SCIENTIFIC ABSTRACT YURKOV, E. I. - YURKOV, V. N.

ACC NRt APP27424 lov for many useful cbgervations~ The author thankg 9~ ff. Mrv,"vok-ava and A- Latypova for doin the principal numerical. computations- Orig az;. has. 2 figures,~l formula. SUB -CODE: 201 SUBN DATD*t 1 11 Kay65/ ORIG-FXF'- 002/ OTH FMF-. 003   G. G. -Director of Lugansk Oblastf Veterinar- y taborabory EPIZOOtiOlOSY-Of list~'rell.Osis in agricultural animals of Lugahsk Mlastwo Veterinariya, Vol. 3T, No. 11, p. 48, 1960.  ster.nauk~ ANDRrfAN YO.A., kand.veter.nauk; VOLOSHCHUX0 kancl.v T~. G. nxuahnyy sot~njdnllk S-uoing experimental leptopplrosio n wine, Veterinarlla 1+2 no,9:33-35 S 165* (KRA ISS31) 1. Luganskaya. ob3A!Atriaya aa!'3kokhozyaystvenna-ja opytnaya stantsiya,   1,1II91ACIDWY N.V.; WARM,') V.P.; AGEYEV, L.S.; DOIRISOVICII, Yu.F.; LYUBASHENRO, S.Ya.; XOP11EYE-EV, i.p.; Yu.A.; IIIRKOV, G.G. Book reviews and bibliography. Voterinariilft4Otio.l-!tf,3f~-8~,) Ag 163. (141RA 17:10)  lult&UVI G. K. Physics Study and Teaching J g tile relation between chtmistry and phy~!jcs couses No- 3, 1952. in veconc-rf ..chcr_.J,, shkoley M2D-tL.lz List -2f LU-43'all Ac-c-essJan-s, Library of Congrmss, November 1952. Unclassifi,!d.    SHEBALINY D,V.,, polkovrdk; YURKOU G.L., mayor, red.; KARPOV, I.I., tekhn. red. (Military topography] Voonnaia topografiia; uchebnoe po- sobie. 12. izd. [n.p.] Voen.izd-vo narodnogo komissariata obor., 1946. 211 p. (MIRA 16.8) (MILlitary topography)  MIKHAYLOV, M.I.$ dokto:r tekhn. nauk; NOVOM-WV, A.S.0 kand. tekhn naul". Prin-Inall'i lucl-hastiye., tekhnik; AMELIKINA, V.11. IV. tekhnik; YUMMOV, L,D,,, otv. red.; VOLODARSKAYA, V,Ye., red. [Regulations governing the construction and repair of overhead commmication lines and wire broadcasting not- works] Prav-1.1a stroitellstva i remonta vDzdushrVkh linii 3viazi I radiotranallatsionrykh sotoi. IIoskvn, Svlazl- ivdat- -r-IL-4- 1962. 109 1j. (MIRA 11-3) 1. Russia (1923- U.S40.ft.) Ministerstvo svyazi.  38084. YUTaOV, G N* Opyt borlby a poteryami na proizvodstve. Tusev. khrustallnyy 2aVOd)o Legkaya prom-StIt 1949, no. 11, as 10-11  5W SOV/76-33-6-,20/44 AUTHORS: Brounahteyn, B9 I.1 Yurkovi G. 11. TITLE:: Computation of Thermodynamic Functions of Diatomic Ideal Gases, ihe Molecules of Which Are in the 3n Electron State (Vychisleniye tormodinamichaskikh funktsiy dvukhatomnykh . -ideal' nykh gazovp molekuly kotorykh nakhodyatsys, v 30 elek- tronnom sostoyanil PERIODICAL: Zhurnal fizicheskoy khimii, 1959, Vol 33v Nr 6$ pp 11289-1298. (USSR) ABSTRACT: A computation method was worked out,.which is more accurate than the one suggested by Gordon (Ref 1)9 and which serves for the computation of thermodynamic functions of diatomic ideal gasea# the molecules of which are in the 3n electron' state (re&ular and inverse), with an arbitrary bond type according to Hund. The two.caaea of an a and b b9nd accord- ing to Hund (of high and low temperature) are consideredy and it is stated inter al that a correction according to Bud6 (Ref 2) into the equation (1) by Hill and van Vleck Card 1/2 77~~ (Ref 3) leads to a wrong deriva .tion; hence, this correction  36V 76-33..6-20 44 Computation of Thermodynamic Functions of Diatomic Id dal Gases the Molecules of Which -lire in the 3j, Electron 3tate must be, rectified. Some new and more simple computation equa- tions (than those by Gordon) are derived (45) - (52). (9)1 (34) - (36) and on the strength of the example r-.f the mole-, cules C and TiO the values of free energy and entropy are 2 computed; they are furthermore computed according to two bother methods and compared (Table 2). There are 2 tables -ani 10 referencea2 3 of whiah are Sa~iet. ASSOCIATION: Institut prikladnoy khimii,Leningrad (institute of Applied Chemi.1try, Leningrad) SUBMITTED: November 13: 1957 Card 2/.?   BROUNSHTEM, B.I.; GURVIOR, L.V.: YWOMN. V.S.; rov,-ajL, Statisticai'methods of.computing the thermodynAudc ft=tlorA e_ Idgal 91180g- RaP')rt 'to- 2: bTreGOiOn fOr the StMistical sun bage(I on the states of diatomic molecules. ~bthod of diroot summation based on tfie levels of diatomia'moleciules. 2~~7 GIRM-no-42:11-20 159, (MIU 13: 10) (Gases)  Statietical methods of computing the th&=WYMmic f=Cti=S of Ideal gasGB- RGP'Zrt 3-'. APPro3dmate methods of calculating the statistical sup from th4 rotational states of diatomic molecules. Trudy GIPKR- no.42:21-50 159. (HM 13: 10) (7hermodynamics) (Gases)  S/061/61/000/012/004/028 B105/B202 AUTHORSs Brounshteyn B. 1.1-Turkov# G. No TITLEs Statistical methods of.calculating thermodynamic functions of ideal gases. Communication IV.- Approximation methods for calculating the statistical sum of the vibrational and rotational levels of diatomic molecules PERIODICAL Referativnyy zhurnal. Khimiya, no. 12# 1961, 6Z abstract 129409 (Sb. tr. Gos. in-ta prikl. khimii, 1960, vyp. 46, 3-14.) TEXT: In continuation of a-paper published earlier (Communication III, RZhKhim, 1960, No. 12, 46007) the authors describe approximation methods J for calculating statistical sums of the vibrational and rotational levels of the energy of the molecules in 1z_,2S_, 3& , 2 jr_ and 3Tr states. The calculations were made by the method of A. R.-Gordon, C. Barnes (11J. Chem. 0 Phys.",, 1933, L, 297) for all givert states, by the method of L. S. Kassel (11J. Chem. Phys.11, 19351 it.576; "Chem. Rev.*', 1936, 18o 277) for the Zele tron state, and by the method of D. Mayerj M. Geppert-Mayer Card V2  S/OBY61/000/012/004/028 Statistical methods of calculating ... B105 B202 (Statistische Mechanik. IL, 1952) for the Z state. The authors obtained calculation formulas. It ia emphasized that the generalization of the methods of Kassel and Hkwr -Goppert-Mayer for othQr electron statee is .,analogous.to the mentioned calculations of these states made by the method of Gordon and Barnes. [Abstracter's notes Complete translation.]  08 61/000/011/002/040 S!5~B203 AUTHORSt Brounshteyn, B. 1.9 Turkov, 0. N. TITI,E- Determination of effective values of vibration-constants of diatomic molecules for calculating thermodynamic funotions of ideal gases at hJgh temperatures PERIODICALs Referativnyy zhurnal. Xhimiya, no. 11, 1961, ia; abstract 115 68 (Sb. tr. Goa. in-ta Prikl. Irbimii, 1960, vYP, 46, 29 - 42) TEXT: The authors describe a method of calculating the coefficient of the extrapolation equation for the energy of high vibrational levels of a diatomic molecule conjugated with the equation for the energy of experimentally deter-mined lower levels, which equation corresponds to the demand for convergence of the vibrational levele to the limit of dissociation. They also suggested a method of approximation of the energy of vibrational levels by means 9~ a power function of the quantum number )) which is based on the use of the method of least squares by introducing statistical weights for each level. The values of effective Card 1/2   .Mam'ps' S/058/61/bW/00, 009/042,~ 116-a 0.0 A001/A101 AUTHORSi - Brounshteyn, B.I.P Yurkov 0 N TITTk: Determination of effective values of oscillation constants of di- atomic moleoules for calculating thermodynamic functions of per- feet gases at high temperatures PERIODICALt Referativnn, zhurnal. Fizika, no-4, 1Q,61, 160, abstract 4V69 ("8b. tr. Gos. in-ta p rikl. khimii", 196o, no 16, 29 42) ,TEXT: The authorsdeveloped a method of'approximate'ealculation of higher oscillation levels based on the known values of lower.levels and experimentally found value of the molecule dissociation energy., They propose a method of,deter- mining "effective constants" which assure the greatest precision crf 6alculating themodynamic functions at the given numbers of constants. "Effective Constitnts" proved to be dependent on temperature. The method Is exemplified by calculating molecules of H2 and HF. [Abstracter's note: Complete translation.] Card ;71  GURVICH Lev Veniaminovich, kand. khim.. nauk,,* KRACHOOZOV Georgiy An-dreyevich, Akopovich,,. Icand. khim. nauk; 1-20VEDEV., Vadim kand. khim. nauk; VEYTS, Inessa. Veniazinovna, kand, kh-in. nauk; BEIRKMAN, Georgiy Andreyevich; MIGIM, Vladimir Stepanovich; RTISHCIMrA, Nina Petrovna; KIJaATOVAj Lidiya Fedorovm;-.IUi'MV,-fzp-=giy-411-lft-olayf)vich; YMM, A~aliya Abramovnai MIN, Boris Fedorovich; 1KROUNS11TE.111.1, i3oris Isidorovich; DAYWZ, Viktor Food6seyevich; KVLIVIDZZ,, -Valeriy Alcksandrovich; PROZOROVSKI7, Yovgoniy Aloks,,indrovJeh; IFOROBIYEV, Doris Aleksandrovich; GMASIVOV, Ya.l., rotsenzeng; SKURATOV, prof., retsenzent; GIZSHKO,,Y.P.paXad.j otv.red.; (Thermodynamic properties of individual substances; reference guide in two volumes]Termodinamicheskie svoistva ir4ividualf- nykh veohchestv; spravochnik v dvu-l:h tomakh. Izd.2 polno- stliu perer. i rasshirennoe. Pod red. V.P.Glusbkzo ioltv. red.) i-dr.- -Moskvat -Izd-vo--Akad-, nauk SS&I.-- Vol. L (Calculation of thermodynamic propertiesjVychislenie terwdinamieheskikh svoistv. 1962. 1161 p. Vol*2. (Tables of thermodynamic proportidb]!L"iiblitay-terrDdinamichookikh svoiatv-- -1962- 916 p. (11;RA 15--W (Continued on next card)  BROURSHMEYN B-01,-- RRKOVI G.N. Critical remaeks concerning P.I.Artyn's article "Calculation of thermodynamic functions of ideal gases from spectroscopic data." Zhur.fiz.kh-tm. 36 no.5:1110-1112 Vq 162. WRA 15: 8) 1. Gosudarstvennyy institut prikladnoy khiaii. (Gas dynamics) (Artym, P.I.)  ji FWS 1 BOOK WWITATION SOV16260 --Georgly Akopovich Miachk~lruzov, Vadim -Ourvich, Lev- VeniazinoVichi Andreyevich Hadvedev-3bessa Ven1am1novn&-Veyts- rizi dre s- Vladimir Ste Zrmnoyjgb-Y-u_w=nj Nina Petrovna-gt "a.; v ch"a, rAdi ura ova. Oeorgiv NI o1ayev2oh-Xu*-o-y*- Li~4 t ia,11 Knot Bor TPj4AI n-a- PI~rbvich Ag. M, ~008 )Zq~ky, klakaa~irovlcK Brou n, Vilctor acdose evic Baybu~,~* v iv1dze, Ye an Alksandrov c_ 0 - rovskly, and Boirl-d-11'ectian- Pv,i d ze' Yei%-H-r~Al r . rov oh y4v,. Temodinamicheakiye svoystva Lndividuallnykh vashoheatv, spravochnik dvukh totraldh. tom 2~i VychislenLye te=od1namicheak1kh avoystv; v tom 2: Tablitay temodinamloheskikh avoystv (51%ermodpamlo Prop- erties of Individual Substances; Reference Book io Two Volumes. v. 1: Calculation of 'Mermodynamia Properties; v. 2. Tables of Thermodynamlo Properties). 24, ed., rev. and enl. FWacow, Izd-vo AN S3SR,,i962. 13.6i.and 916 p. 4000 copies printed. Sponsoring Agencies: Akatemiya nauk SSSR. Institut goryuoh1kh iskopay--mWkh; and Goolularstyennyy komitat Soveta VAnistrov 33SR Card '/#.I  .,Themodynamlo Pr9portAes (cont.) SOV1626o po;khimi-i. Xnstltut prikladnoy khimii. Reap. Ed.: V. P. Glushko, Academician, L. V. Gurvich, 0. A. Khach- i kuruzov, 1. V. Veyts, and V. A. Medvedev; Ed. of Publishing Houssa K. P. Gurov; Tech. Ed.s N. 0. Iaut. FUMSEs Thin roCc~enoo book may be used In selentifi c-research and;1 experimental-deaLgn work in institutes, design offi ces, and schools of higher educationi as well as for training speala2lats in chemical thermodynamimand thermal phYsIcs. COMUGE. Volume I of this work deals with methods for calculating the=odynamic properties and with the selection of constants re- quIred-for the calculations. Volume 2 contains tables of thermo- dynamic properties (reduced thermodynamic potentials entropy, enthalpy, and the logarithm of the dissociation or Ignization constants of equIllbrium) compiled,where data were la6kingon the basis of published and unpublished material from a number of Soviet ramroh institutes. Thermodynamia ProDertics for~the Ideal gas Card, 2/9   BROUNSHTEYN, D.'~ Approximate method for the calculation of the therm-jdynam!,~!: functions of diatomf c ideal gases at hJgh temperatures takbg the higher anbarmcnic-Ity ci,::nstants bvito account. 2.hur. fliz. kbim. 36 no.6,.1191-11.97 J062 I., leningradskly insititut, prikladnoy khJmii,  B.I.; YURKOI/y G.N. ~HTEYNI Certain evaluations of arrors in calculating themodynamie functions by approximate mathods. Zhur.fiz.kIim. 36 no.10: 23034304 -0 1620 (KMA 17:4)  ~-am IAEDVEDEV V.A.-; YUNGMAN, V-S*-; VOPOBIYEIrl, A.F.; GURVICH, L.V.; REM17SKly; LA.. VOLTMGV~ V-pl; 0.1 GAL,r,jo-jk~o, G.L.- I/j,, VEYEV; YU. SOKOLOV~, V~B.; GOROKHOV. L.Il.; IOJQJAYMOVA~ A.S.; VEYTS. I.V.- Ym40Y-.-q.jj,; MALENKOV, G.G.; K(yetAROVA , A - F - I __ otv. red.; S-URNOVA, N.L.-. GLUSiNNO, V-P-, MIKHAYLOV~ V.'V..~. red.; KARAIPET11VITSs M.Kh.p red. (Thermal constants of substances; reference book in ten numbers] Termicheskie.konst&qty vefihchestva; spravochnik v desiati vypuskakh. Moslccva~ No4l, 1965s 144 Po (YJRA 18:7) 1. Moscow. Vsesoyuznyy institut nauehnoy i tekkalchaskoy informataii.  BROUNSHTEV-11.7 B. IYljJRKOV G.N. statistical =--thods o--!- calculating the t're=od- -ic f ctions of ideal gase-s. Fart 5: Approxi:iate rlethcds of calculat- ~lg the thei-modynamic functions of diatomic gases. Trudy GIPKII 4).14,91 5~wiq t 62. (14IRA 17:11)  ORLOV, P.G.;:YURKOV, I.A. Calculating ti,4 foindatiom of. drilling- =stff. Manh. - i meft. obor. no,1'13-6 165. (MIRA l814) 1. Barnaullskiy zavod geologora7,vadochnoga-obaruduvantya.  Tho firat 11, A. Kinkevich prize 14a3 -givmn to the following tearzj Candidate of Technical Sciences A. D.. Assonov.. Engineers H. It Toreaftchinp V*.Fe 14ikonovs D. I. Kostmko.. S. G.. Harlinchav,, 1. S. Yurkovs N. U. Inshakova.. It. 11. Yanchuk.,,A. A.- -Bulatnikov and G. yo. Utvin (Auto,-.robile W6rks iment Ukhachav) for their paper "Investigation and.Introduction of the Process of Nitrocementation by Direct Isothema:L Hardening in an.Alkalt Inside Nuffleless .Equipment"., their design of a mufflele3s furnace heated by vertical radiation tubes is of interest*- Result& of the 1958 Competition for (~btainine, imeni Do Ke Chernov and imeni ----N..Ae Hinkevich Prizes.. Metallovedeaiye i tormicheskaya obrabotka metallovs 1959, uo. 6, pp'6~A--  Vat AN 777 F USSR/ Analytical Chewistx"y. Analysis of Inorganic G-2 USSR/ An~ Substances. $u Abs Jour: Referat. Zhur..-Khimiya, No. 8, 1957, 27142 Abs Jour Author V.L. Indenbom,, TB.A. Karchmar, L.P. Yurkov, B.M. Glukhovskoy. Title Fast Method of Determination of Potassium Oxide in Glass by Radioactivity. Orig Pub: Zavod. laboratotlya, 1956, 22, No. 11, 1293. Abstract: The determination of potassium oxide in glass was carried out using the,J9 radiation of the natural radioactive isotope K4U. The activity was meas- ured with an installation of the type B with a AS-2 counter. In order to eliminate adjustments for sell'-absorption, the thickness of the s cl men surrounding the counter must be, 0.4 m2. The error of the determination of no in glass /4 Card 1 2  USSR/ Analytical Chemistry. Analysis of inorganic 0-2 Substances. U A Abs Jour: Referat. Zhur.-Khimlya, No. 8, 1957, 27142. is from 0.1 to 0.15%. If was known, the digression of glass from the given' ratio determination also of the complete determination is hour. Card 2A the content of K20 of the expansion ratio allows for the content of Na2O. The carried out in about 1  INDXMOR, 7.0 OT L,F, I Modernizing the W-l8KhlOOO..am=ajIqg, lehro Stat. I ker, 14 no.5., 22-24 My 157, (Glass furnaces) OUR& 10:61  SOY/72-56-10-14/18 AUTHORS: Veklich, P. 11 Slivinskiy, I. 'urkov, L. F. TITLE: Heating Stove 'for Glass Parts of Electronic Fluorescent Tubes (Ilagrovatellnaya pech" dlya steklyannVkh detaley elektronno-luchevyl:h trubok) PERIODICAL: If Steklo i keramikao 19580TIr-lot PP 44-45-(USSR) ABSTRACT; The authors of this article constructed some gas stoves for these parts at the Moskovskiy elektrolampovyy zavod (Moscow Incandescent Bulb Factory)i The stoves were built for the 'heating of cones and shades prior to their welding. Such a Stove (Fig I) has two muffle channels# a lower and an upper oneo The heating surfaces of the muffle channels are on of 11 dimensions 303 x 343 mm- produced of carborundum plat 1e The construction makes.1t posuible.to heat the partu to be welded Sufficiently quickly, and aloo to carry out repair work of the mijffle without putting the Stove to pieces. The waute ganas from the lower muffle are direct%1 into the 'Lipper one; they heat the latter and ther. are sucked off by a fan. To imDmve the temperature control the muffle chan- - Card 1/2 rated into 5 individual sections by walls. nels are sepa  SOV/72-58-10-14/18 Heating Stove for Glass Parts of Electronic Fluorescent Tubes The partsto be heated move continuously in the operation cham- ber of the stove on a conveyer belt. The heating C'Y'cle may be adjusted within 10 to 30 minutes at a length of the operation chamber of the stove of 10 m; this is doneby con- trolling the velocity of.the conveyer belt* The stove tem- perature conditions are controlled by means of thermo- couples. From figure 2 the course of the temperature in the stove may be seen. This simple construction makes it pos- sible to the glass faotories to produce then by themselv2s. There are 2 figarea. ASSOCIATION: Moakovskiy olektrolampovyy zavod (Moscow Incandoacent Bull) Factory) Card,2/2     GIIF&BURG) D,B., dolktor taklui. na-uk [deceased]; RAPOPORT, A.Ya., in&h.; SLIVIN-SKIY.. I.G., ir-zh.; YURK071, L.F., inzh.; ELIKIN, G.B., iazh. Investigating processes of manufacturing h1gh-lead glass. Stek.. i ker. 22 no.12-:9-11 D 165. (MIRA 18-12)  MEW Yurk-6v , M. L ITIO ology of the o:7ific-. of thn main pancreatic duct in cattle," rDh Trudy Stavrop. 4n-ta Issue 3, 1948, F. 235-50 Biblicg: ittns So U-3566, 15 March 53, (Letopii3 17hurnal tnykh Statey, No. 13, 1949)  I-T. T. flVarialtion of the fo r7., 0 f th e P a n c, rsin cattle TridN. Stnvrop. Yurko s.-kh. Tn-ta, Issue 3, 10,48, p. 129-64D Liblio~?,: 31 itemis so: U-3566, 15 March 53, (Letopis 'Zliurnial Inykh Statey,, No. 13, 1949)  NMI NMI BUDHIEDT. P.P.; YURKOT, 9.1. Cathedoluminescence of synthetic silicates and alumInates, Dsp.AZ MM no.4:3-11 048. (WAA 9:9) 116DIyouly chlon AN !UEISR (for Budalkav). Z*Ordeza LealzuL khImike-takims- logicwy inatitut imeal D.1 Handeloyewe. (Cathode ray tubes) (Silicate@) (Aluminatea)   GUS#KOVA, A.K..; YURKOV,!,N.N.; KIRMHKIMt V.I. (Mdakwa) Compensatory reactions In Insufficiency of the brain's blood supply. Zhur.neivr.i piekh. 61 no.10:1457-1462 161. (MM 15tll (CEREDROVASCULAR DBEASES) (EUCIROENCEPHALOGRAPHY~   POPKOVA, Ye.G.; YURKOV- N.V + 4- Shortening the tleatment time in, dySentery pa,-J-nls -.,.,th angtibiotics and chemi!ml prepa:rations, Antiblotild 8 no.9:839---041 S '63. 1. Kafedra inffkts~ (141RA 17: U) ionnykh bolezney (zav. Ye.G. Popkova) Zaporozh- skoao instituta usovershenatvovaniya vrachey i *,mfed--a detsk-Lkh In'Lektsiy (zav. G.'l. Levina) Dnepropel"rovf3kogo ineditsinskogo insti- tuta.    RUSHCHITS. V.R., ~nzhener; YURI,()V, B.S., Inzhener. Automatle-oroduction line for machining rope blocks Stroi.i dor. mashinostr. 2 no.804-16 Ag 157. (Isu lo! 9) (Ilaehinery, Automatic)  Monthly List of Russian Accessions,-:Ubrary of Congress, December-1952, Unclassified  -67, Mfl(l)... A117002791' SOUR09 CODES UR/0139/66/000/004/0144/47i AUTHORS Yurkovp Vo A#;. 1vuhchznko,,Z.. G* OX; hav (Arkhaztgolfski te IM* V.-VI Lqybys Y lo.,otokhnichoskiy instLtut) TITU., Isobar for a real gas SOUXE: IVM, Fizims no, 49j?669'.1 169-171 'LOP IC T&GS: isobarp real gas:,: ---.':ABSTRACT: A family of isobars1s cconstructed for carbon dioxide-gas, using.van der Waals corrections.' The typical -'Isobar exhibits a region of taro-phase states ale; ItAs shown that critical values similar to that of the van der Wa , isoVherm of Pk, Vic, and Z. can be comp, uted from the is;bars. 0 At 1 atm the volume of gas decreases linearly with temperature until a reversal occurs, similar to that of the van der Waals isotherm. . Jn the reversal --re-ion the system is in a two-phase state: one consisting of super-cooled vapor,,. the other superheated liquid. sal of the ciirve, becomes smootherp M th increasing-pressure the revers until it finally disappaarsvat*the critical pressure of 100 atme 1 A comparison is made of the variation in pressure with decreasing temperature at constant volumes Orig. art. has: 2 figures and 2 formulas. PPRS: 39,04o,7 SUB CODE: 20 SUBM DAV4 _20mar65 ORIG REF: 002 A Card  C E hr licifl..-a Z!wd S ;it cf-~l tniv- d Hg~ SLT5. and sly Irr T-I=E "a2 fimth~- h"n-ci i, in,ard. Tht amp.15 11 iurz~.~c to 52l,, 34~' th, :11 At thc n p rl- k.. irq=d cilia ;,, trm ~a -7 vs~ ().:,- --, 0~ - -9. -T'u- X 10 ~5 X- 10 im-, afti, tie plot el' In rs. I/T (250 to 6--0') sh.~,ld 2 straight lines 'th T I -.J. ~A;4 -Ins! 1) 11 o v fi~ the 1;qu- I -z ~b A ~3~13 Z 1'vf th~ ..a!tn f 12. 0 tat- !.a I" F rlz-c of th-~ ?~fid dull Th- 5-,-t -'~ 1---i ~~ t,,r. -d ri vp,~ fi l ~-, t~toll col~d, d -,a~ nm~,I 1 !1!v hqunt. V.,tkj Wag jlup~i. by thc-'111a) anlpt!lc mth PT c..v, cnndj. Fror!t iAitl- t:: ~Imqllv, C.g 37.9 X -bile e%, 0 -1 ~Iirn ` cm. -1 In (tic fiquid stme, Viol, ,,ondact,~. Fmin truip. tn C-841% ihi lYis necrc, --cil by ~'i ~: 2' i;;-I-ac(-d by . ct,lj- bratod ul I J- D;L-t,jm,:"riC niciturrniclit int ~.rlu 11 C i, - (1, 1 -.. . V;05 Coat. - Ip. . m . it - ztCU from mim tc,.i t. h-n Yii) t, 7,00' P;I-.ti:-.1 'Itt"tf Th, 11-nz- in , -n f,:, ;;-,liv ',n rq,j~,-I tt  YURKOTI, V. USSR/Physi6s Serdeonductivity Oct 52 "Electric Properties of Sb2S3 and Bi~S3," Go Galkin, G. Dolgi1di and V. Yurkov "Zhur Tekh Fiz"-Vol 22, No1Q, pp 1533-1539 Thermal relations of electric conductivity of sanples Sb2S3 and Bi2S3 were studied. ~~gnitudo and sigh of temp cadff of electric conductivity of sulfides and therm,,,- emf of a metal. and semiconductor paired essentially depend on thermal treatment of saimiles and on range of tempo Results of tests are interpreted within frar-es of zone theory of semiconductors. Indebted to Z. I. Kirlyashkina and L. I* Baranovao Received 4 Jun 52. PA 236T89  u s It to 14 -10 t cry SAWS 41 S Itt 9 by ifigh0v b-~ttl~r f- i-h ;1h add,~, pli, - P",.Tr  U Ex"Ovi V.A.* t.,-#&=# Phird6d Pro Varkay (4. 01 ~ MUC dkc~ via" ca UM CAWM of vubm" (d"M or mitt=*) Yr- t '"rwjaq of the Oxff, of ff"ear *p =1 ), and tMV. COOS. of 61"t 0 m. dens(ty (d at 1(r-IWO. (y), with oempa.. for P"b Alloys oontg. 4-M.1% Eb. The allap vtote prqnred by melting In an Journal of the Institute of Alloys evacuated ampovie and osdt as lapts 4&-66 MM. - we saalyead. a tb' n"Im'00, = -in' 1 Vol. 21 Part 7 efAr' tAmp. ffuctttatkm being 14*-r; I ~6 Har 1954 dwasmessured d i . ve dit 10th a pyknomnter. ' Chaq% In 8 And d followed the 4 Properties of Alloys, law. exceet near the MOMInate, Where the Change wu more rapid, owmi; to tke solubility of Sb In Ph. . Yu. also deta. f i d llo f h th h t i h . e axm"~m. ne e var t t m atiou w a y compn. o t (at) produced by an a"asembly con M,tlmg of the 4161 ibetween 2 Cu blacks at Q* and 100' C., mp.; the results ati discussed In texms of the Lheaty of sami-conductors. The sign of, at changes at Pb; the ratio (Y&Iency electrons of Ph/ IOY '0 vaknoyclv~trm W6b) wt. content of Ph in &I V, K T. ;4p~  T h L UD= OYL rix tal. gww Akademii Maufi -4rffffjCi IV 3. 11TI-1173). 11.1 E7 Rumiatil. -The diffaxion coodleldats a ca&cm to fron- cart the Iron and steel institute nal Of J c"' tainin 4*1 11)on with Additions of 1. 3, 4. Vd 6% or cobalo 9901 t i d t QW d 100'C t026% Thd Odr v". 176 e rm uc a an . , . coafficient, of diffusion of cmcbom w" calculated rzcin e -, vetoefty of gmwth or (be emt4nita layer duritig dow6=ira- I I kpr. 195 4. (fact with h~mfrogcn at a given tempamkito. Vrhe cu. -ve fat i~ I Kotall ~ Cho t1dp4ndenco of the ;Iq*M4:(t-nt on cobalt =tent &td two - t co m t d t w & Rulbam u URo rovg , Tb A % (my"ZIAW the t .1 N l d' l b t f C ~d i t dt t b p o ax ,I o a na do con ent a . P* aga ~ bed low oultift Ott I V11 Co.-Y. a.  tsil t M A K -n-I i 14 0-4. ceul~--N. mu) vivi"J".~i!. With all ys of cry st -lical tvwV-1- -era g SIR; P ON  L) N V USS.R/Electriclty Semiconductors, G-3 Abst Journals Referat Zhur - Flzlka, No 12, 1956.. 35074 Author: Yurkov, V. A., Alekseyen, N. Ye. - -------------- Institutions- Arkhangel'sk Forestry Institute, Arkhangel'ok Titlet Thermal-Electric Properties of Cd-Sb Alloys Original Periodical: Zh.,tekhn. fiziki, 1956, 26', No 4, 911-912 Abstracts A null method was used to a,.3asure the thermal-emf (a) of Cd-ft alloys relative to Cu. for concentistions of 0-100% Sb at juncticm tempers- tures of 10 to 1000. Two sharply pronounced maxima were obtained on the diagram of the fl-canumiltion of the alloy. ODe corresponds to the Cd 3b compound with 0C= 28.6 mv/deg, and the second to Cd-Sb with a a 285 m~/deg. For pure cadmium, cc a 1 .66 and for untimony CC= 30 mv/deg. Based on these data it is assumed that the enorgy spectrum of CdSb has a strzcture that is usual for sem1conductors., although for a final decisLon it is necessary to determine the tem- perature dependence of the electric conductivity. Card 1/1   5W PHASS I BOCK SlIzar-ATION ILOVA 1.6 fiavoahchanlya 00 alektl-khl-114 4th, Roscoe, 1956. Trudy...l tabornik) (Transactions or the Yourth Conference on Elect- rochomistry; Coll*ction of Articles) Moacow, Izd-v~p AN SSZZ, 1959. 868 V. Errsta slip Inserted. 2.500 copies ~ printed. Sponsoring Agencyt AkAdemiyA nauk 3338. Otdolonlye khImicheek1kh nikuk. I I~ j Editorial BoArdi A.B. Y.-umkin (Resp. Ed.) Aeademleiftln. O.A. Ta*ln, Prorsesors S.I. ZhdLnov (Reap. Secretary), B.N. Xabanov, Pro- fosaor, 3.1. Zhdanov (Reap. SocratAry B.N. Kabanovl, Prafeuaar~ y&, K. Kolotyrkin, Doctor of Chemical )144 ;neon I ~V.V.~ LOBOV, P.D. Lukoytoov, Professorl Z.A. Solov'yoval V.V. Standwr.~ Professor-, and OJI. Flarlanovich; Ed. of ?ublis"na Houso:'N.1 Yesorov; Tech. Rd. t T.A. Prusakova. r=PWKj This book to intended tor chemical and log rical engl- na:ra. Aphys ic iota. matallurristo and researchers Interested In t- A-ate Of electrochemistry. GMA(ZES The book cOntAIns-12T or th* 1~,S reports pt*esant*d at the Fourth Conf*r*nco an aloatrochcmi4stry SVOnGoredby the Depart- m4nt Or Chemical Sciences and the X.-stituto of phiBIcal Chemistry Acadsmy Of Sciences, USSR- Th* cOllactLon partalh~ to dirr.rnt bronthas of electrochemical kinetics, double layer theories and ZalvAnlc Processes In metal clectrWaVOItton and Indvatrial elect.,% 17t15. Abridged 41sou jilqn4 arA .elvon Sion. The rAjority of - , At the and Or each dll- reports not Included here ha~vo been Published in parlodIcal literature, SO pernonaliti:,3 are =0,1tioned. fterarenC63 are given At the and of most of Ch raLla - y., and A.r. 'JAW'o VIC6 Vzstitut khLmll. Ali UzSSR-Inatitute of ChsmIstry._"Wi'idc*y Card 21/34 of Satoftcon. UzS5ft). 3aparation Coefficient Durl6g Sim- UltAn*0u3 Zl4ctrOd4PO*ItI*n of M4ZL' .6 of the Iran Group 536 Cathodic tj~OCSSA*6 -----Du-r5x the Septrat:ion of Zinc ani Mydrogen at Wkeetrodes of Other Metals --IChromium 541 2Wle of a Side Anion In the Process or Zliectradepositlon 547 (ZA*QtVkhn1Ch2SktY InatItur Arkhangel-ak- 1414*;4-44- for Forest Technology, Arkmangel$ok), Neutra- lization of Metallic Ion& At Kacrodistanc as From: the Cathode 550 Chlzhlkpv,..D-X., Influence of~ boric ---*cl-6' on the Cathodle rolarlzation at Nickel In Sulfuric Acid Solutions 553 Card 22/34  SOV/126 V V VICd Nlloys 00 Nr and t4ekra.~~, '~ A _and Pk- Nr Is v Vol TqORS: UE!i~.tric ra'OeleS.~:~ m.t.1l.vedeniyo widely -ITLE-. - T]!~~ etallov have been great T vizixfy' M .F . ODTCt'L% (-JSSR) Or alloys have -it is 23.-2k erties - - that thel xice,, jectric Prop the fact I:n prac 1, therme e is due to . r tauce# . . hetl Put in STP Thi 2-3 Mpo jaIg whIch. rise an The t:LfjG I to tudiedo a scien Mater not give _ t f view 5 . Cal aTL to have do . - po in 0 tems pract' ary .... meta this ~'n SYS often Uecev5is ;3. From studies th al. e.m a f - oint at which ser - therm t further r ies - 'has J'C was appreciable carry Ou t wo rtant to f curve 3resen - f. curve .1 e.me * The 1 3_ e.me it -is impo therma changes* therma -tu .e in whic h the the 0* mtf. the f ey obtaln fun'tion Of _perl- rn of to 0 SIS order as a effect was al-so carried out in Cd alloys n ent S 0 The r curve S,,-cd and Pb-the COMPO .I e.M*~* 61.,OWU in for Of the ther tained are Lr the tration On 3 0- concen ditions b epeadenO4 f the. The results 0 d Inction 0 mental Con -d h.ws the a D old e.tigate Fig 3. 5 as hot and the c inv I Sn-Cd alloys Figs 1 and 2- . the m ' f. for betwe fer ence therILL- dif temperature Car d  66887 SOV/126-8-1-4/25 Thermoelectric Properties of Sn-Cd and Pb-Cd Alloys junctions for different compositions (indicated in the figure caption). Fig 2 shows the dependence of the thermal e.m.f. of Sn-Cd alloys on composition for different temperature differences (indicated in the figure caption), Figs 3 and 4 show analogous plots for Pb-Cd alloys. As can be seen, sign inversion occurs in all the graphs. The position of the inversion point on the Cd concentration axis changes with,the temperature difference. As the latter increases, the inversion point in displaced towards smaller cadmium concentrations. There are 4 figures and 7 Soviet references. ASSOCIAT ION.-.Arkhangellskiy lesotekhnIcheskiy institut (Arkhangellsk Forestry Tnstitute) SUBMITTED: March 3, 1958 Card 2/2  5W SOV/76-33-2-24/45 AUTHORS: ekrasov, V. V. TITLE: The Electrodic Potential of Cd-Sb(Elektrodnyye potentsialy splavov Cd-Sb) PERIODICAL; Zhurnal fizicheskoy khimii, 1959, Vol 33, Nr 2, PP 395 - 397 (USSR) AB5THACT: Explanations concerning the relationship between the electrode potential of alloys and their composition (Refs 1-4) are of special interest in investigations on the electro- chemical properties of metallic alloys. Thermal analyses of the system Cd-Sb showed that two compounds, Cd 3Sb2 and CdSb (Ref 5) are preuent. Cd 3Sb2 do=iposea partially at lower temperatures (Ref 6) while 0d8b is stable and can be used as a semi-conductor in rectifiers and amplifiers (Ref 7). The work of this paper utilized a GZB-47 ~alli2tic galvanometer (Ref 8), a Myb-4 standard sample set as condenoor, and a PFTV-1 galvanometer. 12 alloys with the following composi- tions viere studied: 5.7, 61 10, 30, 45, 48~ 50, 52, 58, 65, Card 1/2 and 8(Y,.b' Sb, and 1. n H2SO -' HCl-, and NaOH solutions weru 4  The Blectrodic Potential of Cd-Sb SOV/76-33-2-24/45 used as electrolytes. The addition of Sbcauses the potential of the alloy to become more positive. The absolute value of the potential is hi,->her in the alkali solution than in the acid solutions. 3 minima are indicated in the potential-composition dia,-,ram (Fig). The minimum at 7-53~1 Sb is considered to be a eutectic structure. The minimum at 521,A Sb clearly represents the formation of the compound CdSb. The potential mininum, at 60,ij has still to be explained by further investigations. Finally, IA. A. Popova is thanked. There are 1 figure and 10 Soviet references. ASSOCIATION: Arkhangellskiy lesotekhnicheskiy institut (Arkhangellsk Technical Institute for Viood') SUBMITTED: July 17, 1957 -------- -- Card 2/2  5/139/62/000/001/023/032~,,:-- AUT11ORS: YurI4~ov, V.A., ;Ind 1voninskayat L#A* TITLE; Physical properties of CUA12 PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy, 138-1.3 Fizika, no.1, 1962, 4 TEXT The authors report an experimental study of the physical pro perties of CuA12. This material is said to be interesting because its component,5 are typical metals and it is used as the hardening base for many alloys. in the present work. the autbors have measured its density, microhardneas, linear expansion, s pecific heat, electrical conductivity, and thermo- electric pow er. The compos~ition of the.,specimens was 54.097~ Cu and 45.91ci. A l. The density (measured by a hydrostatic method) 'was found to be 3.98 g/cm3 at 20 OC. The rjicrohardness -was.- measUred wit Ween h the I IMT-3 (PINIT-3) apparatus using loads bet 5 and 100 g. It was found that 1i mm2 and that 20~ 535.0 kg/ the formula P adn' -Ca r  s/i3g/62/000/001/023/032 Physical properties of CuAl 2 E032/rm4 was satisfied to a high degreo of accuracy [P is the load (kg), d is the length of the diagonal of the impression (mm), n = 1.77 and a = 99 0]. The linear expansion was measured with. a quartz dilatometer calibr,,ited against spectroscopically pure copper. The-average expax.sion coofficient between 20 and 300 OC was found to be 17.6 x 10-6 deg-l. The specific heat1was, I measured by the method of cooling, as described by Ya-. Ya. Turovskiy and G. MI. Dartenev (Ref . 14: ZhTF, v. 10, 1940, 514) lt was found thot in the. tonlicrature range 50-300 OC the specific" heat at constant pressure dog-1) is given by o. lo4 + 92 . 10-4 A/-t (3), C p where t is the temperature of the specimen in 'C. FiS.2 shows the resistivity (ohm.cm),as a function of temperiture. No explanation was found of the nonlinearity of this function. Finally, the thermoelectric. emf was measured as a function of temperature and the result is shown it, FiS.3, in which curve -1 refers to CuA12 and curve 2 to Al. CUA12 is a typical ..paramagnetic. Comparison of the properties of Cu and Al.shows Card 2/4 L   37716 S/139/62/000/002/011/020'1 2073/ E3 3 5 v AAMCIORS jark-ov, 'V.A* and Nelzrasov, V.V- TITLE: )Iysical properties of copper-antimony alloys PE210DICAL: Izvestiya vyssl-iil,,.h uchobnylch zavedeniy, Fizika, no. 2, 1962, 62 - 69 =T: The microhardness I thermal, electrical and "hermo- electric properties of Cu-Sb-Cu Sb were investigated in the ran- e of copper contents between 61.02 and 5o-07 lsrt-v.~ and an" - 11 zony contents between 38.98 and 48.93 Microhardness .-,eassuzements with a load of 20 Z have shomi that the Mayer z-olations are obeyed with a satisfactory degree of accuracy. TI-io microhardness way be greatly affected by the displace-ment of into the intercrystallitle space and by tae fact t1hat 'I aterials is in a ~ae intercryst-allite substance in high-purity n, finoly-disperse state. The microhardness of freshly c icaved surfaces of Cu2Sb singlo cry5tals vias,IH 20 = 515 6 Th e 1 clependence of the coefficient oJO linear expansion Ot 10 d a ~,C 'Ird 1/0 -  5/139/62/000/002/011/028 P-IrYr-ical properties of .... E073/E335' 3 2 2SI content OmOlo,c') is plotted of 'Cu Sb-C-a -Sb alloys on the Cu Z) Pi-z,. 2.- The electrical resistance f) of all the alloys decreased with annealinig, time and the decrease Co-atatnInz Cu-Sb was the small,Zr the less Cu-Sb thealloy contained. Pig. 3 .L - _~ (10 c n, ) on the annealing k. shows the dependence of 6 'ime (/t7, -.-~Iin) for 1,:)Urc Cu Sb (1_~'urve 1) and for an alloy cont-aining 5 40 tiole.e'!, Cu2Sb .(Cuxve 2). The derxmdenw of the steady-state resistance oA-' alloys on tomperature proved to be linear. FiS. 5 shows the stance ;1., 10-6 Icra and of the dependence o' the rosi tez,,iperature coefficient 0 x. 10 deg on the Cu 23b content of Cu.Sb-Cu,,Sb alloys. Curve4 1 and 2 represent, respectIvely, 'he resistance isotj-iormz at t = 50 and 200 0C; curve 3 represezits the dependence of the te.-npox-atux-a coefficient on the coi-,iposition- The thormo-olectric properties wore measured on the sa,-.io specimens as the rosistance. The de.,,)endence of tlae taer-zio-e-ri.f., e, jiV, on the difference- in Card 2/V  ILI S/l3q/62/oo6/o0'2/011/028 Physical properties-of ... E073/E335 terVerature is plotted in Fig. 6 fcor the compounds Cu Sb 3 CU2Sb (2), 80c'o' Cu3Sb + 200,-0' Cu 2Sb (3) and 200% Cu3Sb + 80%, Cu Sb M.. Fig. 7 gives the thermo-e.m.f., et TLV, as a 2 0 function of the Cu .5b content (mole,54') of Cu Sb-Cu Sb alloys 3 3 2 0 for tiie temperature differences ./-\t = 100, 150 and 200 C1 respectively. Pu 2 Sb is a strongly paramagnetic substance, Whilst Cu-Sb'is a diamagnetic substance., There are 7 figures and 2 tables. ASSOCIATION: Arkhangeliskiy lesokekhn�cheskiy institut imeni V.V. Kuybyshe'va (Archangel Forestry Institute imeni V.V, Kuybyshev) SUBAMITrED: June 25, 196o (initially) June 2, 1961 (after revision) Card 3/P  s/126/62/014/002/003/018 E114/E435 AUTHOR: yurkov, V.A. -Zn-Sb alloys TITLE: Physical properties.of cu PERIODICAL: Fizika'metallOv i motallovedeniye, v,14t nO-2, 19621 172-i8l TEXT: The aims of the investigation were to ascertain the cause of the embrittlement. of coPpe,r-:zlnc alloys caused by antimony additions and to study the properties of Cu-Zn-Sb alloys. Alloys of the pseudo-binary systems duZn3-Zn3Sb2, Cu5Zn8-Zn3Sb2 and V. CuZn-Zn3Sb2 were studied. Alloys of each system containing 10, 20, 30, 40, 50, 6o, 70, 80 and 901/5 by we7ight of Zn3Sb2 were nudeby melting the pure components in evacuated'flasks of low melting- point glass and placing the flask in a thick-walled steel crucible. As the temperature was-increased the glass softened and the alloys wero'covered by a semi-liquid film of glass which protected them from sublimation or, oxidation. The samples used for the tests were hiald at 3500C for 200 hours, folliai-wed by furnace cooling. The investigation involved the study or the microstructure, microhardnesstesta and determinations of density, linear 'Card 1/3  5/126/62/014/002/003/018 Physical properties of ... EU4^435 expansion, electrical.and thermoelectric properties. Metallographic analysis showed that the alloys of all three .systems were two-phase. As would be expected from their higher melting points,- the primary solidification which occurred was of the electron com.powads. There were some indications that there, was a very low mutual solubility-of the components in'the alloys. The solubility of Za3Sb2 in the P, y and c phases was less than 1%. The microhardness tests, which were carried out with loads of 5 to 100 g gave values for the microhardness of pure Zn3Sb2 compound which were practically identical with those obtained for Sn Sb2 in brasses. Density determinations gave values of 7*97 g/cm3 for CUZrL3, 7.97 for Cu5Zn8, 8.14 for CuZn and 6.26 for ZnSb3- The densii'y of the all9ys in all cases changed continuously, but not linearly,.iwith composition. The variatinn with composition of the linear expansion of the alloys was linuar with systems contaJiLning CuZn3 and Cu5Zn8, but nonlinear for the Cu-Zn system. The resistivity'at 200C was 10. X lo-6 ohm per cm-1 for CuZn3, 11.8 x 10-6 for Cu5Zn8 and 5 .6 x 10-9 for CuZn, ut the value for Zn3Sb2 was considerably highert being 1600 x 10-9 ohm/cml. Card 2/3  S/126/62/oi4/002/003/018 Physical'properties of Eil4/E435. In the alloy syst4hms, the rate of increase in resi7stance was nonlinear with,inCrease in Zn 5b content* The thermoelectric properties.-were measured rela ve'to copper and it was found that the emf-produced with Zn3Sb2.was opposite in sign to that produced by the-other complounds. In all the alloy systems the thermal emf increased nonlinearly with 'increa'se in Zh3Sb2 content of the alloy. From the'metallograpfiic.examirkations and mi.crohardness determinations it1was shown that the embrittlement resulting from antimony Additions to-brass is due to the compound Zn3Sb2, 'in alloys containing more.than 50% zinc, There are 9 figures and 2 ta.bles. ASSOCIATION: Arkh4ingellskiy lesotekhnicheakiy in3titUt (Arclhangel-tsk Lumber Technical Institut) SUBMITTED: June;,2b., 1961 (initially) January 2, 1962 (after revision) Card.3/3   TITLE: E'lectrical and tbermcAlectrical properties of aluminum-zln3 SOURCE., Firika metallov I metellovedoniye, v, LO, no, 4, 1965, 51-2-518, TOPIC TAGS: tbarmoelectric rroperty, electric property, aluminum ailoy, zinc alloy ABSTRACT: The test samples were 80-85 mm long with a dia~meter of 3.5 mrr;. They were annealed for 1.20 hours at a temperature of 250 + 50:, 'C~ to 106~ zlnc, r,,6 resi8tance of t*ho sa.:~;Plaa was m-a- minum a-nd U k- F, u r a,j b,,, t h. ec, n v a r; t 1 on a In Lc metric Inethod. T're tt.ermcolloctr,c a c we r emi a d ,) C.-Cr" .,185 wltn a nel.Ebr 01 U 1 3 al-: 7) 1 aW88 vlacec in 0 _-aE.-.:jT-4C ~ieid with an intensity -of IC4 0orstede. The ma~metic susceptibilLty was calculated Ixy the formullg Card I /P L2-i; 47-- 58-7 ~3__ nn-c- 539.-292!546.3--1-9  L 8089-66 ACC NR-- AP5027134 47 where kappa,, ni,, F are the susceptibility, the mass, and the force acting or ti5e sftmplO. The mttgnetic susceptIbility of the sanples was r I,(A n nn -w- r1f I -Ii C (1 7 tA ~3 I -'I r: L 81r t- s At u-, ii ri Z' in Ue o ii C t) i, I. ti L0 116 U)v LPa-IjOLIC 44F e r f; z is 7 q-111 negatives "The authora are deeply indebted to S. 1. ArtIRkbov for his i great help in the experiment," GrIg. art. beat 6 figures and'I table, SUP CODE! MY,E-M-/ SUBM DATE, I7D*c64/ ORIG REP- 009 / OTH PLE? r003 2- Card 2t  YURKOVS- V..K., innh& Three-position turniiig attachcbent to,hydraulic-presses for prooemolda. Mash.ael,, n0-5:198-200 158. (MIRA 12:11) (Hy&auUc presses--Attachmants)  VERSHININA, V.V.) YURKOV. V.N~- slags of nonferrous Pietallargya-9 rmterial for the manufacture of inine supports* TrUdy Alt. GI-11III AN Kazakh. SSR 15:53-59 163. (MIRA 170)  127-5 .10131 AUTIHORSt volkovt KOD., Chief Engineart YergdliyeV, A.Ye.,,Candidato or Technical Sciencles,, and Csipov, A. V. , Mining Engineers TITLE: Experience of Exploitation of Block Nr 34 in the Belousovo Mine (Opyt otrabotki bloka Nr 34 na Bclouso)vskom rudniko) PERIODICALt Gornyy Zhurnal, 1958, Nr 4, pp 19-21 (USSR) ABSTRACT: The authors describe how well the mining work of the block Nr- 34 Of the Bg~lousovo Mine was organized. The work-was exe- cuted by a party of 12 men. This party executed all the mining work, the boring of blast holes and the maintenance of all mechanical appliances. There ane 2 figures and 3 tables. ASSOCILTIONtBelousovskoye rudoupravleniye (Belousovo Mining Administration) Card 1/1 1. Plines - (4oration  YMALIYEV, YURKOV, Vol(.; OSIPOY. A*V,, Boring and blasting operations in drift mining. Trudy Alt. GMI AN Irazakh. SSR uo*Tp102-!-113 '58, (HIPA 12:7) ;;(Boring) (Blastiag)   TM 118-58-3-11/21 AUTHORSi Yurkov, V.N., and Belyashov, V.N., kagineers TITLE: PERIODICALs ABSTRACTt AVAILABLE: Card 1/1 A Loading and. Transportation Aggregate (Pogruzoohno-trans- portnyy agregat) Mekhanizatsiya Trudoydmkikh i Tyazhalykh Rabot# 1958tl# 30 PP 30-31 (US'-';R) In order to speed up the transportation of rock and to raise labor officiency, the engineers K.D. Volkov, B.M. Grudin and N,F. Baklitakiy of the Belousovskiy rudnik (Belo- usovo Mine) Itave designed a level-driving bunker train with a scraper conveyor of the type PHL-59 which mechanizes com- pletely the I.oadingt transportation and unloading of ex- cavated material. The basic parts of the aggregate are: the bunker train, the scraper orane, the loading device and the electric loco- motive. The bunker train consists of 15 carat holding capacity in 25 ou m and the length of the train is 31 m. There are 2 graphs. Library of C6ngress   , 0 "'S GRUDIN. B.M., insh.; mmov, voi., insh.; DELTASHOV, V.T.T., insh. Wbat was made apparsint by the use of roof bolting In aining. Shakbt.stroi. no.A:24-27 N 159. (14ML 13:3) -1. Blubachanakcsys obakhtostra7upravlantye. Voatochno-Kazakh- stanskaya oblantle (Mina roof bolting)  ZT-RYAIIOV, T.P., inzh.; TURGAYMYEV, B.Me, insh.; BELTASHOV, V.P., inrh,; YURICOT, T.H., inzh. -------- Use of rock ammonite in Altai Mountain mines. -Shakht.strot. 4 no.2:19-20 F 16o. (MIRA 13:5) (Altai Mountains-Mining engineerIng) (Explosives)           W~ ~-*VT - .--- ZYIIYAi,OVp_T.P.; KOIMOD, G.A.; MILICIENOv D.V.; ITPKovt V,11. Selecting the structure and parwiclx.-ro of boltln32 at the Mlaslyanskly I I-Tine. Bezop.truda v prom. 5 no.1:12-13 Ja 161 OMHA I/j.: 2) (Altai TerritoryMine roof bolting;  BE=HOV t I I.11.p inzh.; YURKOV V.N., inzh. t1tilIzation of a sectional hole for sink-Im- twin uprising shaflo. Shakht.stroi. 6 nool:19-21 Ja 1620 14:12) 0 1. Clubocharokoye shakhtostroyupravleniye.(for Belyashov) 0 2. AItaysldy gorno-metallargldheskiy- nauchno-issleclovmt-ellskiy institut (for Yurkaw). (Coal mines and minin  GRUDIN, B.JL, lnzh.; BELYASHOV, V.N.* inzh.; YMIKOVO- V.N.P inzh. Wei of a bunker train In drifting, Shakht,stroi. 6 no-4:4- .5 AV 162, (MD?A 1.5-4) lo-.Kazg-iprotavetmet-(for-Grudin). 2.,- Altayakiy gornometallurgi- cho.ski uchno-icalodovatollokiy instAtut All KazSSR (for Balyashov, Yurkov (Kazakhstan-Mine railroads)