consequen-ce of the dissociation of V 0 at higher 2 5 temperatures. The system V 20 5-MgO is completely analogousIto the system V20 5-CaO* The melt has ionic conductivity at a MgO content of 20,7%. MgO, CaO, and PbO influence the structure of V 0 in the melt. The form of the isothermal lines of'the. 2 5 electric conductivity and the ou.-vea of the* activation enargy indicate the presence of the following~comppunds in the melt of the systems investigated- V 20 5* 3PbOj V2 05.8PbOt V205 CaO,- Card 2/3 2V20 503MgOo There are 6 figures, 3 tables, and 12 refe:rences,  SOV/78-3-9-723/36~ The Electric Conductivity 6f the Systems V 205-PbO, ~V~205- CaO, and 11 20 5'-4~go 5 of which are Soviet,, ASSOCIATION: Ural'skiy filial Alkademii nauk SS$Rj. Institut: metallurgi-I (Ural Branch7AS USSR,,Institute of Metallur'gy) SUBMITTED: January 15, 1957 Card ~/3  31671 S1631 6010C)0100110081014 V. Lij OD B117)B147 AUTHORSt Ivanovskiy, L. Ye., Ilyushchenko, N. G-I-&xazevL V- L.) Plekhanov, A. F~ TITLE: Oxychlorides of rare earths of lowest valencies SOURCE; Elektrokhimiya rasplavlennykh solevykh i tverdykh elektrolitov, no. 1, 196o, 55-6o TEXTt The interaction of oxygen and rare earth metals with chloride melts of rare earths was studied. In the first series o:f experiments, the authors used a misch metal (% by weights 22.5 La, 53-0 Ce, 4.53 Pr, and 16.3 Nd) obtained by electrolysis, and a chloride mixture (% by weights 26 La2 53.9 Ce, 4.85 Pr, 11.42 Nd) obtained by chlorination of oxides of rare earths with gaseous chlorine in the pre Isence of carbon, The result was a deposit of oxychlorides of lowest valenoyt 116 OC1 , where Me stands 2 2 f 'or La, Ce, Pr, and Nd. This mixture is slowly hydrolyzed in water to,give hydrates of highest valency. When boiling, decomposition proceeds1rather quickly. During heating, the product readily reacts with acids, particularly Card 113  31671, S/631/60/000/001/006/014 Oxychlorides of rare earths of lowest ... IB117/B147 0 nitric acid. It oxidizes easily at 300-400 C forming mixtures of oxides of rare earths at higher temperatures. In another series of experiments, the reaction of oxygen with chlorides,of rare earths in,an open bath at 580 - 6000C was studied. A graphite vessel was used as electrolyzor and anode, and molybdenum rods were used as cathodes. ~The dlectrolyte.was a mixture of chlorides of rare earths and potassium chloride (50~ MeC 13and XC1). The amount of lowest oxychlorides formed in all experiments depended on the amount of products in the bath obtained.by decomposi-cion of salts under the action of oxygen and moisture. Finally, the misich metal in the potassium chloride melt was anodicall~r dissolved at 8500C in an open and a closed bath. The authors always found oxychlorides of lowest, ,ralencies with a ratio equal to that of initial subBtances. Summarys-In the case of interaction between oxygen, chloride melts of rare earths, and misch metal mixtures of low-valency oxychlorides of rare earths were obtained. The summational reaction can be written downi 4MeCl3 + 302 + 8Me = 6 Me 2OCI 2' The formation of oxychlorides on the catitode may be explained by the formation of Me2Oci4 soluble in the melt by Card 2/3  31671 S/63 60/000/001/008/014 Oxychlorides of rare earths of lowest ... B117XB147 decomposition of salts. The formation of MYC1", whose discharge on the 2 cathode yields Me2001 2' is well possible. At the same time, direct: reaction of decomposition products with the metal deposited on the cathode is also possible. Bivalent chlorides of rare earths are formed in the melt due to anodic dissolution of the misch metal. Their reaction with~ oxygen also yields oxychlorides of the same composition. There are 4 figures, 2 tablesj and 5 referencest 4 Soviet and 1 non-Soviet. Card 3/3  ZrAZRV, V.L.; YISIN, O.A. Viecosity and density of the systems T205-C`G and T 0 Isr.81b.otdd AN SSSR noo*9:3-9 158, Vol- 3-1) I* Ural'skly filial Akademii nauk SSSR. (Tamaditus oxides) (Viscosity) (ftsion)  24567 3/137/61/000/005/005/060 ~~~00 A0061AI06 AUTHORS., Ivanovskiy,..L;Ye., Ilyushchenko, N.G., Zyazev, V.L.., Plekhanov,A.F. TIM: On oxychlorides of rare earths of lower valences. PERIODICAL: Referativnyy zhirnal. Metallurgiya, no. 5., .1061,16, abstract 5Aj4 ("Tr. In"ta elektrokhimii. Ural'skiy fil. AN SSSR". 19~0,no.l, 55-60) TEXT- An investigation was made of the interaction of mixtures of rare. earth chlorides and "mishmetall" in the presence of *02' A mixture of low Valen- ce oxychlorides, Me20C12, was singled out where the metals were La, Ce, Pr,, Nd. Some of their properties were investigated. It is shown that in electrolysis.o chloride bathes, where the possibility of a contact of atmospheric 02 and mois- ture with the melt was not excluded.. Me20C12 2+ oxycation6 are apparently formed as a result of the oxidation of salts. The discharge ofl~these oxycations.on the cathode causes the formation of oxychlorldes of lower valence; the %0%. The anodic dissolving of mishmetal was iniestigated. During the anodic dissolution in the melts 2-valent chlorides of rare earths are formed,, whose Interaction with 02 causes also the formation of oxychlorides of the same composition. T.,.K. [Abstracter's note: Complete translation] Card 1/1    ZYAZEV, VA.; YESIN, O.A. 0 - Fe 0 V CuO sind Viscosity and density of the systems v2'5 2:3 2 V205 - CaQ - Fe203. Izv. Sib. otd..AN SS4R.mo.Ift13Qd, :(KM M-.712) laUrallakly filial AN SSSR4 (Systems (Chemistry)) (Viscoaty), (Fusion) n wiaiii 1"  SOV/11T-59 ~3-5058 D Translation from: Referativnyy zhurnal, Metallurgiya. 1959, Nr 3, 24 (USSR) AUTHOR: Zyazev, V. L. TITLE: Physicochernical Properties of the Simplest Va'nadium Slap (Fiziko- khimicheskiye svoystva prosteyshikh vancidiyev!ykh shlakov) ABSTRACT: Bibliographic entry on the author's dissertation for the degree of Candidate of Technical Science's, presentedto the UraL'skiy polite- khn. in-t (Ural Polytechnic Institute), ',Sverdlovsk, 1958 ASSOCIATION- Urallskiy potitekhn. in-t (Ural Polytechnic Institute):, Sverdlovsk  AUTHORS: Zyazevt V. L., Yesint 0. A. 78-3-6-100 TITLE: Viscosity and Density in the V 20 5-PbO.-Systsm (Vyazkost' i plotnost' sistemy V 0 -P,bO) 2 5 PERIODICAL: Zhurnal Neorganicheskoy Xhimii, 1958,, Vol~~3, Nr 6, PP* 1381-1385 (USSR) kBSTRACT: The viscosity and the density of the e namels of the V PbO- 0 , 2 5 system inoludirig the pure oxides of V 0 -PbO were 2 5 determined. The determinations of density were pe rformed by heating and cooling the enamel. The dependence of temperature'on the viscosity and ienisity in the V 0 enamels with a PbO content of 28,3-88,9% waa~, 2 5 investigated. The density of the enamels of the V 20 -PbO-system waa 0, ~000- investigated at temperatures Of 80 :and 120000! At 68% PbO a minimum is observed in the density ourvelan4 in alloys with 79t7% a break was found. Pro'bably the atomic groupings occur in the enamel -under formation of the Card 1/2 following chemical compounds:  Viscosity and Density in the V 0 -PbO-System ~13-34-15/30 2 5 V 0 2PbO, V 0 3PbO, V 0 8Pb0,1 2 5~ 2 50 .2 50 It was found that in the enamel of th e system at 1000 0 C a relatively high specific conductivity,~and little viscosity are prevailing. The existence of the above-mentioned: chemical compounds was confirmed by the curves of viscosity and the determinations of density of the enamels of the V 0 -PbO-system. There.are 3 figurest 2 tables, and 10 2 5 referencest 7 of which are Soviet. ASSOCIATION: Institut metailurgii Urafskogo filiale Akademii nauk SSSR (Institute of Metallurgy, Ural Branch AS USSR) SUBMITTED: July 29, 1957 AVAIhABLE: "library of Congress 1. Enamels--Viscosity 2. Enamels--Density ~Y- Viscosity--Temperature factors 4. Density--Temperature factors Card-2/2  YESIN, 0,A.; ZYAZBV, V.L, (Sverdlovsk) Xlectric conductivity of binary systema CompogIad of vanadium pentoxide with Iron oxide and copper oxide and a number of intricate alloys, IzY.AN SSSR, Otdotakh.pauk no#6:7-11 Je: 158. (MiTtA 11: 8) l.Institut metallurgii Ural'skogo filialfiL AN SSSR. (Vanadium alloys-Electric properties)  cc.2_ Vr YESIN, O.A.; ZTAZIT.--ViL.-- Electric conductivity of oxides of vanadiumjeacl, and coppers Zhur.neorg.khime 2 no.9:1998-2002,S 157. (~IM l0ii2) l.Urallakiy filial AN SSSR, Institut meltalluz-gii AN SBSR. (Vanadium oxideo--Zlectric properties) (Ioad oxides-Electric properties) (Copper oxides--Electric properties)  0~'110E~l I VZ t AUTHORS: Zyazev, V. L., Yesin, 0. A. 57-1-2/30 TITLE: On the Influence of the Short Range Order on the Character of Conductivity (0 vliyanii,,blizhneEo porya#ka na kharakter provodimosti). PERIODICAL: Zhurnal Tekhnicheskoy Fizikit 1958, Vol. 28) Nr 1, pp. 18-22 (USSR) ABSTRACT: The authors refer to the works of A~' F. Ioffe (reference 1) and Regell (reference 1). These st ated that for th6:chaiaoter of the condr-ativity the short and not long range order of the atoms is of great importance, The measurement"Fbsults of the electric conductivity of binary alloys of V 0 with~ 2 5 PbO, CaO and MgO in various compositions and at various temperatures are given. The measurements;ere carried ~ out in open resistance furnaces (i n. the air) with alternating s zero current, looo c frequency, usual resistance bridge (a . instrument served a cathode osaillogra'h). As V 0' when p 2 being cooled oxidizes to V 0 the,measurements wilh the 2 5 second heating were more reliable end only these results are given here. The authors show thai the~transitionl~froin the Card 1/3  On the Influence of the Short Range Order on the Character 57-1-.2/30 of Conductivity semiconductor mechanism to the ion.mechanism, in the systems begins with unequal MeO concentrations. Iwall.oys of V2CP5with CaO it begins at 23t4 $ CaO, in the V20 5-490-- system at 27P7 $ M90 and with VO,,-PbO at 71 %. PbOi In' all cases the transition-begin corrts~onda ifith the first , chemical compound in,the reapective~_system. Such a,regularity points out the important part of the short range order in the atomic distribution for the realization of the semiconductor electric conductivity in alloys. The.character of the polythermB for the electric conductivity shows that in the V20 5-PbO, V20 5-CaO and V205-MgO alloys the'semicanductor', mechanism passes over to an ion mechanism with compounds which correspond to the chemical compounds with the least' second component (MeO). The regularity determined proves the opinion of Ioffe. There are 4 figures, and 13 references, 6 of which are Slavic. Card 2/3  L On the Influence of the Short Range Order on the Character 57-1-2/30 of Conductivity ASSOCIATION: Institute for Metallurgy.of the Ural Branch AN USM~ Sverdlovsk (Institut metallurgii Ural'skogo filiala All SUR, Sverdlovsk). SUBMITTED: March 26, 1957 AVAILABLE: Library of Congress Card 3/3  ZYAZZV, V.L.; TANUTROV, I.N. Effect of vacuuming on the composition and properties of cast copper. TSvet. met. 36 no.500-34 Mv (MIRA 16ilo)  SOV/94-584-2/35 AUTHORS: O.A. Yesin and V.L. Zyazev, TITLE; Electrical CondU_C_t,_VT_~Yo ; : -Bifiiry Unadium'Pahtokde- Iron Oxide and Vanadiva Pentoxide!-Poppe~.,Oxide Systemsi, ' oprovodn6st': and of someattan Complex gyat=a_ (Elektr dvoynykh sistem pyatiokisi vanadiy4 3 okislyu zheleza i okislyu medi i iyada slozhnykh splavov,) PERIODICALs Izvestiya akademii nauk SSSR, Otdoloniye tokhnichaskikh nauk, 1958, Nr 6-i'-pV 7-11 (USSR) ABSTRACT: The electrical conductivity of sevbral,oxide systems was investigated to ascertain the exten't to which tholy con- stituted semi-conductors J-n the s6iid and liquid:states. The quasi-binary systems.V205 - Fe2O3 And V205 -:CaO were studied together with three compositlons based on the ternary system V205 - .CaO - Fe 03 (see';the table'on.p 10). S O 1 8 9 % i % Cao .1 9 Two quaternary melts (V_oO 32 , %7 2 - O 4 , 1 2 10%) G M O V S 0 M 6 J 8 2 4% 2% n a 1 10%, and pOq 1 . 3. 2 7. % . g , , , of industrial Won-'Laxoe . were also investigated. A JL' ~ carbon element resistance furnace:was used for the researah7 Card 1/7 the reaction between the carbonland metallic oxides at high temperatures being prevented by a porcelain lining  11 SOV/24-58..~6-?J35 Electrical Conductivity of the Binary Vanadium Pentoxide-Iron Oxide. and Vanadium Pentoxide-Copper Oxide Systems~, and of some,*otbr-_-.- complex iystZ,= tube. The conductivity measurements were made Over temperature ranges covering both~:liquid and solid states. The melts were held in corundum orucibles. The. resis- tance was determined by means of~a bridge fed:with a 100 c.p.s. current, using a cathode ray oscillograph to indicate the balance conditions.'~ Platinum wite : electrodes were employed for imme'rsion into the oxide mixtures. The accuracy of the measurements Was 10 to 15%. The experimental mixtures wpre,heated to the maximum temperature and held at that temperature for 15 to 20 minutes, after which~the malt w6s cooled and reheated. The most reliable conductivity measurements were obtained during the second heating oycle~' and only these values a-.-- discussed in the papero ChomicAlIanalysis after the final cooling showed that disso(:.,IatiIon had oodurrbd to a high degree, thus explaining the vigorous gas~evolution Card 2/7 observed during melting. The composition containing 15% Of P0203 wag a critical one in -the V205 Fe~03 systams  SOV/21+-58-6-2/35- Electrical Conductivity of the.Binary Vanadium'Pentoxlde-lron~ Oxide and Vanadium Pentoxide-Copper Oxide Systems) and:of some~ Oax;- complex syst~--MB below this composition vanadiumipentoxide dissociated, while above this composition iron oxide decompo~se& Decomposition in the'V205 - CuOsystemlwas confined mainly to the copper oxide..: Tfie temperature dependence of the electrical conductiiity of the V205 - Fe203 system is illustrated in Fig 1, graphs 1,2 and 3 corresponding to FepO contents of 159 19.1f and 3'0-5%,;respectively.: it can L seen thatt (a) the conductivity depreased with temperature over the 550-6500G.ra'nge, ex Icept when:the iron oxide content was very high; this negative temperature coefficient is attributed to the saturation of thosq impurity levels to which solid V205 owes its P-type conductivity; (b) abo--re 6500C the conductivity increased smoothly with tempeyature, but.in some instances a decrease in conduotivity was obser7ed in the 800-8500C range, The reason for this behaviour is not understood: Card 3/7 but according to Martinet (Ref 3) and Grunewald (Ref 4) it can be attributed to the admixture mechanism of  Electrical Conductivity of the Dinary Yanad~-um Pentoxide-Iron Oxide and Vanadium Pentoxide-Copper Oxide Systems~9 and of some Ot'hw- complex q'jdtas.;, conduction by which Fe203 is,cha~a'cterised. Ths presence of FeO as a decomposition produ6t wcs:believed~to explain why many of the investigated compositions did not display this.conductivity decrease; (a) ~the conductivity increase is accelerated at temperatuns of about 900 to 9500G. The weight losses observed at high temperatures with pure V205, and with the V20~ - rich melts'indieated considerable dissociation Of V205 and,,Fe203. The.decom- position products,V20-4 and FeO appeared to influence the temperat.ure/conductIVIty relationships; for mo~gt 'of the alloys the curves for the liquid'state are not exponential in character and therefore the aetivation energies;could not be determined. The conductlvity,~isotherms repro- duced on Fig 2 indicate an accel6rated increase ofithe electric conductivity at 15% Pe2O Above this compo- sition conductivity due to FG203phys the predominant part. Card 4/7 For the V 0 CuO system, the, conductivity-ter4perature relationsQs-of the 109 20, 302 40 and 50% CuO alloys  SOV/24- 58-6-2/35 Electrical Conductivity of the Binary Vanadium Pentoxide-Iron Oxide. and Vanadium Pentoxide-Copper Oxide,Systemsp and of. some 41*-~,~,F.-,,' Complex ~~Stekq are shown in Fig 3. (graphs I 'to resipectively)I. In this case, the conductivity also decreased with temperature over the 500 to 6250C range, but the decrease was much larger than that observed in the~prevlams system,, ~(The table, p 9, gives the factors by which bhe electria conductivity of various alloys dropped In this temperature range:for the 30% CuO alloy this ractor amounted to 8o.) Compositions containing 10 to 35% CuO,Ihad a high ~ conductivity which was attributed to an increased transfer of electrons from the copper oxide to~thoss impurity levels which determine the p-type' conductivity.of solid V205. The decrease in conducti:,Wity observed within this temperature range might have been 'intensified by the volume changes which,, according to Lucas et al.:(Ref 1), occur when alloys containing UP to 3% CuO are heated to 650-7000C. At temperatures higher than'800-9500G~the Card 5/7 conductivity increased with increasing temperatureo; This effect is attributed to the presence of the dissociation  SOV/24-58-6-2/35 Electrical Conductivity of the Binary Vanadium Pentoxide-Ir.on Oxid~~ and Vanadium Pentoxide-Copper Oxide Systems, and of some uhir ,Complex Systems products, mainly Cu20, The conductivity isotherms of tho V20k - CuO system reproduced on Pig 1+ (graphs 2 to 7) exh bit two sharp maxima at 25 and 60% CuO. The first maximum was observed only at 500..46000C. The second maximum, whose magnitude increased with temperature, is probably due to decomposition of.CuO which brings about an increased eQncentration of the-currient carriers.~ The conductivity isotherms of the tornary.and quaternary systems are shown on Figs 5 and 6 respectively: in these cases, no decrease in the conductivity with rise of temperature was observed. The experimental findings indicated that all compositions 6f the two studied quasi- binary systems behave as semi-conductors both in the  SOV/24,56~6-2/3 5 Electrical Conductivity of the Binary Vanadium Pentoxide-Iron Oxido and Vanadium Pentoxide-Copper Oxide Systems,* and:of some Complex Systems solid and in the liquid states.. There are 6 graphsv 3 tables and,13 referencesl.ofwhich 6 are Soviet, 1+ English, 2 German~and 1 French. ASSOCIATION: Institut Metallurgii Urallskogo Filiala AN SSSR (Institute of Metallurgy Ural Branch Ae.8,1. USSR) SUBMITTED: Februaryl)+, 1957  ZYAZIKOV, B.Kh,,,,,mayor zapasaj GRINCHtNKO, V,Ye.) po,lkovuikj, red.,- M.M., podpolkovuikp red.; SUKHCCLINOVp P.M,p mayor# red.j GOLUBKV, G,O.j polkovxilk zapaoup red.; FAVLOVI ?.I,, polkovn!X v otstavke, red.1 YABLOKOVA, 0,1.# red* (Gold Stars of the Chechen-Inguish A.S.S.R.; 6ketchns on Herose of the Soviet Union] Zolotye zvezdy Chinoheno- Ingushatill ocharki o Oaroiakh Sovetskogo Soliizis Grozrqi, Chsobono-Ingushokos )wAzhnoo Izd-vo, 1964. 310 p. (MIRA :1814.)  BITEKHTINA, V.A.; ZYBIN, A.S.; KNYAGINICHEVP N.I. Developing fisheries on the Ik-Saltaim-Tenis Lake system. Izv. Omsk. otd. Geog. ob-va no-5:131-136 163. (MIRA 17:5)  ZTAZIN, G. Locating the point of contact of a line an4 an electric wire. ROAL6 no.6:45 is 156. (MLRA 9:8) 1. ZaporozhskV& DRTS. (Ilectric lines)  ZYAZIN I.G. Significance of work arrangement for patients in a dispensary: serving a rural population. Sov.med. 26 no.103144 145 0 162o, (MIRA 15:12) 1, Iz Vorontsovskoy uchaetkovoy bollnitay (glavnyy vrach SA: Yershov) Voronezhskoy oblasti. (PUBLIC HEALTH, RURAL)(REHABILITATION)  ZYAZIN, I.G. (selo Vorontsovka Voronezhakoy oblasti) ----------- Role of the feldsher-midwife center in lowering the Incidence of dysentery. Falld. I akush. 24 no.12:23-27 D 159. (MIRA 13:2) (VORONTSOV DISTRICT--DYSMUnT) (PULIC IMLLTH, RMIAL)  ZYAZIN, I.G. Var itAble work schedule and preventive work. in n district Sov~xdr a ATIP 17 no.94.49-50 $158 IRA 11sB)' 1. Is Vorontsovakoy rayonnoy bollnitoy (glar!W vraob L.V.-Yadykina) Voronezhako3r oblastie' (HYMIGI10, FRumm" in Russia (Rua))  UAM, I.G. (g.Bobrorl) Results of four years of d1jobnaary seTviow-for the rural populatim. Sov. zdrar. ;..L noo9t 59 162 (14M 17 1. 1z bollnitsy VorontAdikogo rayonap Vorairmhskoy oblesti.,      BLMJMBERG, I.B.; ZYAZINA,_T.M.; TERGUMV, G.I. Investigating changes In the quality of the photographic ims e during printing. Tekh.kino i telev. 4 no-7:10-18 n. 160! (NIRA 13:7) 1. Leningradskiy institut kinoinzhenerov I TSentralluoye- konstruktorskoye b7wo Hinisterstya kulltuxy SSSR. (PhotovaphYr-Printing)  BLYUMBERG, I.B.; ZYAZINAt T.M. Rating the quality of the cinematcgrapUc imp. Usp.nauch.fot, 30.150- 57 164- (MIRA 17s'10)   ZY3AI W, A. V. Podgotovka proizvodstva na avtomobillnom -.avode (,Propar&tion of produf-tion at an watornobile~, plant). Mosiva, Mashi,-iz, 10,50. 116 p. SO: Monthly IAst of Ibissian &neqsions No. June 1953 Vol 6, 1 3, IHPMR~ H ! i "Imb, wil 7  SHEVTSOV, Ye.I., inzhener; TATSOVSKIT, S.A., inzh9ner,H4PWX,"tgm, inshener; RABIN, P.N., inzhenere' Overla7 welding of basic hearths. Stal.proizv.;no.l:10q-nq 156. (KRA 9:9) - 1.1azakhakiy metallurgichookiy zavod (for Shevtsov, Tatsovskiy)~. 2,Institut arkhitektur7, stroitel'stva i stroitelinyih materialov AN XazSSR (for Zubakov, Babirk). (Opere-hearth furnaces--Repairing)  ZYBIN, A.G.; POPOV, L.P. FrotectIon of electric mine motors. Vop.bezop.v ugoll.shakh. (MIRA 18:1) 4s224-227 164#  NOSYREV, V., nauchnyy sotrudnik; YAKUININA, A.; ZYBINt B., mladshly nauchnyy sotrudnik Poppy pests. Zashch. rast. ot vred. i bol. 10 no.8-54-55 165. jMIRA 18:11) 1. Vsesoyuznyy nauchno-issledovatellskiy inatitut lekarstvennykh i aromaticheskikh rasteniy (for ffosyrev).~ 2. Przhevallskqa zonallnaya opytnaya stantsiya Vsesoyuznogo nauahno-isaledovatell- skogo instituta lekarstvennykh i aromaticheskikh rasteniy (for Zyubin).  1"'BALM, G.P., ~ir and firo fl w-thr~;agh cotinactlon hriking ii~Angrcn. NauJ..trudy VIIIIPodz(!mgaza no.10slf5-51 t63 ),) (MIRA 1715) 1. Laboratcriye. gaztfikatall burykh tiglojy issledovat-illskogo inslihita pcdZemnoy ugloy.  NUSINOV, G.O., doktor tekbn.hauk; ZYBALOVA, G,P., kand,tekhn.rauk; Prinimili.uchastiye: PETIVSKAYA, A,N., inzh., ZVYAGINTISZV, K.N., inzhe; DUSMIUVA, N.N., inzh,,- KARNASH, E.M., inzh. First data on the underground coal gasification in the experimental gas producer of the Angren "Podzemgaz"I Gas Producer Plant. Nauchs trIudy InIII Podzetgaza ~no.6:3-10 62. (MIRA 15: 11) 1. Laboratoriya gazifikatsii burykh ugley'VsesoyUznogO nwachno-issledovatellskogo institute. podzemnoy gazirikatsii ugley. (Angren Basin-Coal gasification, Underground)  L 2094~66 _6R(1)/kfA(h) ~XMMMN NR: ARS008345 S:/ AsiladVY: 602MO 161A0 10 !SOURCE., -Ref. zh. Elektronik& i Veye prinioneniya, Mail,. 9A36 'AUTHOR: Zybimt G. Tra&qhav,,~:V.jF.; ............... . ........... TITLE. Triede electron for shiving'an: electrow beeizi it low~i roth=- tu a z~4. r4 rid potentials a. vvo., TOPIC, TAGS: electron gun, ectron beitmi triode Olectl~pft guA: TION: Operation is consider-; d il 'lactr6n~ i0i WA tta~ --con "-,gr 'TRANSLA e 0 1 an: a the _ ,,;,j, ~~ ; ] --___:_--itiear-its--c.athode under conditions- whe'n rid ~,oterti : i low' r than the Aatul~~al 9. potential (the latter existed at the place now occupied by the grid). Running the grid below natural potentials ia aecessary in order to redurm the grid-;heating average power. However, this also reduces the beam spatld.-cLtrge paraniater and a leno effect occurs of the grid calls. The leas effect may considerably increase the beam diameter. A formtaa ia derived for the velattau of the ormce- LIZ ard C allI #AMMM  start with selecting a diode syeteM With a defInIte curreAt Margttrl_ AS M(h MIN- effect-caused variation of the beam diameter is Unpossible to calculate, the designing must be completed by an electrolytic cell mimula.,tiort. A gun was designed which ahapes a 4-mm diameter electron beam with a 10 &/0/1" space charge, at zero potential an the grid with a gain of about ZO and &a accelerating voltage up to 20 kv. The basic diode aystem had at nipace-ch"ge parameter of 3.6m 10-4 amp/v I/f. The estimated gun Varnimaters are in pod agreement with the experimental. Bibl. 4. SU13 CODE: EC EXCLs 00   ZY]BALOVA, G.P.- ZVYAGIIVSEV, K.N. Effect of certain lignite properties on fire drift,movements advancing toward the blow* Podrem.gaz,ugl. no*.2:46.!.51 153. (Xiu. 12:9 1. VSSSOTU2My nauchno-ionledovatellskiy i proyektiW7 inatitut podzemnoy gazifikateii ugley. (Lignite--Testing (Coal gasification, Underground)  TXMINO I.Y.; ZTBALOTA, G.P. Ef feet 4F ~strogrmphla characteristics of oool.on theefficiency of pre-heating In the undergroundganification proces8b Padvem. gas. ugl. no. 2:59-64 158. (HIUU 111:7) 1, Institut goryuchikh iskopayerV n . _~h im.G.H.Xrzbizha'ovskogo All SSSR I Vaesoyuzny7 nauchno-iseledovatell,skiy institut PQdzemgmz. (Cosi-,-Seting) (Coal gasification, Un(larground)  ZYRALOVA, G.P. Angren coal for use in underground gasiflcatlon~o Pod.zem,.Saz.vgIi no.2:110-113 057. CV-9A 10- 7) Vesaoyuznyy nauchno-iseledovateliekly Inatibat Podsagat. (Coal gasification, Underground) (Ingren Ysiley-4-oal)  IYBAW LAVROV, N.V., akademik; Reactivity of Angren and Moscow coals. Izv.AII Uz4SSR. Ser.tekh.4uk no.6:58-63 '61. (MIRA 14:12) 1. Institut goryuchikh iskopayemykh AN SSSA~11 Institut energetiki:, i avtomatiki AN Uzbekskoy SSH* 2. AN Uzbekskoy S$R (for Lavrov).'~ (Moscow Basin--Coal--Analysis) (Angren Basin-Coal-Analy'sis)