S/030/63/000/003/011/04 BM/W86 AUTHORS: Terenin, A. N-, Academician, Kuoakov, Jd. M., Doctor of Chemical Sciences, Yellyashevich# M. A., Academician BGGR TITLE: Sympooium on molecular atructure and spectroscopy PERIODICAL; Akademiya nauk SarM. Vestniks 110- 3, 1963# iio-iiq 4 TEXT: This is a brief report an the Simpozium po, molokulyarnoy atrukture i spektroskopii (Symposium on Molecular Structure and -whi-ch to-aik--plact? in Tokyo from Sept, 10 to 15o 1962. Thp and Symposium was at end- ed by - 900 - c c i among---,them--: TOO ~rqm- Jy-aparj about 200 from 25 other coun-t-Jes. The USSR was represented by V. N. Xondratlyev, member of the lopolnitellnyy komitet hlezhdunarodnooo soyuza tooreticheskay i prikladnoy kbimii (Executive Committee of the International Union for Theoretical and Applied Chemistry) and by the authors of thin paper. More than 250 leotures were delivered. Card 1/1 A  3/250/63/007/003/003/006 A059/A126 'AUTHORS:. Grachikhin, L.I., Yellyashevich, M.A. TITLEs The broadening of spectral lines showing the linear Stark affect In plasma PERIODICALi DoklAdy Akademii nauk B3SR,v-,7, no. 3, 1963, 157 159 TEXT: The contour of spectral lines In plauma originating by broadening due to the linear Stark effect, which was previously calculated by J. Holtsmark (Phys. Zs., v. 20, 162, 1919), is defined more accurately in this paper. rn the plasma# quasl-state electric fielde from O-to co with the distribution prob bil 1 1% - Ity W (F) dF - y- W (P) d P can arise, where F/FO and F0 -2.61 eN - 0 the normal Intensity of the field. The general half-width of the line was found .,to be 2 A v 2 a PO 2. 80 a Po 7.31 dLeN (10) Y where which determines the frequency shift v% is 1.40, a Is the con- Card 1/2  S/250/63/007/003/003/006 The broadening of.spectral lines showing the .... A059/A126 -.....:stant of the linear Stark effect for a given spectral line, and Fis the aeiun of the electric field. The constant a of the linear Stark effect as determined by the authors is.only half the value used in the equation derived by Holtsmark. ASSOCIATION: Institut fiziki AN BSSR (Institute of Physics of the AS MOM) SUBMM i November 20, 1962  APANASMCH, P.A.; BORISEVICH, N.A. VOLODIKO, L.V.j GLADCHKNKO, L.F.; GRTBKOVSKIY, V.P.; GUINOVICH, G.P.; IVAVOV, A.P.; KUW-1750VA, V.V.; PIKULIK) LA; FILIPOVICilp V.A.; RUDANOV) A.S.; RUBANOV, V.S.; SAMSON, A.M.; SARZIIEVSKIYp A.M.; SOLOVI.YEV, K.N.; UMIREYKO, D.S.; KHAPALYUK, A.P.; YELI:YASHEVICH, M.A., akademilk, red. (Interaction betwrn nonequilibrium radiation and matter) Vzalmodeistvie neravnovesnogo izluchenlia s veshchestvom. Minsk, Nauka i teki,lka, 1965. 223 P. (MlRA 18:3) 1. Akaderniya nauk SSSR. Institut fiziki. Akademiya nauk Belo- russkoy SSR (for Yellyashevich).  L 5447-66 EWT M/EWT (m)/ETC/EPF (n) -2/EWG (m)/EPA (w) -211-UP (t)/EWP (b) IJP(c) JD/JG/AT ACC lilts A25025085 SMOZ COM YU/036816510031003102011020a AUTHORSz Grechikhin, L. I. Yel fyashevich,_~I. A' Y 11, V~ 76 ORG4. none S/ TITLE; Application of the'quadratic Stark effect in the determination of concen- tration. of charged particles in plasma by -the aRectral line broadening of lithium and sodium SOURM Zhurnal prikladnoy spektroskopii, v. 3, no. 3, 1965, 201-208 TOPIC TAGS: Stark effect, line broadeningp charged particle concentration, lithium, sodium ABSTRACT: Stark constant f the quadratic Stark effect for the sharp,, principal.' lit~Zum and diffuse lines of f sodium were calculated. The calculation was based on the well known second 0 perturbation theory expression for energy level displacement of one-electron systems subject to an electric field Gard 1/4- UDG: %3.42  L. 5447-66 ACG 14R.- AP5025085 (it, Lr In'. L+1)2 (L1 L r in', L-1) C4.k e4 V 1(L+ f) 4 (L + 1)7- 1 4 + io--n-a- in tabular form. The effect'of electron and The results of calculat re give ion impacts on the spectral line shape was determined by the use of the nonstation-1 zary electron impact theory arxi the Holtsmark theory respectively, It was found that the overall half-line width was almost equal to the sum of the half-line width due to electronic and ionic effects respectively. It is concluded that the quadratic Stark effect becomes notiroablefor different lines at dij:ferent charged particle concentrations, that a particular line may disappear completely at sufficiently ;high charged particle concentration) and that the diffuse series Lines and the 'higher members of the sharp series are particularij sensitive to charged particle$ concentrations (see Fig. 1), The concentration of charged particles in a dc arc :..Was calculated and compared with data reported by L. 1. Grechikhin (Opt i spektr.,, 13s 5789 1962). The calculated values are in good'agreement with experimental data, Card 2/4,  L, 5447-66. NR'- AP5025085' ACG. Fig. 1. The change the half-line n i width of the a lithium atom (a) om (b) and sodium at I lines as a function 4-5 Cd ged particle of char concentration 0 lie OM ri I 1044 9 vd 104 ON 'pox Card 3/4   94/079T-- a002390 SOURCE CODE: UIV02W65 D09 2/07 ~,txn.,OR: Vitkin. 9-T.; Yellyashevich, i!.A. (Academician Ail' BS33P) ORG: Instituteof Physics of the AN BS311 (Institut fiziki All BSSR) TITLE: Development of a thermal exploviJin time SOURCE: AN BSSR. Do'klady, v. 9, no. 12, 1965, 794-797 TOPIC TAGS: chemical explosion, heat conduction, activation energy A13STRACT: The article considers the one-dimensional unoteady state l1r.1-lCing problem of the heat conduction equation:, Mr PCP + Qexp & ox, r over the segment -UX41 here,fis the density; 0 to the heat caj;acity at constant pressure; Xio the heat conduotlv?ty coefficient; Q exp (-E/T) i's a function of the heat source for a reaction of "zero" order, obeying the Arrhentuo law; Z to the activation energy, expressed in-degrees; and, T is the temperature. The following dimensionless variables Card 1/2  -5 L 1-5955 `6 _ACC NRj - AeOUU2590 A-- PCOP and the parameter 12QE E X Vo exp To are substituted inio E q. 1. Results of the mathematical soluti;n de- veloped in the article show that the calculated results agree satis- faotorily with experiment only starting with q> 2. The critical value of the parameter q is determined by the condition&= 0, which gives qcr = 0-895. It is noted, finally, that at 0,533 for any given value of q, < -OAT This simple solution can easily be ext;-nded to reactions of zero order and to regions of more complicated geometry. "The author thanks S. I. Anialmov for suggesting the problem and for his direction of the 7o_rk_7_ i5i-Igart. has: 15 formulas, 1 figure, and 1 table. SUB-100DE: 20007/ SUM DATE: 13Ma,765/ ORIG REF: 002/ SOV REP: 000/ OrTf 'REP: 001. bvk..- Card 2/2  ACC NRt AP6025256 SOURCE CODE: UR/0057 66/03G/007/1273/1284 t '~- AUMIOR: Anisimov,S,I.; Bonch-Bruyevich,A,U.; Yel'ynshovich,X.A.; I=as,Ys.A-*'8 PAvlonko,N.Aj; RomAnov,q,s, none E: Th6 effects of intense light beams on metals t~XRCE: Zhurnal tokhnichoskoy fiziki, v. 36, no.7, 1273-1284 TAGS: laser effect, metal malting, metal vaporizing, heat of sublimation ABSTRACT: The authors have investigated theoretically and experime, ally the phen- omena accompanying the disruption of metals by fecused laser beams.1)(211n the present paper there is considered the case of a laser producing approximately 1 millisoc pulses, each consisting of a sequence of approximately I microsec spikes. The phenomena accompanying disruption of metals by /-iont laser pulses will be discussed in a future paper. In the theoretical part of the paper, fluxes of 1012 to 1016arg/cm2 see on an approximately 1 mm diameter spot are considered. It is shown that under these conditions the transport of energy in the metal by heat conduction during the i- duration of--a spike in negligible, and the problem of the vaporization of the metal Is i accordingly treated iu one dimension. Formulas are derived, and curves are presAnted i for different metals, relating the energy flux in the laser boom, the temperature of the metal surface, the erosion rate of the metal surface (i.e., the rate of increase 1/3 Card  L 40385-66 ACC NRs AP6025256 in the depth of the hole)s and the velocity and pressure of the jet of metaL_KA_P_Or.7__ temperature of the metal surface is not equal to the boiling temperature, as was orro- neounly assumed by J.F.Roady (J. Appl. Phys., 30, No.2, 462, 1965). The theoretical relations wore tested by experiments on some 16 metals and alloys, using noodymium glass lasers producing up to 300 J pulses. The laser beam was focused with a Ions onto' the parallelepipedonical specimen and the disruptive process was recorded cinemat- ographically at 105 frames per sec. In most of the experiments a glass plate was cemented to one face of the specimen and the laser boom was so directed parallel to the! glass-metal boundary that about half of the beam passed frooly tbrough the glass and the other half penetrated into the metal, vaporizing it. In those experiments the process was photographed through the glass. The mass of metal removed by the laser pulse was determined by weighing the specimen, and the impulse due to reaction of the metal vapor jet was measured. The experiments were in qualitative agreement with the theory, and quantitative agreement in order of magnitude was found. The authors feel that development of a more accurate theory would not be worthwhile, owing to the large variations betwoeu different lapers. Three stages wore distinguished in the disruptio process: in the first stage.. ho~temperature of the metal surface increased at the raM of approximately 1010 degree/ cc; in-the second stage metal was vaporized from the 3 specimen and a hole was formed in it; and in the third stage a pressure of 102 to 10 atmospheres developed within the hole and a powerful jet of metal vapor issued from it at supersonic velocities. The ratio of the laser pulse energy to the mass of metal 2/3  L A'-'- NKI AP6025256 0 lost by the specimen was approximately equal to, but in most cases somewhat less than the heat of sublimation of the metal. An appreciable mass of the metal was ejected as liquid. Orig. art. has: 9 formulas, 9 figures, and 2 tables. 1151 SUB CODE: 20 SUBM DATE: 26Jun65 ORIG. REF: 005 OTH REF: 004 ATD PRESS:,~Yd Card 3/3 vmb  0 0 0 o 0 o 0 0 0 0 o m la"Mabismitame 41 41 a ad Aze 1 4 t 0 1 C, tl It W :1 Ls it if 'I Ai, V A AA . #1 .1 A -S-. c L-1 f Iz i A ~7f 9 .-go 00 dw Sakdom eveift M. o. Or Ymb"kb. Trail Deads. Ind. Ism., 0 X"w- JWwd- ZAW. 4. No. 0, 1jG(jqjj);:: the smePted to iM MCIMM. k *a dad. soullon O= -M dqm& on the saftm 0 of do "a. TU -00 CORk b4le lim bM &Wim Of tht 7111tid, Cbehlbim* aW W. it. ifew coo 00: -00 .900 Coo see see POO too I ts LITINAt"I fl.A5~21,1CANCA 00 144"01 ~W. 1,' - -- 4 f i 0 1 r 1 1 u v A I la "in it st a or a xa to n n is og 16 *1* 0 0 0 0 0 0 0 a o 0 0 * o o g. so ~40 o I *see*** *00000000000*100*  thod u( "itiumian of an avrragc eaal flotation ir-are- ,El'y~5hcrkh~ Mad. K4!A S.S.S.P.. Ordej. Pak. Nrub 1955. No. 1,1, !30-43 --A f,.rm;tb b derivcd for Lul av'troportvnm of --x-d. Valuci from X... - -C A., )1u I - where 9 is the time, and -Y the concentrate yield in pcr cerit. JrWs fornm1t was found very useful In stud)ing coal flotation with milf,matcd lirroiltic and various favring agents. W. M. St,- berg   gra*;Uvl~. ~WIOR-hj-   nRuchW rukovoditollp dote., KIPHIS, Sh Sh, Wont, T ra 0 a no nauk, Selecting at the Khanzhen)~o~o Central Ore Dressing Plant an efficient preparation flowahest for coals difficult to treat because of ash and sulfur content, Sboro nauch. rab. stud. S11D DII no.2:85-91 15?. (MIRA 11-.12) loGorno-makhanichookiy fakulitat Donstskogo industrialinogo inatituta im. N.B. Xhrushchava. (thanzhankovo-Goal preparation)  dote., kand.tekhn.nauk Preparation of the petrographic components of coal In the pro- cess of salt flotation. Mauch.dokl.vys.9hkDly; gor.dolo, no.4: 213-217 1 58. 04IRA 1211) 1. Prodstavleno kafedroy obogashcheniya polezrqkh iskopaysmykh Donetakago Industriallnogo Institute. imeni N.S. Khrusbcbeva. tCoal preparation) (Flotation)  YWYA.MNVICH, Hirra Grigorlyevna; PUSMURMO, Yevgeniya Ivanovna; 'c' A.A., red.isd-va; ILIJUSKAU, G.K., tekhn.red. [Coal flotation practices] Opyt flotataii uglei. Moskvao Gon'.nauchno-tekhn.izd-vo lit-ry po gornomu dalu, 196o. 203 p. (KM 14:3) (Coal preparation) (Flotation)  TEL'YASHZVICH, M.G., dotsent, kand.tekhn-nauk; ORMIGMMMI, m.Ye., - -,--.--dot9ont,,-kaud.tekhu.nauk Flocculation of slime and clarification of return waters in coal preparation plants. Ugoll Ukr. 4 no.8:28-30,Ag 160. (MIRA 13:9) 1. Donatski3r politakhnicheekly institut. (Coal preparation)  I --- -- - --- ~ 'A Yr,IYASIUVICH, M.G.- OZULYA, I.I,; OD111TSOV, N.V.; NAUMOV, N.G. Introduction of an efficient flotation dystem at the coal-cleaning Oection of th4 Scaherbinovka Coking Plant. Koks i-khim. to.9:6-10 16o. I ' (MIRA 13:9) 1. Donetskiy ~olitekhnicheskiv inatitut (for Tallyashavich, Zozula). 2. Shcherbino*oki7 koksokhimibheskiy zavod (for Olintsov, Kaumov). (Shcherbinovka--Coal preparation) (Flotation)  71LITASHNICH, M.G.; CMGXNM. M-Te. Coagulation of coal slurries by high polymers, Koko I khim. no-10: 18-20 16o. (XLRL 13.#10) I* Donetokly politekhnichookly Inotitut. . (Nakeovka-Coal preparation) (Acrylavide)  tekhji-. -na*j- 7MIYASHEVICHO M.0, ZOZULUp-I-l-kalid-teMn7.nauk-~-NAUMOV f Coal flotation at the coal propeLratidn'siction of the Shcherbinovka Coke and ChemiaalPlant, Ugoll Ukr. 5 no-30-3-1 Mr 161. (MIRA 14s3) Badn-Coal preparation)  YELIYASHEUGH,-M.a., dotsent; ZOZULYA, I.I., dotsent Flotation flowsheet of coal middlings which are hard to concen- trate. Izv. vys. uch. zav.; gor. zhur. 5 no.6sl82-187 162. (MIRA 15:9) 1. DonetBkiy ordena Trudovogo Kraanogo Znameni Politekhnicheakiy institut. Rekomendovana kafedroy obogashcheniya poleznykh iskopayemykh. (Coal preparation)  ,YEL'YASHEVICH, M.G.; ZOZIJLYA, I.I.- SHTEYNBERG, I.Ye.; SERGEYEV, A.P.; ~---LMSHIN M. A.; SHCHEPIN, Increasing the efficiency of slurry, flotation. Koks i khim. no.9s 18-19 163. (MIRA 160) 1. Donetskiy politekhnichoskiy.inatitut (for Yellyashavich, Zozulya, Shteymberg). 2. Makeyevskiy kokookhimicheskly zavod (for Sergeyev,, Lokshib, Shchepin). (C6al Preparation)  YELITASHIVICH, Z.B,; GRACHEV, Yu.V. i~veie'ammetering channel for drilling and exploiting deep wells. Izv. vys. ucheb. zav.; neft' i gaz 2 no-7:97-102 '59. (MIRA 12:12) l.Aserba,vdzhanskiy institut ne-'ti i khimii im. M. Aztzbekova. (Oil well drilling) iRemote control)  TELITASHMOR, Z.B.; GRACFW. Yu.V. -------- Communication channel with electromagnetic contacts for telemetering deep wells. Izv. vys. ucheb. sav.; neft' i gas 2 no.10:73-77 '59. (KRA 13:2) l.Azarbaydshanskly institut nefti i khimii im. M. Azizbekova. (Telemetering) (Oil wells)  73LITASHNICH, Z.B., prof.; KULIYXV, I.A., kand.tekhn.nauk; KWIVo-ZAISt Z.I., ----kmC--t9M.nauk, dots. Three-phase networks with nonsymetrically distributed parameters. Izv. vyse uchabo sav.; energ- 3 no-32t2l-27 V 160e (KIRA 13112) 1. Azerbaydzhanskiy institut nefti i khimii iment 14.A21sbekova. Predstavlena kafedroy obahchey i teoreticheskoy elektrotekhniki. (Zlectric power distribution)  Y30LIYASHIVICK, Z.B.; PRMOSTAH, A.N.; GRACHEV, Yu.V.; VIGDCIROV, DvIs; Meye* jetworks an a remote control co=unication Using field electric r channel. Izv..v7s. ucheb. zav4; neft' i gaz 3 no.11:91-94 160. (MIRA 14:1) 1, Axer~sydzhanskiy, institut nefti i khimii imeni M*Azizbekova. (Remote control) (oil fields)  A ZII-VV ) D.A.; ALIZADE, A.A.; ASLANIOV, R.K.; GUSEYNOV, F.G.; DZIRIVARLY, U."ll.; I' KADYINOV, Ya.B.; WLIZADE, Y.N.; KYAZ'11V-.D-, Z.I.; UARIKONYANTS") L.G.; PEIROV, I.I.; RUSTA1,7,01L, F.D.; SPIRIN, JI.A.; SYROMYATNIKOV, I.A.; ESIBYAN, M.A.; EFFENDIZADE, A.A. Professor Boris Maksimovich Pliushch, 1904- ; on his 60th birthday. Blektrichestvo no.1:91-92 Ja 165. (mlyu, 18:7)  "Increasing the Stability of Television Reception for Stron., Signals," RADIO, lio. 12, 1949.  MIYASHMIC9 5'.' 181T101 MR/Radio Television Apr 51 Detection "Reinsertion of the DC Component in Commercial Tele- vision Sets," S. Yellyashkfvich "Radio" No 4, pp 43-46 Describes circuits for dc reinsertion In KVN-49B and Leningrad T-2 television receivers. Advises a- eurs to use ouch circuits in receivers which they build in order to eliminate out-of-focus picture effects and disturbances in reproduction of halftones when type of picture-transmitted changes. 104101  YELtYASIMEVICH, S. U=/~&ao Television Receivers Oct 51 "Pulse Rectification for Television Peceivers," S. Yellyashkevich "Radio" No 10, pp 41-45 Describes method of obtaining plate voltage for Kinescope by using the voltage pulses Vnich arise in the output stage of the line scanning circuit during flyback. Gives load characteristics of the one-stage rectifier used in the KVN-49 mid the 2v-stage rectifier used in the T-2 Uningrad. 2oft56  YELlyon-vical S. UM/Ilectronics Television Aug 52 .Lion Traps .,"The Ion Spot;" S. Yellyasbkovich "Radio" No 8, PP 55-57 Describes 2 tbes of Ion trdpe j both ug Ing auxiliary focusing coils, and apertures; , In diaphragms. In the Z tnmp the electron gun is beat at an an8le of .210 to the axis. Thetj& Md 1-bidt: I*q-. tection against Ion burns is coating the screen'. on the inside with a thin metallic aluminum film. 226733  YELOYASHMICH, S. USSR/Electronics Television:Receivers Jun 53 Kinescopes "Use of a 23LmB Tube in,:!4ie KVN-29 Television Receiver," I. Bardakh and4-6. Yel,yasbkevicb Radio, No 6, PP 39-42 Describes 2 methods by vhich the KVN-49 receiver can be adapted to operate vith a 23LIUB picture tube (instead of the stnd 18LK15). The larger picture tube requires higher line and frame scanning voltages and an anode accelerating voltage of 8 kv. 261T69 261T69  YELI Samuil Abramovich; JMRG. A.I., redaktorl DZHIGIT. I.3., reaKIRM YNLIN, O.'G., radaktor; MIKOVSKIT, A.A., redaktor; MZHM3VZIDV. 3.H.. redaktor; SMIRWY, A.D., redaktor; TUUSOT. Fels; redaktor; TRAMK, Wo, redaktor; CHICHIK, P.O., redaktor; SHARSHUR, V.L. redaktor; NIKOLAMSKIT. IJ.. redaktor; SKVCRT.SOV, I.M., tekhnicheekly redaktor [111minating defects from television receivers] Ustranenie nelopravno- stei v televisoreo Moskva, Goes energe izd-vo,,1954. 151 P. (Masso- vale, radlobibliotaka, no.211) (Mm 8:3) (Television-Repairing)   YILIYISHMICH,S. - ;,: i` - Tuning television receivers with an oscillograph. Radio no.10: 28-30 0155. W-2 A 9: 1) (Television-Receivers end receptlap)  I~ !E'YASfflWICH,__Sa; ramovich; TARASOIV, F.I., redaktor; LARIONOV, G.Ye., tekhnIcheaTcI%yI ~rl~ I - y r Nctor [Testing television tubes] Proverica lamp v talevizorakh. Moskva, Goo. energ. izd-vo 1956. 39 P. (Massovala mdiobiibliotaka, no:241) (Television-Apparatus and supplies--Testing) -OIRA 9.8) Ollectron tubes)  TSLOYASHKEVICH, S. (Moskva) - The."T-2 Leningrad' television set using the 35LXZB kinescope. Radio no-10:53 0 '57. (MI" 10:10) (Television--ReceiverB And reception)  YAWKXVIC , Samuil-,Abramovich;- RUBOHINSKIT, A.V., rodaktor; VOROVIN. .P. 0 to (Alizinating defects from television receivers] Ustrananie neimpraynostei, v televizor Izdq 2-oo, parer* Koskya, Goa. onergotzd-yo. 1957. 79 P. OiNassovala radlobiblioteks, no.277) I (KLRA 10:9) (Talevision--Receivers and reception--Maintenance snd~repair)  PHASE I BOOK EXPLOISiTION Yellyuhkeyich., Samilil Abramovich Spravochnik po televizionnym priyemnikam (Manual on Television Recelym) Moscow., Gosenergoizdat., 1958. 175 P. 50jOOO copies Printed- Ed.: B&rdakh, I. M.; Tecb. Ed.: Voroninj, K. P. PURPOSE: This handbook is add ased, to radio amteurs, radio teebn1c1#=,q to students enrol-led in Ttuzes and to designer. COVERAGE: This handbook provides date on circuit diagram., descriptions,, voltage abarts, coil winding data.. etc.,, on television receivers VAt cut by the Soviet racUo Industry from 1947 to 1957 inclusive. A separate chapter deals with metering and tuning. The present work in a first attempt to systematize this material. The considerable progress Mae in the field during this U year period is reviewed. Soviet television sets are now designed to operate on 12 channels and have rectangular acresus with 35., 43 and 53 cm. diagonals. Among other Improvements, television reception aver greater distances has become possible and the cost of television sets has been reduced. The handbook also cont&1us,Jh1AwVftts Card 1/12  Manual on Television Receivers 4W for the arrangement of the main receiver parts and chaself plans., OxcLUOPIS design. datap frequency characteristics and tuning data. Inasmuch as the fac- tories are alvays improving the desiga of the television. receivers discussed in this book, and as it has not alvays been possible to register these ds*4p changes here., the circuits of several receivers as presented in the text may depart scmewbat fram the circuits of the models actually being put out. In the chapter on measuring and tuning., only those methods used in practice up to the time of publication are discussed. One section of the handbook given WA on the "Rembrandt" television set Imported from Dot Germany in 1954. fte author expresses his thank to A. M. Kanayeva, for reviewing the manuseript., and to M. X. Fayn and E. 0. Ovanesbekov -for supplying the indispensable teoW. cal documentaticn. There are no references. Tk= OF COOMM: Preface Introduction T Ch. I. The "T-1 Moskvich" Television Receiver T Card 2/12  AUTHOR: YellyashRevich SOV-107-58-8-39/53 TITLE. Yore on Interlacing (Yeshche raz c cheresstrc:hnDy razvert- ke) PERIODICAL: Hadiop 1956t Nr 8p PP 40-42 (USSR) ADSTRACTI The article deals with the phenomenon of pairing in inter- lacing. The pair of scanning lines of the two fields merge into one with resultant loss of vertical and horizontal definition. Pairing can be checked by the standard 0249 transmitted test chart or during normal broadcasting. The varying degrees of symmetrical scanning disturbance leading to pairing are illustrated and discussed. To achieve sym- metrical raster scanning, both the integrated field pulses must intersect the cut off line at one and the same time, corresponding in one field to the start of the line synchro- nizing pulse, and in the other leading it by half a line. This unevenness can be counteracted by introducing six equal- izing pulses before t~e field pulse. The line scanning saw-toothed voltage, entering the integrating filter cir- cuit, can disturb the interlaced scanning process. Kenna by which this can arise are listed. This can be solved via a Card 112 buffer stage which separates the synchronizing circuits from  More on Interlacing SOV-107-58-8-319/53 the line scanning stages. To obtain stable interlacing, alterations should be made in the oontrols and, if neces- sary, in the components of the vertical blocking-generator assembly. Some special schemes for improving the interlac- ing, used in various Soviet TV sets, are given. One employs .a special tube for isolating the 6 narrow positive pulses, part of the field signalp and the passing of the remaining signal components. In another, the vertical synchronizer uses an integrating followed by a differentiating circuit which filters off the line pulses and interference. There are 9 sets of diagrams. 1. Television receivers--Performance 2. Differentiating circuits --Performance Card 2/2  TILIYA h- __~_,.,TARASOV, F.I,# red*; VORONIN# KePot (Testing of television tubes) Provarka lamp y televisorakh. Izd.2., parer. i dop. Koskya, Goo.anarg,isd-yo. 1959. 62 p. (Kassovaia radiobibliotaka) (MIRA 12:7) (Tel7v~sion-Recaivars and reception) Electron tubes-Testing)  6(6) PHASE I BOOK EaWITATION SOV12898 Yellyashkevich., Samuil Abramovich Proviarks, lamp'v televizorakh (Checking of Television Tubes) 2d ed.., rev. and enl' Moicov., Goaenergoii"t.. 1959. 62 p. (Series: Massovaya, radiobiblio- te~;,, vyp. 329) 165,000 copies printed. Ed.: F. 1. Tarasov; Tech. Ed.: X. P.' Voronin; Editorial Board: A. I. Berg, F. 1. Burdeynyy, V. A. Burlyand,, V. 1. Vaneyevp Ye. N. Genishta., 1, 8, Dzhigitj A. M, Kanayeva., 1. T. Krenkel1j, A. A. Kulikovskiy., A. D. Smirnov., F. 1. Tarasov,, and V. I. Shamshur. PURPOSE: This booXLet is intended for radio amatVurs and for owners of tele- vision sets. COVERAGE: The booklet presents in tabular and graphical form information for checking tubes in 3k types of the met videly-used television sets and dm- scribes Y ious faults occurring in them. Methods of locating feAllty tubes are also described. There are no references. No personalities are mentioned. TAEW OF CONTEWS: Card 1/4  Checking of Television Tubes 5"/2898 Foreword Faults in Tubes and in Picture Tubes Television Receivers W-49-A and KVN-49-1 'Television Receiver KM-49-B Tele~i.sion Receiver KVN-49-4 Television Receiver KVN-49-H Television Receiver T-2 "Leningrad" Television Receiver *Avangard" 3 5 11 13 15 17 19 22 Television Receiver "Avangard-55* 25 Television Receiver "Zvezda" (elcperimentaa mdel) 27 Television Receiver "Belarast" 28 Card 2/4  WV/2898 Checking of TeleviSiOn Tubes 30 Television Receiver "Bel=118. 1-3" vision Receivers "Urfin"R "Sever" and Menit" -Tele 32 34 Television Receiver "TelIP". 36 Television Receiver "Temp-2" 38 Television Receiver *Temp-3" 40 Television Receiver "Remabrandt" levision Receivers."Ll'Oh-j" and OLUch-0 e T 42 4 Television Receiver 46 Television Receiver .-Lnanys-58- Television Receivers wStartw and "Start-0 )~8 51 Television Receiver a8ekore card 3/4  Checking of Television Tubes WV/2898 Television Receiver "Record-A" 52 Television Receiver "Record-B" 54 Television Receivers "Rubin", "Rubin-A" and "Yantar," 57 Television Receivers "Rubin-101"j, "Rubin-201" and "Rubin-202" 59 Television Receiver "Yenisey" 62 Notes to Tables 62 AVAnABIE: Library of Congress Card 4/4 JP/os 1/29/60  PHASE I BOOK EXPLOITATION SOV4680 Yellyashkevich,, Samuil Abramorvich Spravochnik po televizionnym priyomnikam (Manual on Television Receivers) 2d ed.p rev. and eal. Moscow, Gosenergoizdat, 1960. 223 p. 150,000 copies printed. Ed.: Yu.A. Protopopov; Tech. Ed.s K.P. Voronin. PURPOSE; This manual is intended for technical personnel of television establish- ments, students in schools of higher technical education, and designers. COVERAGEs The manual presents characteristics of the w7re widespread television receivers manufactured by the Soviet radio industry between 1949 and 1959. It contains schematic diagrams; descriptionsp Information on tuning, electrical and operational characteristics, and data on windings. Separate chapters deal with improvements in television receiver circuits (1957-1958), units and assem- blies of general uset and methods of measuring and tuning. The manual-is based on plant regulations for tuning and adjustmentep information received from tele- vision plants~and from the Gosudarstvannyy Soyuznyy radiotrest (State All-Union Radio Trust) of the Ministry of Communications. No personalities are mentioned. There are no references. oftr&_~  YFVYAS .41 'AVr"OmOkqr4 - PEVZNERt I.M.p inzh,t retsenzent; BABUKI 13*V.9 inzh.t retsenzent; ftVZUR# I.N., red,; ZHITHINOVA# toldm. red, [Elimi"ation of faults in television receivers] Ustranenie no- ispravnostei v televizore. Izdo3,v perer,,l dop. Moskyaq Goo* energ. izd-yo, 1961. 205 pe (Massoyaia radiobibliotekal no. 387) (Television-Repairing)  57-~ YF.LIASHKMCH, Samuil. Abramovicb; YAKOBSON., A.M. red.j 'LARIOIIUV# G,Ye,,. -t-ekEiGred# -- [Use of a wobbulator in tuning a television receiver] New-troiYA televizora s pomoshchliu generatore. kaoWushcheisia chastotyo Moskva Gos.eaergeizd-yop 1962, 63 p. (Massovaia radiobibliotekap no-430~- (Talevision-Receivers and reception) (MA 15t,4)  im YELIYASHKEVICH Samuil Abramoylgh; FEVZNER, I.N., red.; LARIONOV, I -- (E.: ~." `r;t - (Repair of television receivers] Ustranenie neispravnostei v televizore. Izd.3., perer. i dop. Moskva, Gosenergoizdat 1963. 207 p. (Massovala radiobiblioteka, no.~87) (MIRA 16:6) (Television--Maintenance and repair)  XZL,!YASHMICII,..,Samuil.,Abr~moyicb; LEVYKJNq H.N., red.; FILIPPOV, A.I., red.; ZHU, Ya.M., rod.; ZHEGALOV, 145.0 red.; ZBOVIYEV, G.P., red.; KOLYSM, F.P.j red.; FUTNOV, M.N., red.; KHMAKOV, M.A., red.; PEWNER, I.M., red.; SOBOLEVA, Ye.M., tekhn. red. (Handbook on television receivers) Spravochnik po televi- zionnym priemnikam. Izd.3.., perer. i dop. Moskva,, Izd-vo "Energiia," 1964. 271 p. (MIRA 17:4)  - . -., - ilz;; ~- -I -m 7'. I $4t 6 to loo lsomts 16 41 0 a Ila 6140 'A 00 1 0 A I A., -1 M 4.411t N:Ye LY , , C ...... ... . . Livor upose and ft, In owi still P. In roll,it% the (A owq~lililvfrovly with Off filmW A-1 " 14, (All i h f uct f . e beins for t -1 3 Inermli"It age. Abrupt eh 00 of ctrallIrt and IK :0111 Jarl; 0 4VAN ng l 1V19Y, anori iln, Alf is .8f.&LbfflGKAJ ktlf*.fWt 4USItNIC41100- $*.Jog ft log u AV -0 Alf. it 40 it at 0 4p 0 0 Alif fin O*ib aw WMAD et Q 41 a 0 J!, SAA go u , PF orj%nisms, J , 14"Ats" fit Pligh-11, r"Jilrill ill Ou- liv.9 lilt Se"e"al itnd. Will lilt Wirl 1.6 fl-, are not.1 4.11 Or life, it, C. 10. A. x** zo 0 400 7 so* LAO 0 t* Is be 0  P F Q -I - ti 1, 1- it-I L AA N W A yo- 00 ji 0 0 0 COMPAJiMS Of tht I elylk &Wvity of sulfate &ad so. 40 jj; too* propatatlaw of T' atbit tim. It. 1. (kA'dAt,l. .0 00 U~_"44411%?Jcb. fik-Arm. J. (Ukmhw) 18. 6W-67 Knolith. 571-4alwo).-In Con- (in Russian, foi noTtion with the work on the felation twern the liver 00 z ed 's met ng fabbits (C. A. 33. M'A")~ I/ Jew and fat in frowl with hJ'4 " it on twou,11WO cc hani's mettuxt ent 06 (of, C. A. 28, 341W) was decided upon to dehydrate the 00 tissue witlunit removing the fat. me JIVET, washed In with After paper. phy*gMk "n. and hirdth 00 a *Jill wI%%srs anti mixed wi 3 11mrs Its wt. NavS(At 9-1 p6Mj0vrfC&Clj. Fjum21n4f.Offr"hlI=Iv.w%4 Waxittl fatten for nwh expl. 'rb, condilkint (4 sY fw diff"ent elpts.. tmi Wt, 11W %AnW JfW acritaw-44hrl (I)sndsuff&tr(H)PrcPns- Controls tOdct- the "alt"It activating sulfate Influence sbowtd no such Influence- 00 ThesynthrsisratinolitoHl-il toll-4-6.6 for rabbits 12-45 days old. approachitill that of adults. Kocoeff.cvuldbe 16 ~060~' lots A 0 1- 00 *00 -00 -04 =00 coo .*I::: drrtyrd Inr newborn to J-2-day-old animals. whosa let- pth"Is and hydrolysis value for 1. I rib JJv,-r gave tero 4y '1400 frut remarkably IsIxis 11, 6-1-14%. The by&olKtk lipaw activity of Hof young animals equals that of ftes timue. a. Gutoff L4 0 U Nw I 11;"tristom units otttt, it a a 0 0 0 0 0 0 0 * & 0 a 0 0 0 0 0 000 0 0 0 0 0 0 0 0 :. 0 0,0 0 0 0 0 0 * 0 0 0. 0000 0. 0 0 99 9 *fee : : : : : 00  00 so so, It go 09 AM o* .3 00 09 09% 0 0 0 0 .0 10 16, 1 f, 161 T, IOU is W U a a 6, 4. 0, n t $I 4j it do a to K N I I L a Aln I I M 0 lz 0 Vt. 0 R0149*4 beirg" Me by&o"c and synthetic Activity roo Yet 11PO". F..&EI'Y*AbkrvJch. fimvkew. J. Wit- .00 ) 17 271-80(in Russian i Iti'lin O u; i l ~ r 1 llc Capecity Df bi 4ilyn ipa was detal. ; 4 pus of thr tissue In 0=1 AV MIA)II an 11W butyrave loults, in units W 0.01 1. tit fresh tissue, the synthetic "Viy. stdilling to a Main. of 0.5 Ird. butyTic id i 2D L 0 1 n ar m * the dry tisave (cmespanding to 2 of ft sh tb ue) ith h d N N e s g- . w an Prr . a,%),; the mist. y was titrated with 0.05 S KOH and again after 3 lus. st Zee 30". -Tbe oneff.. synthnic octivily1hydnAylk. was 3.3-. 4.0 for Adult, Ml 3h-5.0 for snminc rabbits. The ay. coefts. for riabbits, guinea pip, and rats were 3 3 2 and 10.2. reop. it"it-liver tissue was stable InIh.'sa. zoo 7Z40 medium. fresh ulnels-PIC tbaue kat 17% and the sulfate '" li - Poe a o( s activity; the tWue activity was 2-3 =- n 1 amtcr Insq. riwdlum. 11-irbi Guttill Zoe SO 0 zoo 12=1 IALLUMGKAL LFTIIIAIM9 C1.41111FICST40 Des Miami qt.!!~r gee *iaw $410114 Nit d"I Got MIA 14-1 CA all i W 0 ; ..jA& iv wo a vim iosaai3v v"I U AV 10 it Irt In In No a As 4"d 0 0 0 4 0 0 0 O's 0 0 0 0  ; I.T. ~, , J. ~,; i , GRI113ER3, Ye. A.; YZ-LIjASFjopCH, Z. S.;, A:-,TSI,,A.,,, IL I. 34171. Morfologichoskiye i biokhinicheskiye izneneniya oritrotsitarnoy massy v razlictinykh sloyakh Krovi, Konservirovannoy na glyukozo- tsitratnon rastvore. IrKr. biokhim. Zhurnal, 1949, fLo 3, s. 269- 79- Na ukr. yaz. - Rezju--fe na rus. yaz. SO: Knizhnaya Letopis' No 6, 1955   I Ye.s. [161'Iaahkavyob,, E.S.) --7EL!YASRY.UICI v Alkaline rejerve in the blood following intravenous of vodium lactate sclutinn into dogs after acute exten3ive Fizio". zhur. [Ukr.] 10 no.3096-399 My4e 164. (mmA 18~?) 1. Kiyevskiy nauchno-isslodovatellakly Institut perelivurdlyu kTcjvi i neotlozhnoy khirurgit.  YELIYAEFIEVICHIYE.S.4 PUKAHVICIII, A.S. Ter-1,3tirm of fibrinmgen frcm h=-n plasma b7 meane jf a !rt,%r-IIP without filtration. G--~mat. i perel. kro?i 12623-17 165, (M-IRA 18?10) 1. Kiyevskiy inatitut perelivnnlya krovi.  L 11547-66 EWT(d)/EV1P(k)/9V'P(1) ACC NA, AP6005029 SOURCE CODES Ufl/0103/63/000/001/0?~1/0D% AUTHOR: _~ztMa,,Z- Asl Alizadep As A.1 Aslancyp Ro Ke; Guseynoyp Yo 0.1 Dzhuvar _0h,,.M..1 XQVXAM Kadymoy# Yao Be; Kulizadep Ke Nol ar j veds, Z. Is )(Yai~ a4 j.Mamikonyanta,, Lo Go; Petrovq L L; Rueta=adeg P. Be$ Spirin, A. A.1 Syromyatnikov, I. A.1 Esibyan, Me As; Efendisades At A, .0 ORG: none TITIE: Profess novich Plyuahchl /J3 SOURCE: Elektrichestvoj, no. 1,, 1965v 91-92 TOPIC TAGS: electric engineering, electric engineering personnel, petroleum engineering personnel, petroleum engineering ABSTRACT: Brief biography of subject,.a doctor of technical sciences and head of Department of Eloctric Power and Automation in Industry at the Azineftekhim (Azerbazhan -Petrochemicq1JpktA1!~#),, on the occasion of his 60th birthday In Vober rbaydzhan Polytechnical Institute imeni er i -rraduaaig irom A2e ~ Azizbekovo subject worked in Caspian shipping industry and later headed the,lesigning division at the Azerbaydzhan department of Elektroprom. With Azineftekhim since 1927, starting as laboratory assistant; department head since its tormation in 1938; deputy dean of power engineering division in 1943-45. One of top Soviet experts on the electric power supply and electrical equipment of the petroleum industry, he has trained many engineers and scientists for this field and is the author of over 60 published works and ixrventionso Widely known are his works on cwd 1/2 UDC: 621.3~2-03  ---------- L 11547-66 ACC NRe AV"5029 determining power losses in drilling* He was the first ~o investigate the problea of selecting the most suitable power characteristics with due consideration for wave-like torque distribution along the drilling string* He did research on the automatic regulation of drill feedg, critical roller-bit speeds, self-6starting electrical p=ps, etas. A party member since 1945, subject has been awarded the Order of the Red Bann'er of labor Orige art* hass I aguro. 9PR;7 7 SUB COM, 090 1~ SUEN DAM: none rded 2/2  Roofs Reed-coverid sheepfold. Sell. stroi. no. 3 (44)v 1952 Monthl List of Russian Accessions, Library of Congress, August, 1952, UNCLASSIFIED.  1. YELYASHVILI, 2. USSR (600) 4. Farm Buildings 7. Standard plans for livestock barns. Sov. zootekh. 7 no. U. 1952. 9. Monthly List of Russian Accessions, Library of Congress, FebruArl -1953. Unclassified.  YELYASMIJ, A. I*; VOLCHKOV) V. Pam Buildings Constructing reed-roofed sheep sheds. Sots. zhi#. 14, No.q. 1952. I Monthly List of Russia6 Accessi22!,, Library of Congress, December 1952. Unclassified.  VOZBVfSKAYA, A.Ye.; THLYKIIIA, L.I. Word Fertility of nevly cultivated turf-Podzolic soils in the southern taiga of Omak Province. Pochvovedenie no.505-41 147 '59- (MIR& 12:8) 1. Omakiy ael'skiy institut Im. B.H.Kirova. (Omak Province--Soil fertility) (Podzol)  "Effect of Fert-i lization on t:,c Potato and Tomto Crops Under Conditions in Soutizern Sakiialin." Cand Agr -"ci, M-Union Sci Pen Inst of Fertiliza "lion, Af;ricultural Erigimering, and Soil Science imeni K. K. Gedroyetv; All-Union Order of Lenin AcaderV of AGri.cultural Sciencc3 imeni V. 1. Lenin, ~Ioscow., 1954. (KL, INo 11, Mar 55) So: Sum. 11"o 670, 29 Sept 55 - Survey of Scientific and Tcc~nical Di rmerta t ions Defended at USSR lligh,cr Educational Inotitutiona (15)  t-. AL ~A Nn V t RARSUKOV, II.I., kAnCI.sollskokhozy&yatvennykh nauk; KUTURIN, A.D., doktor sollakokhozyaystvonnykh nauk; BORINEVICH, V.A., kand.sellskokhozyay- stvannykh nauk; BOIWSOYA, S-11., Bgronom; VFJMYICaVA, H.D., kand, sellskokhozy&ystveanykh nauk; GNSHUH, X.M.,doktor biol. nauk; GOROKHOV, G.I., kand.sellskokhozyaygtvannykh nauk.- GUBKIII, S.H., YS kand. voterinart7kh nauk; OfA L kand.sellokokhozyaystven- nykh nouk; KOTT. S.V., doktoTrWO)A&.in"iAWkO; KOCIIKIIIA, V.A., agronom; 6 IAHBIN, A.Z., doktor biol.nauk4, LKBIIDSVA, Ye.H., agronom; MALkKTOVSKIY, A.Ya., dok-tor oellakokhozyaystyennykh nauk; HAYBORODA, N.M., kand. sellskokhozyaystyennykh neuk; MAYDAHM. A.E., zootakhnik; OVSYAI#NIKOV, G.Ye., kand.sellskokhozyayBtvennykh nauk; PSTRO7, P.A., kand.biol.nauk; POGORNLOV, F.F., agronom; POLKOSHNIKOV, H.G., dotsent; RENARD, G.K., kand. sellakokhozyaystvennykh nauk; RUCHKIN, V.N., prof.; SADYRIII, H.M., kand. sell skokhozyaystvennvkh nauk; TOBOLISKIY, V.YA., vetvrach; TYA'"'HELIIIIKOV, S.D., kand.sellskokhozyayBtveanykh nauk; UKHIN. I.I., kand.sellskokhozyaystvennykh nauk; YEDOROV. G.V.. kand.Bellskokhozyayetvonnykh nauk; CHIRKOV. D.I., zootakhnik; TSINGOVATOV. V.A.. prof.; SHVETSOVA, A.H., kand.sellskokhozyaystven- nykh nauk; SHMMAGIII, A.L. kand.sellskokhozyaystvennykh nauk; SIMNOVSKIY, A.A., red.; GOLUBIIgWsYA, Ye.~;., red.; IMCHAY.MVA, Ye.G., red.; FiMSYPKIIIA, Z.D., tekhnicheskly red. (Siberian agronomistle reference manual] Spravochnaia kniga agronome Sibiri. Hnnkva, Goa. izd-vo sellkhoz. lit-ry, Vol-2- 1957- 539 P. (Siberla--Agriculture) OIIRA 11:3)  LVIN, M.V., lnzh.; TILTKOVA# T.A. Autoclave-hardened porous concretes made with local Ural materials. Trudy NIIZHB no.8:129-135 '59. (MM 13:4) 1. Sverdlovskiy filial Voeooyusnogo naucbno-iseledovateliskogo Instituta prowyehlennykb sooruzheniy. (Sverdlovsk Province--Lightweight concrete) (Form Province--Lightweight concrete)  ';,POI A R T Ii, - r z, -,- c j_ 752 -2 . Y41 Uchet! kal'kulyatsiya i otchetnost' na predpriyatiyakh legkoy ro-nyahlennosti (Accountingand calculation in light industr'y enterprises, by M. G. Yelysheva i V. A. KAL'XUTIN. Moskva, Gizleprom., 1954. 178 P. tables.  TYURINI G.S.$ kand. tekhn nauk (translator ];-=XVTIN jjj&~j_ inzbe (translatorb MAURAKH, Y,,A., kande tekbn. nauko red. [Electron malting of metals, Translated from the English] Elektronnaia plavka metallov. Moskvap Izd-vo "Mir," 1964. 357 P. (MIRA 180)  YELYLITIN, D. N. "The formation of the intrusive complexes in the Northern zone of the Tien Shan" report presented at the Second All-UnIon Conf. on Petrography, Tashkent, 19-23 May -1958 (Geokhimiya,5p'58.,P507)  . _ ~ELY~T JUMMI YUONS jt~~ Mel RUDAKOVA# Z*Go; Y Pro-Paleozoio mineralizatlon of rare earths in the Ilaryn baoin, Zqp. Kir. otdo Vaen, min* ob-va no.1:77-81 139* (IOU 140) (Rare earths)  28564 S/137/61/000/009/061/087 AO60/AIOI AUTHOR: YelyutIn, 0. P. TITLE- High-resistivity alloy for tensometers PERIODICAL- Referativnyy zhurnal, Metallurgiya, no. 9, 1961, 25, abstraot 91166 ("Sb. tr. Tsentr. n.-i. In-t ohernoy metallurgii", 1959, no. 22, 03-204) TEXT: Two alloys are developed which have characteristics close to those of alloys for thermal compensated sensors. The alloy of Fe with 26.63% Cr, 5.55% Al, and 3.48% V D(26WI)(Kh26YuF)] has a specific resistivity of 1.47 ohm-~w?/~; tempegature coefficient of lingar expansion of this alloy under heating up to 900 C is equal to'13.6 , 10- deg-1, the temperature-coefficient of electric resistivity in the temperature ranges 50 400, 400 - 600, and 600 - 1,0000 is equal to (1.31 0.9; 0.7).- 10-5 dog :1 respectively, and may be. reduced by heat-treatment. The output signal of the alloy In greater than that of the presently used alloys by a factor of 2 - 3. The alloy containing 76.95% Ni, 20.15% Cr, and 2.50% Al has an electrical resisti*lty of 1.16 ogm-m;2/m*, tempeiature'c6effioient of linear expansion under heatin&up to 900 C equal to Card 1/2  2t564 81137/6 IIOWI00910611087 HIgh-resistivity alloy for tensometers A06DIA101 16.6 , io-6 deg-1, while the temperature coefficient of electric realatlyity remains constant in the range 50 - 5000C and Is equal to 1 - 1.2 - 10-~~' deg-1. The alloy is not fit for applications above 5000C, since the temperature coeffi- oient of electric resistivity above 500 C beacmes negative. K. Povarova (Abstraoter's notes: 1) Complete translation. 2) * Correoted from ohm-mm2/m-1.1 Card 2/2  36820 3/137/62/ooo/oo4/125/201 A06OIA101 AUTHOR: Yelyutin, 0 P TITLE: Alloys for bigh-temperature sensors PERIODICAL: Referativnyy zhurnal, Metallurgiya, no, 4, 1962, 68, abstract 41408 C'Sb. tr. Tsentr. n.-i. in-t chernoy metallurgii", 1959, no. 22, 205 - 225) TEXT: Five alloys have been developed, whose characteristics correspond best of all to the requirements imposed upon temperature transducers. Depending upon the value of the temperature coefficient of electrical resistance these alloys are divided into three groups: 1) the alloy t 1 50 1/\ 10 (N50K10) Pwith composition (in %)z Ni 51.0, Co 10.5, Fe 38.9 - has r - 0 25 ohm - mm ~ms temperature coefficient of electrical resistance 5.5 - 10-S deg-1 In the tempera- ture interval 20 - 500 0C; 2) the alloy!< 8070 ~K8070) with composition (in %): Co 83.5, V 3.5, Fe 12.9 - has f3 - 0.213 ohm - mm Im, temperature coeffIcien of electrical resistance 1.4 * 10 deg-l in the temperature Interval 20 - 700V the alloy K 85,X 10 (K85KhlO) with composition (in %) : Cr 1.72, Co ~5 : 0, , 10 has 0.4, temperature coefficient of electrical resistance 1.7 10-3deg Card 1/2  Alloys for high-temperature sensors 511371621000100)Vl251201 Ao6o/Aioi in the temperature interval 20.- 700OC; 3) alloys of the type of chromel H90X 10 (N9OKhlO) with composition (in %): Ni. 90.0, Cr 9.5, Fe - the remainder (f - o.69 ohm - nW/m), and stainless steel H 3OX 18 ~N30KM8) with composition ( n %); Ni 30.5, Cr 18.8, Fe 50.0 (? - 0.95 ohm - mm2/m), both alloys have a temperature coefficient pf eleptrical resistance less than the predetermined value of 2.6 3.3 - 10-4 deg-'. [Abstraoter's note: Complete translation) T. Rumyantseva  _7 Ari A~ P/tUAZ/000/025/011/025 71K 61 AUTHORS: uUa,.0_P, Pshechenkova, G.V. ~-'_TITLE: Investigation of alloys.of the system Ni-.Mn-Cr* SOURCE:' Moscow. TwentralInyy nauchno-iseledovateiltmkiy institut chernoy Sbornik trudov. no. Z5. Moscr, 1962. Pretsizio rye TEXT: -The paper -ie-pdktj-the - 'anezper'~u~entai_ ~~4i VA alloys of the system Ni_Mn-Cr which exhibit an e and a low temperature coefficient of the ER and which, itherefore, are readil0itilo; ized for the making of resistor elements which operate'La instruments and eq*ip- ments at near-room T. In addition to the electrical properties of a number alloys of this system it was found to be necessary, in the interest of the development of suitable manufacturing techniques and related heat treatments, to study the phase composition and the transformation processes therein. The phase diagrams of the systems Mn-Ni and Mn-Ni-Cr are shown. The experimentation comprised a dilato- metric analysis, ER measurements, and an investigation of the effects of various elements on the properties of the alloys, an investigation of the effect of heat treat- ment on the electrical properties of the alloys (performed by 1. A. Savost' yanova). Card  ..:-Investigation of alloys of the system .... S/776/62/000/025/013/OZ5 vnncli in, t e-investigation--o"Hoys, of- the- system Ni-Mn-Crj. containing irom.20 45% Mn and B-10% Cr, permit certain conclusions on the phase composition, trans fo rmations, and possible uses of the physical properties of these alloys. The alloy containing 20% Mn and 8% Cr constitutes a single-phase solid solu- tion. During slow heating and cooling in the 400-5000C T interval a K-state forms in the alloy. As the Mn content is increased beyond 23016, an incipient phaje trans- formation of the face-centered y phase into a face-centered tetragonal e phase was detected dilatometrically; this transformation was distinctly fixed by the X-ray method at a Mn content of 30%. ER measurements during heating denoted a smooth transition from the single-phase to the two-phase alloy3 which occurs during an in- crease of the Mri content from 23 to Z8176. The alloys lying at the boundary of the two-phase region exhibit a fairly elevated ER(1.4 ohm- rnm 'z /m) which increases with increasing Mit content; -these alloys have an ER-temperature coefficient vary- ing from positive values to negative values within the T range from room T to 3000. The same properties can be obtained in the two-phase alloy by means of heat treat- ment that achieves the required oolid-solution state in which the new phase does not yet precipitate. The detection of this state is feasible by means of ER mcasure- ments and the dilatometric method. An advantage of the alloys obtained from the Z-phase region is the elevated ER. The required state can be obtained by quench or by quench- plus -a ubs equent-aging, at which the required initial stage of decpm- Card 2/3  S/~76162/000/025/013, rnvestigation of alloys of the dyfitem 5 position of the phase from the solid solution is obtained. The alloying element4 contribute to an increase In the ER and in improvement in,the mechanical prop�rties of the alloys. There are ZO figures, I table, and 4 references (Z Rus sian -language Soviet, I GerrAan, I English- language). A S Car, 1 3/3  YELYUTJ11 O.P. (~bskva); KALININ, G.P. (14oskva); ROGOV, G.I. (14ookva); S.M. (~bskva) Physical and mechanical propertioB of alloys in the system titaidum - molybdonu;L - aluminum. Jzv, AN SSSR. Otd. tekhe nauk. Met. i gor. cb1o no.ltl76-180 Ja-F 1634 (MlRk 1613) (Titanium-molybdenum-aluminum alloyo-Teoting)(Phaso Aile and oquilibrium)  L 1104&2 W(q)/ZWT(M)/BDS--AMC/A5D--_7jD ACCESS1011 NR: AP3000915 S/0279/63/000/002/oi36/oi4o AUTFOR: , Ye;~%tln, 0* P* (MOSGOV); Kalinin, G. P.* (Moscow), Khromov, S. M. (M93col-0 TITM: Physical properties of titanium-rich alloys of the titan1un-aUzm1=,.- --tin system-- _".W~ SOURCE: -PIT SSSR. Izv. Otd. tekh. nauk. meteuurgiya i gornoye delo, no. 2, x963, 136-140 14, TOPIC TAGS: titaaium-aluminum-Azin system, titezium-rich alloy, titnnium-rich- u.110y'stnicture, titanium- rich- alloy resistivity, resistivity' temperature coefficient thermal electromotive force, beat donductivity, titanium-rich- alloy strength ABSTRACT: The physical and mechanical properties of Ti alloys with up to 10% The alloys were melted in a noncommobb- Al and up to 25% Su have been studied. electrode are furnace in. an argon atmosphere,, forged into rods at a temperature ranging from 1100-1200 to 700- 800C, annealed in a vacuum of 1 x 10-5 = Hg at 12000 for 3 hr, and coo.Led to room temperature at a rate of '800/asc.. After Card 1/3 7  21094,63 ACCESSION UR: AP3000915 this treatment, all alloys had. a single-phase structure of a~soU4 solutions. Electrical resistivity at 20C was found to increaGe steadily with increezing Su or Al content aud reached 1.85 to 1.90 ohm x =2/m In alloys with 7.5 to 10% Al and'2.5 to 15% Sn. The temperature coefficient of resistivity, while remaining constant for a given alloy in the 20 to IBM range, decreases linearly. with increasing Sn or Al content and is 20 x 10-5/deg for alloys with 7.5 to 10% Al aacL 5.0 to 15% Sn. - The thermal emf (in couple with Cu), which for pure Ti is +5 mv/deg C, decreases by alloying with Al or Sn, and at 2.5% Sn or 1% Al is negative. A maximum thermal emf of -10~4 v/deg 0 was shown by ternary alloys with up to 10 to 20% Sn and 5 to 7.5% Al. Both alloying elements decrease beat conductivity from 0.030-0.013 cal/cm x see x deg for pure Ti to 0.012 cal/cm: x sec.x deg for alloys, containing 22.5% Sn 9d 2-% Al. The tensile strength remains.almost unaffected on the 78 to 85 lc�/= level with additions 'of up to 10 to. 12% Sn,, but increases to 120 kg/mm at 171,,' Sn with.elonsatlon dropping to 10%. Al is more effective than Sn In strengthening alloys. Ternary M-Sn-Al aLloyswith 45 to 24 and 4 to 7.5% Al have a zsx.4=- :~Ccrd -.2/3  L 1.1694-63 ACMSIOII IM'- Ap3000915- Further Incremse o td 61p. tensile strength of 125 kg/=2 and a ductilitY Of Orig. art. has: content lowers both strength and ductility in the Sn and, Al 4 figures- tute of precision kh splevov TaNnWI ASISOCINUOIT: Tnstitut Pretsizi='Y* Kiloya TsNllCbl-l) - I IsTun63 00 DATE ACQ. 2lAug62- UBmTM- D SOV: o06 001 v0 REF SUB COME: HL  kit 4 j . I MININ , " Al I Em ~ -Rig s A  15"! 1 1 I :. I te P, - mo ~ I 1 -1 pl, 'Al- ~ I'VE MR, ,I, ~ I ~ - mill. a  5L . - I , .- 1, . I r k I . t ~ , . A : - - . . . . . I I . . ; -, -, Z, , A .I -_ I I f- : I ~ 4 , . . . . : t 0 ~Y, -  MO.  1 13381-66 EWP(a)&T(m)i(EWA(d)/EWP(t)/EWP(%)/EWP(b) IJP(o) JD/HW/JT d- /' 4- W _6~ ACC NR. 66- 61' NCO 6 if INVENTORs Yelyutin. 0, ?#1 Ookshitakty. tj_ Ts ,I V --Sorokin, ORGt none TITLEa Itigh-resistivity alloyl-ilClass 40, No. 177075 (announced by Ceintral-Scientific-Research-Institute of Ferroup H~Asllurry imo 1. -P-. Bard1n (Teentrallnyy nauchno-;LssledovatellakLy instLtut thernoy 1hetaLlurgIL)j SOURCEt Byulleten' izobreteniy i tovarnvkh znakov, no. 24, 1965, 72 TOPIC TACSt. alloy, high resistivity alloy, nickel containing alloyq manganese containing alloyo vanadium containing aLLoy ABSTRACTs This Author Certificate introduces a high-resistivity alloy containing 42-50% Nip 40-46% Inand 4-18Z V. JNDJ SUB -6-,0D31 l1/ SUSH DATE: llHay64/ ATD PRESSI 4-0Jr. Isord UDC 669,,245,018. 54  MKNI-Teib MEE L 22944 W(a)ZEWP(t) 14P(c) JD/JQ -XCC NRt 012142 SOURCE CODE-., UR/0413/66/000/007/0060/0060 .INVENTOR: Kalln1n, G. P.; Yelyutin, 0. P. ORG: none TITLEt' A method of-vanadium pitoduction. Class 40, No. 180347 SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 7, 1966, 60 TOPIC TAGS% vanadium, vanadium extraction, aluminothermic extraction ABSTRACT: This Author Certificateintroduced an aluminothermic method of vanadium extraction from vanadium pentoxide. In order to improve the ductility of vanadium and reduce production costs, boron oxide in the amount of 0.1-2.0% of the weight of-vanadium, pentoxide.ia added to the initial charge. [WW] SUB CODE: Ill/ SUBHYATE: llNov .64/ ATD PR.ESS--q237 Card UDC: 669.292.33  601- EWPWLE~I IJP 9 ~6 - EWT(m)L (c) JD/JG/GD ACC NRs AT6013551 (A) SOURCE CODEt UR/0000/65/000/000/0052710--O--54-'--1 AUTHOR: Yelyutin, 0. P.; Bokshitskiy, I. Ya.; Rogova, 1. V. ORG: Institute "of Steel and Alloys (Institut stall. i splavov) TITLE:' Some physical properties of the compounds of niobium with transition elements (NbCr?- NbC02, 11bFe2) 1/3 SOURCE: AN UkrSSR. Institut problem materialovedeniya. Vysokotemperaturnyye neorga- nichaskiye soyedineniya (High temperature inorganic compounds). Kiev, Naukova, duaka, 1965, 52-54 TOPIC TAGS: niobium, transition element, chromiun, cobalt, iron ABSTRACT: The type of crystal lattice, the temperature dependences of normal resisti- vity modulus (E) and electrical conductivity M, the specific electrical resistivity (G), the thermal coefficient of electrical conductivity (dp), the paramagnetic sus- ceptibility Q), the absolute thermoelectric force at 200-1000C, the coefficient of thermal expansion (0) at 200-9000C, the normal modulus of elasticity (E), the tempera- ture dependence of elasticity modulus (0.), and the hardness were determined for NbCr2, NbC02, and Nbre2 samples# The samples were prepared by soaking liquid-phase metals into quartz ampoules 3 mm in diameter. They were subsequently homogenized by holding for 4 hours at 10000C. The temperature dependence of the normal modulus of  L 29604-66 and Hbre2 are grapn-l' ACc NRt AT6013551 tivity (b) of 1bC12, NbC02 lar -icity (a) and the electrical res's 2% NbCO2. and NbFe2 0*6 p;esented in tabu elast properties of NbCr ed. Datd on PhYsical gur-'es 1 tables forms Orig- art. has'. I fi 003 SUBM DATE! 03JU165/ OR'(! IM SUB CODE1 OW C.,d 2/2 MW ff M  C NRI AP601336 U.11/0370/~6/060/0 i/0125/0130 SOURCE CODE; -,AUTHOR: Yali In, G. P. Cl:oscow); Yelyutin,.O,- P. (11,108COW); 0"'oscow) ORG., none I TITLE: Physical and mechanical properties of alloys of the Ti-Nb-Mo system 77 SCURCE: A14 SSSR. Izvestiya. Metally, no. 2, 1966, 125-130 TOPIC TAGS: titanium alloy, niobium alloy, molybdenum alloy, solid mechanical property, solid physical property ABSTRA.M The concentration dependences of some physical and mechanical properties of alloys In the titanium corner of the TI-Nb-Mo system were studied on alloys con- rainIng up to 507'. Nb and 4", Mo. The electrical resistance, Its temperature coefficient, thermal conductivity, thermal emf, modulus of normal elasticity, c' strength, hardnes:rtyand lasticity were determined by plotting the corresponding com- position vs. prop d grams. Two regions of alloys are distinguished: one with low strength properties nd a low plasticity, and one with a high strength and a _1000 % Satisfactory ~lasticlty. The first group of alloys with a strength of 950 :n/m2 (97-102 kg/m, ) and a plasticity of 9-1471. Includes TI-Nb alloys with 30-3517. Nb, Ti-Mo alloys with 10-137. 11o, and intermediate ternary alloys TI-Nb-Mo. The alloys are located at the boundary of the region of the martensitic transformation. The group Card 1/2 UDC  L 3897-1-66 ACC NRt AP6013365 ,of alloys vith a satisfactory plasticity Includes binary TI-Nb allo~q vith 45-55% Nb ary TI-No alloys with 20-25% Mo, anc b-Mo, located b1n I 14ermedlate ternary alloys TI-N nt: the boundary of (,K+0)0-phaao ragjonp.k'~7Thaso alloys have an ultimata strength of rMO-900 .In/m2 ( I 51-92 kg/mtdl) and an elongation of 15-177.. Orig. art. has 1 5 f ILrures. STIB CODEt IV SUM4 DAM 05Nov64/ ORIG REP: 002/ OM REFs 001 Card 2/2/iV/-1V  L ogg6h-67 __ Ezpp(PI WT(M)/FVJP(t)/ET1 1JP(q)___4PAK__ ------ XCIU NKt Apj' uRi"i-~'/66-/ooo-/oig/ooe4'/Oo$4-1 6035722 SOURCE CODE: i INVENTOR: Yelyutin. 0. P.. Bokshitskiy, 1. Ya.; f~qgova,,_I. V.; Sorok ?, H. ORG; none 4 TITLE: HiRh-resisti it all2y% Class 40, No. 186694 [announced by the Central Scientific Research Institute of Ferrous Metallurgy im. Bardina (Tsentral nyy nauchno-issledovatel'skiy institut chernoy metallurgii)] SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 19, 1966, 84 TOPIC TAGS: nickel manganese allay, high resistivity alloy, titanium containing alloy, cobalt containing alloy ABSTRACT. This Author Certificate introduces a high-resistivity nickeL-manganesel base alloy containing 45-50% nickel, 43-48% manganese, and 2-12% titanium at a nickel to manganese ratio of 1.0-1.07:1.0. A variant has 5Z max titanium and 5-15% iron and/or cobalt to improve ductility. SUB CODE: 1l/ SUBM DATE. 1OAug65/ ATD PRESS., 3(105 UDC: 669.018.54: :669.245'74295  ACC AP6036839 sourta com Un/0020/66/171/002/0320/0323 AUTHOR: Bokshitskiy, I. ya.; yelyutin, 0. P.; Rogovat 1. V.; Sorokin, X. He ORG: Central Scientific Research Institute of Ferroun Metallurgy in. 1. P. Bardin (Tsentralinyy nauclino-issledovatellakiy institut chernoy metallurgii) TITLE: Influence of group-IV transition elements and of Cu on the structure and physical properties of alloya bued on the compound Nimb SOURCE: AN SSSR. Doklady, -f. 171, no. 2, 19661, 320-323 TOPIC TAGS: nickel alloy, manganese containing alloy, transition element, alloy, phase diagram, resistivityt electric property ABSTRACT: To investigate the structure and physical properties of alloys of the con- pound NiYa with transition elements, the authors fused pseudobinary alloys HiMa-1-56 (Tis V, Cr. Fe. Co. Cu) containing 1- 20 at.% V and Ti, and 1- 10 at.% Cr, Fe, Coo Cu. The tests considered of a dilatometric analysis in the 100 -- 950' interval, measurements of the electric resistivity as a function of the alloying-additive con- tent, an electron-microscopic Investigation of the structurep and an x-ray phase anal, ysis. The dependence of the electric properties and of the structure of the alloy as a function of the beat treatment was tested in the case of Nima + 10 at.% V. The tests yielded the phase coupositions of the different alloys and the types of crystal Card 1/2 UDcs