SCIENTIFIC ABSTRACT GERASIMOV S M - GERASIMOV V I

VEKSLER, Grigofty Solomonovich, kand. tekhn. nauk- MACHIVSK V441MA1,Kp,~o;-atlyevict(Fachynalkyi V.K.j,inzht 'ZFWMM, I VAtur 'iab)inz'h6j GERABRIOV 5,M, kerasymo'7, S.M.), prof., retsanmbnt . 11- -Ir [Transistorized smoothing filters) Tranzystorni zhladzhuiuchi filltry. Kyiv, Tekhnika, 1964. 170 p. (MIRA 18.4)  -"kov Fcurth All-Union Con,-,revs of' Pat!, O"u. a ton" zhur. r0. 1190-91 JIL I U) ("T"IA 10:2)   AUTHOR: Gerasimov, S.P., F~ngineer /116-58-2-4/'1? TITLE: The Efficiency of the Stampint- of the fro(~essed Nooden Articles (-!'ffektivnost' shtampovki drevesnykh izdeliy) PE11IDDICALi Mekhanizatsiya trudoydmkikh i tyazhOlykh rabot, 1958, Nr 2, pp 12-14 (USSR) ABSTRACT: 'Nith the increased use of plywood for the industrial production of composite parts for furniture and articles of irass con- sumption, the Scientific Research Institute for 'Nood Working Machinebuilding (1411DREV14ASh) studied the possibility of the mechanization of their production by stamping then, from veneer sheets and plywood 3 to 12 mm thick. The experiments were done on the Amaler punching machine with use of the interchangeable dies and punches. The results of these ex- periments, described in detail, showed that by choosing the best gap between the die and the punch (not more --,han 0.02 mm) and applying the proper pressure, the method of s-,,amping the required parts from plywood up to 12 mm thick can be adapted Card 112 to industrial production. The pressure applied to birch  "'n'V/118- 58.2-4/19 The Efficiency of the Stamping of the 11rocesoed Nooden Articles plywood (GOST 3916-47, brand AV) 3 to 12 mm thick varies from 8C to 2!0 kg/cm. There are 5 photos and I graph. ASSOCIATION: Nauchno-isslodovatellskiy inatitut derevoobrabntyi,ayushchego mashinostroyeniya (The Scientific ReseArch Tnstitute for Wood-Working Machine-Buildinr - NI1D11,FVMA9h) 1. Furniture-Prodution 2. Plywood--Processing I Dies--Per- formance Card 212  Ojo's ok'~,- i 0 .00 00 41 of of ma of v a 0 6 4 a a a NO j"D wlef e.pf!l S' (bed) emir MTV. ONMI A. Skul okays abdA. Va. OP' IC 14 No 4. 19- OC . MW Cco. :Ao "16aii~ of the fomiUllm WA .00 mat *I a bm-vAm -W d-i see td. AinabWtv am a pi*md lat-I are &*MW Chu. SIAbC sd~si& st.1MAINGItAt JIMS TIAJ CLAIWIMIGO slow I W410f tillama "it a., for- -U 0 At dO ~; 4; 1. a m* 4 W % 0 11 0 , 0 40 0 NOUN I 71 A 0 so 0 01.0. An j I g ad 0 v Mac  GERASDIOV, Sarafin Takoylevich; PUSICII. Foodoaiy Avdayovich, kaneosel'akho- khoz,nm*; KABOZ&; S.M., laind.sel'skokhoz.nault, spettired.; MOSOVA, N.I., red.; KTJZIHIHA, N.S., tekhn.red.; GOLUBKOVA, L.A.0 takhn.red. (Mixed feeds) Kombinlrovannyo kormn. Spetared. S.M.I:abO2OV. HovkVA, Izd-vo takhn.i ekon.lit-ry po voprosam muk-omol.Ino- krupinnoi. kombikormovot promyshl. i elevatorno-okladfikogo khoz. Pt.l. 1959. 140 p. Pt.2. 1959. 93 P. (HIRA 13:1) (Feeds)  GEWDLOV,-Waftm-YeikovIevich; VYSOTSKAYA, R.S., red.; GOLUBKOU, L.A., teklm. red. (Enrichment of mixed feeds with vitam~uss trace elementu$ and antibiotics] Obogashebenie kombikomov vitaminamis mikr(selementa- ud i antiblotikard. Moskva, Zagotizdat, Ici6l. 97 p. (PIIU, 15W (Feeds)  GEMIMOV, T. Biblioteea Classics, Orientahaj an extremely useful publication at the AcadexW of Sciances of Berlin. Spisanie BAN 7 no.1/2:155~-156 ,62.  10 . 1A F t Q k I , I U w k rat the wakille a firwa Ill floilkwask 00mililits of # Darthern Bolo-ural 1i and 11. %. Lhilvill-lid w4;dl. (AWMA.-Ord nl'w Aisle it s Min 1 7 Xto. 2, 115.11111(1111111. j4h,""t 141 kqo 6111011% Ttill 111611rTAI WVU"1116 relhiLif litlithouts Alul &km%itCn. 1,ille illiet, 1114y Itive It-light, up tu I tin, And art peq",ndicular w flit- a-Alls. The HiM-41914WO And Mtstuhm aft immA. *%Ill aithydiiie avul m0ml auhv- is, liKk4. I'lle lArvilifix"Im tit The Italy- V4 66411 it 41$1; it ON; flit, q 14m, of the tOwl. is IN". f1w ** Air I "Will VMS I lit s",rdle-ghtlx4i (ty-wis shitts at, twellew plimomidal dr iv are (11011 Aell Are 111ctvl'wr r's-dw 1"11H.0 w mlisle fil;,- 00 00 so & 9 its .4 1, 1, t, u r P Is k At &2 a as a _A 1., 1 At w M it., 8 L f '00 .00 .4111111 -00 WJY Me IMI IIV tA.611-1 i 11.1t. Ii 1111% IN -'A 11 01114411 I1V I r jase hydr-W.Ir A I Whet lhr ..,jgh. ~,j 1, the ASW 1-1.411V I% (wirlitnt ill the Val ices 1110try is Imoulav hr lillilmd I. r.6111% (1110ml fly Inelliviritt. bille "%ffi Vivid Chew. mualv'isof file m.1up.mving, A.'s"Ic tin A_%%J1u"% that rumt of the Mllt) of tijjKr.'tM t" tic $N&IV. gmAlle, 1114' n"111111. 4 "hich I, SIN ISAM, Aloh f1.5;, u FtIO1 L72, Cal) I.S.W.. MAO ISM, Cot 11,5, 14* (:Jcf),). 110" WS1, IMY 2~', :01', , It the -inMI is tee-W Wilh 0, 1011V Aild 3DII '.", 111:1 lilf I his.. the cotillm. j. I, I.tlt thl, fill mill. 1~ s not thAl 0 j.4lygtrskjjr bul q t ItAlYgMUC It JIM1111 r%m..4 Cal) A U1 MSO hy even Ivy a snild firl'i jor'lijiltilt. the 1.41takI114,11y Iwis AV~mud Frol,cunirm tit the ittitituil olml, IK-111114111141lir , to A 0 4 jr s, 'I if I I I I s U it At t0 1% -114a fl Is All 000 00 1) 00 R4  GERASIMDA, V., kand.takha.nauk, insh.-kapitam 2 ranga // If At=ia submarisois. Voes, un. 39 no.)t2o-21 Mr 163. (KCIU 16 17) (Atomie suburizes) - '~C A; N  GERASINOV, V.; POKROVSKIY, V. "Technique of investigating water-tapping wells in the Volga-Ural region' by I,K,Zerchanikova. Reviewed by V.Gerasimov, V. Pakrovskii. Geol.nefti i gaza 0 no.8t60-62 Ag 162, (MIRA 15:9) (Volga-Uml region-Oil field brines) (Zerchanikova, I.K.)  PRDTOD'YAKONOV, N.M., prof., doktor tekhn. nauk; KUDRYA, N.A., kand. tekhn. nauk; red. [Quick method for determining the ultimate resistance to compression and the modulus of elasticity of rocka)Ekspress- me,tood opredelwdia vremennogo soprotivIeniia szhatAu i mo- du.Ua uprugosti gornykh porod. Moskva, In-t gornogo dela im,, A.A.Skochinakogo, 1962. 21 p. (MIRA 16:1) (Rocks-Testing)  GIWIMOV,V. - jW61M4401 Schools of progressive work methods at enterprises. Sov.prof- soiusy 3 uo.8:19-22 Ag'55. (MIRA 8:10) 1. Zaveduyushchiy otdolom proisvodetvanno-massovoy raboty Sverd- lovskogo obhotnogo sorsta profsoyusov (Sverdlovek-Technical education) I  FZMV, I., inzh.;'GAMIJOV, Vi. inzh. MeObAniftl f ire spriWders. Poish.aelo 5 no.11:23 N 159. (MIRA 13,~4) (Piro sprialders)  . Icand.takhn.nauk, inzhoner-kapitan 2-go ranga "Polarix"; on a suluarine (as revealed by foreign press data), Starsh.-zerzh. no,806-37 Ag 161* (MIRA 14:10) (Polaris (missue))  GEMSIMOVP V. , kandtekm.naukp inzhenor4mpitan 2-go ranga Busineess atarov and handcuffs. Starsh.--serzho no.6-.36-37 Je ',.')2,. (1111M .1-5:7) (thited States-Amed forceo-Foreign countries)  ~ I; ,, ~ I! I**.'i* . 7. , " t, 4 ?w!le N.kap it.;xn Lne, ~.,uiiplax tralning of signalmon. , r~ ..." 3R-39 F 1 ~,4. I .!T,; ~. -I I., ~". 11 - I - - -  GERASD40VI V.1 ..' .' 1. '' ~ I Aircraft carriers, no,Ut44-45 N 165, Voon.znan. 41 (YJ RA 18112)  2RO30 S/081/61/000/015/083/139 B117/B110 AUTHORS- Gerasimov, V. A., Petrov, I. I., Reutt, V. Ch. TITLEt Extinction of flames of petroleum products with atomized air PERIODICAL: Referativnyy zhurnal. Khimiya, no. 15, 1961, 332, abstract 15071 (Sb. "Novyye sposoby i aredstva tusheniya plameni nefteproduktoy". M., Gostoptekhizdat, 1960, 64 - 98) TEXTs The authors describe mechanical water atomizers for extinguishing fires of petroleum products in containers, and characterize atomizers of the centrifugal type. A table shows recommended sizes of some nozzles and their hydraulic characteristics. The authors describe an atomizer ~~I' the screw typt without the drawbacks of a centrifugal atomizer. They mention extinction tests with atomized water for fighting flames of gasoline and other liquid fuels. They noted the effect of' the height of the free container edge on extinction results. They found that the ratio bptween the minimum height of the edge, at which extinction succeeds, and the container diameter is equal for all containers. They give a formula for determining the minimum height of the free edge at wlAch extinction Card 1112  ?m030 S/081/61/'000/015/063/139 Extinction of flames of ... B117/B110 with atomiz,?d water is warranted. Undcr the action of atomized water, the rate of burning-out of gasoline was reduced to about one-fifth. Extinc- f ior of a neglected f ive in a gasoline or petroleum tank shows character- ,stic featuxes~ 0) Bubbling up of the burning gasoline immiediatEdy after applying atomized vater to the hot container, and ovurflo%ing the (,dge; (2) ~-xtensior. of the time of extinction depending on tile thickness of the h-Pated la3er deturmined by the auration of fire. LAbstracter's note: Cr)mplete translation Card 212  28029 9/081/61/000/015/080/139 B117/B102 AUTHORS: Gerasimov, V. A., Petrov, 1. 1., Reutt, V. Ch., T-sygan, R. M., Yagubyan, L. K. TITLE: Combined methods of extinguishing burning petroleum products in containers PERIODICAL: Referativnyy zhurnal. Khimiya, no. 15, 1961, 331, abstract 159364 (Sb. "Novyye spoaoby i aredetva tusheniya plameni nefteproduktov". M., Gostoptekhizdat, 1960, 99-124) TEXT: The principles of a combined extinguishing method "atomized water (AW) and mechaniaal air foam (MAF)II were examined. The fire-extinguishing effect of W is lover if it is used for extinguishing fires of heated petroleum products without prior cooling of the layer being heated. A combined application of AW and MAF to extinguish flames of petroleum products burning in containers and forming a heated layer during free burning is described. A relationship was established between the temperature of the petroleum product after cooling and the cooling time, depending on the intensity of atomized vater supply, the time of open Card 1/2 'A  28029 S/oL,1/61/000/015/080/139 Combined methods of extinguiahing... B117/B102 burning, the temperature of the heated layer, etc. Constants were calculated for gasoline. Tests conducted to fight burning gasoline in containers of different diameters using mechanical and chemical foam are described. In these tests, the heated gasoline layer was first cooled with atomized water. Tests made with the oombined method of atomized water to extinguish fires- in containers -< 5.3 m in diameter yielded positive results. (Abstracter-s note; Complete translation.] Card 2/2  GER IMV,, V. A. Potassim and calclus eommutration in leaves of chlorotic VVe- vlws. $oob. M Grus. SSFt 27 no.1:73-78 J1 161. NERA l6sS) 1. Gmztn*4 se1Ijkokb*zy&yvtwermyy institut, Tbilisi. Prelstaw2eno akadodkow AX GruxSSFL L.I.Dabsparidse. (Maorosin (Plants)) (C&Udm) (Potassium)  15-1957-3-2783D Translation from: Referativnyy zhurnal, Geologiya, 1957, Nr 3, P 38 (USSR) AUTHOR: Gerasimov, V.A. TITLE: Geomorphology and Problems of the Ancient Glaciation in the Valley of the Bayankol River (Khan-Tengri) [Geomor- fologiya i voprosy drevnego oledeneniya doliny r. Ba- yankol (Kan-Tengria)) ABSTRACT:' Bibliographic entry on the author's dissertation for the degree of Candidate of Geological and Mineralogical Sciences, presented to the In-t geol. AS UzSSSR (Institute of Geology, Academy of Sciences, UzSSR), Tashkent, 1956. ASSOCIATIONt In-t geol. AN UzSSR (Institute of Geology, Academy of Sciences, UzSSR) Card 1/1  GERASDOV YA--- Glaciera of the Bayankol River basin in the north of the Khan TnMri junction. Trudy Sakt.geog.AN Kazakh.SSR no-3:195-214 '59. (AIRA 12:7) (Barankol Valley--Glaciers)  ,_,GZWINDV, V.A. Gsomorphology of the Dayankol River valley. Trudy Bakt.goog. AN lamakh.SSR no.4s5-41 159. (MIU 13:4) ~Bayankol Valley--Geology, Structural)  GIASIMV, V.A. Jbrly glaciation of the Bayan-Kol River Basin. Trudy Salt'.. geog. AN U20h. SSR no-5:79--97 159. (MIRA 13:4) (Dayon-jol Valley...Glacial epoch)  GUASIMT, V.A. Scheme of stratigraphic correlation of Qaaternar7 sedi- ments in the Bayankol Valley. Trudy Sekt. eog.AN Kazakh. S.S.I. no,6%178-185 160. MBA 13:7) (Bqankol Tall ey--Geo log, Stratigraphic)  GMSIMOV, V.A. Main stages in the formtion of the Bayankol Valley Quaternary period. Trudy Sekt.geog. AN Kazakh. S.S.R. no.6:186-193 16o. (MIRA 13:7 (Ba.yankol Valley-Geology, Stratigraphlc~  GEWI?uv-:LA.j UHV.ENKO, N.Ye. jUainating the danger of flesh floods in the Tyukou moraine region. Vest.AN Kazakh.SSR 17 no.1,1102-103 Ap 161. (MIM 34:5) (Tyukow4oraine region-Drainage)  PANASEYKIN, T114V., inzh.; SHAPOSIMTKOV, V.V., itizli.1 GERASTMOV, V.1j., slektronadAdohik Iziprovvment in the construction of the RZMO system. TSemeni, 31 no.5r17 S-0 265. (MIRA 18:10) 1. Chimkontakiy tsemantnyy zavod.  GaAsDayl, V.A. Slnll)l.f' ZeOllt-O tT',qp. Prib. i tekh.eksp. 10 no.51:2143 S-0 165. (MIRk lgtl) 1. Zabaykallskly koppleksnyy nauehno-issledovaLellskiy institut, Chita. Submitted Sept.1, 1,)64.  GEI~SDIC)Vlt The IsoTk catastrophe ar!,i its refloct'lon in the f,eomorp-.o2oj,, 1; or the IM30: 'Wley. I7v. Vscs. reog. ob-va 97 :~c-.6:5.12-547 1. i.-D 165. (!.!IlA 19: 1.)  SOV/144-58-10-10/17 ARTHORS: Sabadashev, V.P., Candidate of Teelmical Sciences,Assistant Gerasimov, V.B., Assistant TITLE: Contactle-ss Magnetic Device for Automatic and Semi- Automatic Self-Synchronisation of Synchronous Generators (Pieskontaktnoye magnitnoye ustroystvo dlya avtomaticheskoy i poluavtomaticheskoy samosinklironivatsii sinkhronnykh generatorov) P.&RIODICAL.Izvestiya Vysshikh Uchebnykh Zavedeniy, Elektromekhanika, 1958, Nr 10, pp 104-114 (USSR) ABSTRACT: Existing circuits for automatic and semi -automatic self-synchronisation have a number of contacts and. tend to be unreliable. This article suggests for the purpose the use of contactless magnetic elements. The arrangement consists of a phase sensitive ,.ircuit (which has been investigated theoretically and experimentally by A*D.Drozdov~ (Ref 4), a magnetic amplifier with feed-back for even harmonies and automatic equipment that serves to connect the generator to the circuit and to deliver field currents. The frequency comparison Card 1/5 device consists of a phase sensitive circuit and an  ';OV/144-58-10-10/1? A GontaetlesS Magnetic Device for Automati-, and SeMi-ILUtoMatie Self-Synehronisation of Synchronous Generators amplidyne. The phase sensitive circuit consists of two peakiug transformers. When the generator ~`.s nearing synchronous speed the voltage vectors of the system and of the generator to be connected to it C;OiILCide long enough for the relay to operate and connect; the generator to the system provided that conditions are suitable. The processes that take place in the phase sensitive circuit during paralleling are then descriled. As the volta6p phase of one saturating transformer alters relative to the other, the Diean einf in their secondary circuit varies as shown graphically in Fig 2. It is sh=n that the load characteristic of the Frotection depends on the wave shape of the secondary --urrent impulses of the saturating transformers. Formulae are given for calculation of the relay current. Finally, formula (15) is derived for the load current of the protective s7stem.1 this formula gives the effective value of the load current in the secondary circuit of the saturated transformers of the phase sensitive system Card 2/5 when the current impulses of the saturated transformers  ,_~'W/144-58-10-10/1? t~ Contactless Magnetic Device for Automatic and Semi-Automatic Self-Synchronisation of Synchronous Generators are of triangular wave shape as will occur in the operation of the system. Experimental and calculated values of mean and effective current. are compared in Tables 1 and 2 and the maximum error that i-,sults from calculating the curronts by formulae (?) and (9) does not exceed 1W,, which is qaite acceptable. Ag ? gives test and calculated load characteristics of the phase sensitive circuit and it will be seen that formula (15) is sufficiently accurate over the range considered. Further ana'-:ysis is given of the conditions under which the xvlay w--*-l.L operate. Tile conditions under which synebronisation is possible are discussed. One of th,,se devices for automatic and semi-automatic se-Lf- synchronisation of alternators was made and tested in the Novocherkassk Polytechnical Institute. The design and construction of the compoaents is briefly described. The test results are briefly des-cribed. An oscillogram of the process of operation of the synclironising device Card 3/5 when the speed of the generator is very different from  sov/'-;W~-- ?-8-10-10/17 A contactiess Lagpetic Device for Automatic and Semi--katomatic Self -Synchronisation of Synchronous Generators the synchronous speed is given in Fi6 12 and a similar oscillogram is given in Fig 13 for the case when the alternator is running at synchronous speed. This latter oscillogram shows that the generator was connected in parallel with the system. It is concluded that the contactless ma6metic synchronising device is reliable and will not nEed much adjustment in operation. Variations in supply voltage have no influence on the operation of the device. The system frequency also has no influence on the operation of the device, When the difforance between frequencies of the system and generator is I to 2 cls the self-gynchronising device operates reliably at accelerations of 0.45 to 2 c/s per second, which is better than with other frequency relays now used for self-synchronisation. E- 3 y u s in j, a n Eunplidyne with feed-back of even it was possible to use a phase sensiti-ve circuit without Clard 4/5 rectifiers with beneficial effects on the sensitivity  OV/144-55-10-10/17 A Contactless 111"iapietic Device for Automatic wid ~`eml--Automatic ~~elf-Synchronisation of Synchronous Generators and life of the equipment. There an 13 fie-ures, 1~ tables and 6 Soviet references. AS:30(;IAT1 ON: hafedi n avtomaticheskildi i Izmeritelln,lkli Ustroystv Novochericasskogo Polite idmic he s'r-lo go InAituta (Chair of kutomat.Lc and Measuring Apparatus.. Novocherkassk Polytechnical Institute) Card 5/5  ,qRNIHOY., V. D, Vetwork of a start-initiating unit for long-distance isignaling devices. Trudy NPI 124:19-22 162. (MIRA 15:11) (Klectria relays) (Remote control-Equipment and supplies) (Electric controllers)  SABADASHMV, V.P.; 999AP~IKOV, V.B.; ZHKURIN, D.N. A remote eontrol device for industrial use with phase and quaUtative method for selection. Trudy NPI 124:53-60 162. (MIRA 15;11) (Remote control-Equipment ahd supplies)  GIRASIMOV, T.D. ProTOVMOTO'~ activity in lower animals [with summary in Inglish]. lisfolsshur, CUkral 3 no.1:47-56 :o-F 157. (MLRA 10:3) li. Institut fisiologii im. O.O.Bogosolltoya Akadexii nauk URSR. laboratoriya vishchol neryovol, dlyallnosti. (7ATIOUS) (AIDUL LOCOROTION)  ONUSIMOVt V.D. [Herssynov, V.D.) I . . - - 1, --- - , ~ ~ Iffeat of light on the notot activity of Anodonta cygnea. Fisiol. zhur. CuiwJ 4 no.6:768-774 W-ID 158. (MIRA 12:3) 2. Inatitut fisiologii im. A.A. Bogomolltsa AN USSR, laboratoriya vysshey nervaoy dayatellnosti. (LIM-PHMNIMICAL ITM) (IAMILLIBWOHIATA)  Gi~*-~';-"IJVI, V. D. Nmul biol Sci -- "FaLtigue in lower enimulr." Kiev, 1960 (Acad Sci VkS,~R. Depirtmant of Biolmpbm& Sod). ("L, 1-61, lb7) -111-  i, ; GIIIAS]n)V, V.D., K'IY:3KjY V ',r Electri (:,t' of' ~jnl. no,n,E. Helix purrifitt a . F, 7 o: , -,hu7 . 49 ti, it,19--i- 11,1* (?A.Il(A 17xl'4') 1. From the A.A. Kigonn,10-s llnsl~:Intv nf Nwtic-I ),y, ;icadel.,Iv of Sclef-Ices 0l, the  GEllAsamov, V. D. Sffq~fit of changes In the I-on otructure of the medium on the procos.ses of exdtatJon In glant nerve oells in Bnails. Fiziol. zhurs 50 no.0457-463 Ap 164. (141PA 18:4) 1. Uboratoriya obshchey fiziologli Inotituta fiziologli imeni Bogomolltsa AN UkrSSR, Kiyav.  A LJ IJR/02ig/64/00/009/000. A*kRs Gersu NI ostyuk, #W'V, V. P# Go; ftikly, Ve A* ftei, ty: to. fihe'~glmt nervoi calls of various representatives of I I pulOodfarouo i0luAt! (Ael:U ponstiAg Limma stagna3is, Planorbis corneus) in ilsoUtIonc 1. Bod"101 A" SOu*CRI an' 616 Miantal Inoy Mologii :1 anditsiny, vo 38, no@ 9,19649 ion, sodium, olectrode neurology T*,p TA61 7 U of It ttye StAr using intracellular tlectrodeep !,of A&-Vi aells)I'ahlofly frois the parietal ganglia, C0124" solutions. The Belix calls were persistently ;Oxo "blis ef I bf po tential values, the amplitude of the latter, MA the NOW* ~0' sli t Oellnereasing with an increase in the calcium IWAI ion~~ analogous conditions the Manes and Planft 0 i cons; It ita'0111ty and did tat produce any action po- d 0:1 big UiW i~ tiono rhe possible causes for the differ- in of Ilarve tell Action potentials in ffinjual   SOURCE CODE: UR/0)85 65/001TC64 6 3 r- ph~v sLitute of Physiology imo A* A. i:~64 lab 6~1 0 i0logy, in AIWV SS ra ij~rya 0 fiziologii Instituta fiziologii AN TGSSR-).- kr 14.01 oratcry at i Thetitute of Physiology im. A. A. Bogomolets, Vprk" ologyp oriya, slaktrofiziologii Instituta fiziologii AN UkrSSR) UkrWR, 41, rat al,4dtivity of thegiant neurons of the nudibranchiate mollusc #TTE I Eleoltfic itorde. dl" dia 19=1 t zw, 0,033tutilonnoy biokhimii i fiziologii, v. 1, no. 4, 1965, 360-363 f 70PICIAGS ;iiourorj~ ~sledtrdp~ysiology ~STRAGT-, ob,"',"Od, the study of the electrical activity of giant.. ills *ron a tht, tolluso Tritonia diomedia, when in sea water are presented. ~16i ihv*4 Ono o carried out primarily on a cerebral neuron cell immers- in sea li~~fta co 1.W to 13-15 degrees. Two glass microclectrodes filled with Or triwAaris" i 0:f Ka wore placed into the cell. One of the electiodes rM to rix~'~thi arface of the membrane; the other to record the dif- I i;~ i* P4 , ~ 0 otween the internal content of the cell and Qx,.Ornal t0ri~0 ol 1 j~ 't 61' b :;wam:;iii~d that the potential of the nerve cell at rest fluctuates ~Gtwoen 45~! 50 Awivatil a- call potential lokmr than 35 millivolts in.- ~Ptf*%bnsl c oditionj the amplitude pot6ntial of the call ki otion au so Wean 86 to 100 mUUvolts- Nerve cells directly stimalated 3 97 3 5 2 :591.18:596.16+612.8.014.3:612.8.014.g2L42_3  din alriging current frequently generate action potentials I 1,wj Otub,eranoe on the descending section or a split peak. t~ the on j n 0 0 0 an r (,, curr us removes 0 SD polari W tio W., I as the protuberanc* on the descending section. Tho it 4"a J-md Ot i-babtanca of the mmbrane of the nerve cell wore A*jt angle IApulaes of a krperpolarizing current throagh V a 'polari i#le do, Considerable variations in both were found) with between 4,06:LO"2 and 40' 10"2 microF,, and4w~ 18410-3. ohm,', Orig. art. has: 3 figum5 'COM B 4~31 iWan65 QUG RM.- 007 Oni RU: 002 A k P lij~ C rd 2~, oil, 1 1-11-  GEV-SIWIV, V.D.; KOSTYUK, P.G.; Y3~%' 1Y, V.A. Ionic conductivity of the giant nerv,~ cel ~ membrane of Em edilblp snail. Ulofizika 10 no.1:82-Pq 165. ( ,,I !iA 18 : 5 ) 1. Inslitut fiziologii. imeni Bogomolltsa AN 'l'krl3F, Kiyev.  GEMSIMOV, Y.D.t &'WTYUK, P.G.; MAYSKIY, V.A. Chugos in. electric charact9-13UCS Of the giant ~nsuron membrane fol- lowing incrmse in outer potassium ion concentraiion. Bio'lizika 10 n 2:272 o., -280 165. (141RA 180) 1. Institut fiziologil Imeni Bogomolltsa AN UkrSSR, Kiyev.  SOURCE CODE: UR/0217/65/010/00 0-~~5, 0453 Kq ka-P, 041 14y, V , A. AUTHOR; ,Ajj~g Ok~L-Institi&~~,Of iolw imbAvA. Boga~qlets AN UkrSSR, Kiev stitut fiziologij 'AN SSRT Tfit& Effeoltl tof biy''aiOnt cations on the electrical characteristics of giant neuron membranes S%=: BLO4~~ 10,, no. 3, 1965j "7-453 TOIC TAGS: ~nO 0870 call physiology, cation AlItTRACT -. k t 014 the 'effect or bivalent cations an the electrical th i4etW W active sedbraws or the soma of the giant hir Irow of P"Mtla)., with % or Be substituted for Ma in the 000ealraWn ar Ce or Da In a sodium-free solut- Ariza%ion of the cell membrane, The resistance Lo ti(A t r~us iitt;ii o the logeriths of the concentration of the bivalent ioO Oic -free solutions containing Ca or Ba, the giant neurons were ca~able'of g rwr~tirq; 4 ential for a long times The value of the "overshoot" tiQn pot wa$ in line ,rialatiih!to the logarithm of the concentration of the bivalent ions. This relatio~iap wat; 41ose to the theoretical for the calcium or barium electrodes. An; unusual rii bf c('11+reaction-prolonged action potentials - arose in solutions P -cone with a high I wtiition,r The transmenbrane difference in potentials during the I!Aateau" ot ls~o act io,h potentials is at approximately the zero level of the reeting Meint6i AI&I so 5 fi so. [JFRS1 C ;I at 3 GIRIG OF 1 008 OTH REF. WORE 021 Cam 1~;!. UM: 577.17  Nib AmAl,% SoUnCE CODE! W0239/65/051/006/0703/071.0 Awr~OR: G03*0"ov D As XostYuk, P. -G.; )Laj#)Lj" 00; Labol 'i of!4~~orsl Physiology, Institute of Physiology im. A. A-# le-ts LLM UkrSSRj CL6oratori,p,obshchey fimiologii Instituta fiziologil AN UkrSSR) TOM Rea,4~Ms 6~, giant no;rve cells to a break in the hyperpolarization curront $0=1 ri 4iY.:zhOnal, v. 5 ii~ no. 6. 1965~ 703-710 T~M TAGSil 60 on~ ~ieotro~hysiology, nourophysiologyj cell physiology AbSTRAM 0 1'n ah~-~ j by means. of two separat6 'mio'r 4B6iiodei !!W t04 simultaneously, of the dectric reactions of giant neu~qh ilie taollucou Helix pomatia and Planorbis corneus .l i,to the r a Ot ~ a hyperpolarization current, It was established ng i that if 0 neur,I6n;wafj first depolaTized, the break in the hyper- t ;P161arIza, eUriaJit Induced generation, by the neuron, of an t on !t1otion po,~~Atlal'Aqnpde break excitation or aneleotrotonic reao- -Uon)o Tko' thvoloid of the anode break excitation was lower 01 Ithan that: ~it tfie~~ ~~sp'&ise of the neuron to a depolarIzing current -~Ixise un&iti tho,:,iaX'0 conditions, The nnode break action potential '.q!Lveloped~ in ti :6,414el Matiner as that arising In response to a Ai UDC: U2.014.3  7 7777 -rob L 2i ACC Nks AP60 j~4atlo- ' the membrane: the aetivati 0: a n of ng 1,;. ta6tor. wap~ ~WoO otion of aneleotrotonio polarization, but a Ir 4-he't~vinsmembrane difference of potentials which fol-,i I vlOsd and ioikah w*q ies6entially a oatheleetrotonlo change. The 'ipo6tanodic h~perpojslrlgation that developed apparently constitu- a seledtIve *04vation of the transfer of r ions through th Its& 11 memb h'O i has a. 6 figures. CjPRs7 M! Joe - t-1 i:; 1jan SWOODEt 0�/ SUBM D~h 3 64/ ORIG WFa 0031 OTH IMF: 006 i~ f 4 I Card 2/2 AP .; ~ -~!'; !--L. L  A~C~ Me xailz fin 88 kin p0tontials 0t *#Mali I Mori P*"O=. Or Ke Iii segment ~n~iuda I mA, level or patent Im mbrane dlfk~j-~nc~ At n doubtl"90 ~#n an r ad , -,.qtion opomf bjV the activated ~ "11 th" process exci Mprons of uioj-~Ilscs !ti~4tkn'tho iaOhori 'Re'lix pomat i~nq to ths ~ C==?k the' coll!mq 'Membraw re't1o'tanc6 'Zi8riZi Nji.-tont Ctive Ineiting "r0"" 4.hter"I 6~ CM Smog CCD1t UR/0239/65TO Me"My. V. I DO eta* AN (Institut fiziologLIAN UAL 12t 1965t 1434-3441 vs 51s no* r otioph, d6gy, con physiology - I- " Uils (PAO, - ire the i6m:6, - te iO ioin po 6n 'a. n po ntials whose deseendw i aeortion with a-alower rate of repolarization (recovery of nor-i tj,la~s opposed to depolarization, when the changes in the trims- jj ~otantlals are such that It,is 3maller than when at rest). PAI v~aua form of functic~hing of the excited call, but thnir investl aims of otas Xor experimental-intorvention Into the ion machn ofibranei which Is highly inportant in determining the nature of t~jbn, Potentials of this kind constantly arise in the giant rhqn Da++ is added to the solution around the call. In this co ;~*16jha Ottinant wqx~iasnts on neurons of Ahe molluscs kn6rbls corneus, It was found that the addition of barium i~~nt solution leads -to a erynaptic or direct depolarization hich results In action potentials lasting several seconds. 1&rinff PAP is 20-30% of mer6rane resistance at rest. Brief 'hyper- ilses applied to the neuron agAinnt a PAP background may produce storo the momhrane to a quiescent statet this ro- ~"ponsos and rn sibility,of artificially eliminating.Rr I d changes in. o ange ~~r, pos '~tatlnn. Oftgo. art. hn,st 6 fipq~s# /IPP-,/ DOM 24Apr4 MICI FUWt 005 / OTH MWt oa Z.),% A%) a L  GERASIMOV, T.D.; KUZNETSOV, G.A. Pulse apparatus for maasurin& the absorption and veloity of ultrasound in polymers, Plaet, massy no,11:54-56 T5. (MIRA 1.6-12)  GERASIKOV, V-D,; MNETSDV, G.A. - i - 111- .... .. I., Obtaining a viscoplastic state for crystalline polymers below the malting point by mechanical means. Vyookom. aced. 5 no,1211843-1846 D 163. (MIRA 17:1) Is Vladimirskiy nauchno-issledovatoelleldy int3titut sinte- tiobashkh Enol.  GERASII,IOV, V.D.; KUZNETSOV, G.A.; PUIENKO, L.E. Apparatus for the tharmomechanical study ol' polyners. Zav.2Ab. 29 no.8:996-997 163. (.,',gRA 16:( ) 1. Vladira4kiy nauelmo-isoledovatellskiy institut sinteticheskikh Slaol. (Polymers-Tharml properties)  ACCESSION NR: AP4042187 5/0190/64/006/007/1261/1266 AUTHOR: Kuznatsov, G. A. p Gemaimov, Ve D* , Sokolovp L. B. TITLE: Investigation of the pressure sintering of powdered polymers. 1. Ultrasonic evaluation of the change in contact between the particles of polymer powders SOURCE: Vy*sokomo1ekulyarny*ye aoyeftenlya, v. 6, no. 7, 1964, 1261-1266" TOPIC TAGS: polymer, powderej polymer, ultrasound, sintering, polymer particle contact, polymer structure, amorphous polymer, crystalline polymer !'ABSTRACT: The measurement of the absorption and velocity of ultrasound passing through samplos of polymer powder subjected to different degrees of pressure clarifies many problems concdhing the mechanism of coalescence of materials, their imperfections (such -as pores, voids, density variations) and the kinetics of their changes (in size and amount of Imperfection during sintoring). Kopron, 0olyhexamethyldne oxamide, polyhexamethylene terophthalamide, polyvinyl chloride and polystyrene samples (6-7 mm thick, 30 mm In diameter for amorphous and 10 mm in diameter for crystalline polymers) were Investigated. During the sintering of amorphous polymers under pressure, complete contact between the particles of polymer  lAcassioN NFt: AP4042187 powder to attained over the softening temperature range. For crystalline polymors, no complete contact Is obtained before melting. 11eir sintering below the melting point is due to the aoftenLng of the amorphous part. The annealing of crystalline powdered polymers renders sintering difficult. Ile curves piotted for the absorption and velocity of -ultrasound for amorphous polystyrene and polyvinyl chloride samples against molding temporature at ~Mferent frequencies show a sharp break. By increasing the frequency of the ultrasound, the' begian' Ing of the break I a shifted toward higher torn poratures and the sharpness of the breaki a In.: creased. The variation in the steepness of the curves is explained by the correlation bq6veen the size of Imperfections and the ultrasonic wavelength, assuming that there Is a scattering of Ile velocity Ultrasound on these imperfections due to powder particles or air Incilusi6fih. of ultrasound was near 2300 m/sec, at a frequency of 1 Mc/sec. for both polyvinyl chloride and polystyrene. This gives 2.3 nim, and at 10 Mc/sec. A = 0. 23 mm. For crystalline J)olymer such as kapron, no plateau was found in the ultrasonic velocity-molding temperature' plots, but after the InDection of the curve a monotonous rise was observed which becomes 1 more pronounced in the melting temperature range. 7he curves and experimental data for hmorphous and crystalline polymers are compared and discussed in doW. Orig, art. hasi 4 figures, I table and 2 formulas. "3 car;  ACCESSION KR,. AP4042167 mir e c ASSOCIATION: Nauchno-isoledovatel'skiy WUtut sint0ticli0Bktkh sm0l, Vlaw Sol utif, Research ln*tJtLkto for Synthetic Resins) ENCL: 00 WDMITTED: 02Aug63 MM CODE: OC, MT NO REP SOV: 004 OrHER: 001 3/3  ~O.~ 2606 MION UR/0190/65/007/000/1592/1 6! 678.oii53+67 675 tVk I a G"imv, V. D,; Fomenko L. N. 'Maklitkov A. L) L* 8 IT, 1*'4 vtal- 41 10, the transitions in j2o~jTetaphsU1ensj2gktha1affd_de TMAt TbO naturp. ioMD14 4ayaxio7s, soyedinerdya, v. 7, no. 99 1965, 1592 ~WMB I Viso -3.596 iTPP~C TAG resin, thermomschanical. property, x-ray, nuclear magnetic abj4trp phopylone 0 ot the transitions of polymetaphanyleneisophthalamide USTIM t 'I a i n*~u:r a fi ) MOA botigated by thermomechanical, differential thermal, x-ray ;an kzQc ii4gn64o;res,;owce methods. It was desired to Vtormine the best pi~6~lng polyWa of high therma utabilitykidth improved film *M fiber jp~110946jeoi, A p6wdery speoimin-wTffi-a-Us-cosit-y- higher t~.an 1.0 in sulfuric conditions rioiature content vaia used. The experimental ir~, dsscr~~iA. 04a6 found,that the initially amorphous phenylone cryetallirses upon heit P %U:theAwmachanical curves plotted at a load of 0.8, 6, and Cw 4 1= kg/C 6h 11i %Ihs glass temperature of phenylone is 2&)C. The x-ray  il-;L. 292"6 4j3c. 1c orrespon d ecomposi l ine of n ~ Wrphouc c urves In apacian 0: Packing o Olawpoar 4ne subg ~6um in: 94:3 ~Or J! 1~ lanai Costallins phanylone were taken at 26$ 100F. 266P 356 101 L6i th4j ~ Ajeo4jideal curve is idwpreted on the basis of the data of Oieni li4nv4ais and of x-rq study. After soften) g at 30OCj the to,," ~j"&Uive. Thb range, of Steady deformatiod~inq at 340-4000 ~W t" bijutiWne state of eating ab e 400' causes e one. I W Z~61~~Slting sets in at 30C. The second moment of the absorption 0 m*Wc reionance ie platted against temperature for the initial pw W:fot a specimen preheated to 360C. The character of the iduava~~* It was found that Uie increase in A H22 of the preheated PA *vomture ranges produces a smaller mobility and better A 1901' indicative of the crystallization process. The 0 , go ~;,of W leL ~gWj, elastic state below the malting point of the cry1ftal- theiabsence of the minimum on the AH2 --temperature 4ex sins rugo ot 290-3200, Orito wt. has: figures. iW wichna-iesl6dovitellskiy institut sintaticheskikh Bmol khm; Waroh Institute of $ynthetic Resips v Kazani4d, ORT MITT) WL t 00 SUB CODM  :leavv 1;-'s 4.s i%casuz,c~d by a -,cu-'rin a paper ;lhe 4o:%s for ?e,:~ce  .jFRVW, V.I. (translator] GnASIxOT, T.7, [translator]; T (Advances in the field of nuclear energy] Uspekhi v tblasti isdernol aner i. Moskva, Izd-vo inostr.lit-ry. 1958. 1 V. Malear engineering) (KIRA 13:7)  20684 S/1.2o/61/000/001/018/062 426, o2c-9, 9~r L-032/1"114 AUTHOR: V.P. TITLE: Scintillation Counter for the Recording of Fission Fragments (a PERIODICAL: Pribory i tekhnika eksperimenta, 1961 14 No.1, pp.61-64 TEXT: A description is given of the constructional details and the characteristics of a gas-filled scintillation counter for the do ection of fission fragments against a background of 3 x 109 a-particles per second. The counter has been used to measure the fission cross-section of M241 for monoenergetic neutrons in the energy region 0.004-0.4 oV. A sectional drawing of the counter is shown in Fig.l. In order to reduce neutron absorption by the cylindrical body 1, the latter is made of dural and is 1.5 mm thick. Materials with good vacuum proper-ties are employed in order to prevent contamination of the gas. The glass viewing windows 3, which transmit the scintillation to the photomultipliers, and the various flanges are made vacuum tight with the aid of teflon. The target 2, which carries the substance under investigation, is located at the centre, of the Card 1/ 7  2068h S/12o/6i/ooo/oo1/o18/o62 E032/n14 A Gas Scintillation Counter for the Recordir-g of Fission Fragments chamber and is perpendicular to the pbotomultiplier cathodes. On the other side of the target, and parallel to it, there are screens made of thin (I nun) polished aluminium which limit the range of the fragments and a-particles, and also serve its reflectors of light. A. Sayers and C.S. Wu (Ref.2) and R.A. Nobles (Ref-3) have shown that 02, H2, CO, and C02 impurities considerably reduce the light yield of inert gases. Since the present detector was designed for continuous vrork without refilling, a special element 4 was introduced for the periodic purification of the working gas. The active element of the purifier is a double spiral 5 made of tantalum and zirconium 'wires 0.55 imn in diameter and placed inside a water cooled metal body. S pectrosco pie ally pure xenon and commercial helium were used as the working gases. The belium was purified durang the filling of the chamber by mean,; of liquid nitrogen cooled, activated charcoal. The scintillations produced by fragments in the working volutito were recorded by 16-2F (1B-21') photomultipliers which have a time resolution of etbout 5 x 10-9 sec and an Card 2/ 7  20('84 S/IP.0/61/000/001/018/062 E032/Ellh A Gas Scintillation Counter for the Recording of Fission Fragments amplification coefficient of about 107. These photomultipliers can withstand large currents I which is very important in the presence of a. large background due to a-particles. In ordor to record both fragments simultaneously, the present author has used very thin nickel foils (0.25 mg/cm2) carrying a layer of km241, 0.5 mg/cL-2 thick. The working gas was at a pressure of .1.5 atm. In the case of helium, the mean free path of the fragments at this pressure is about 60 nun, so that with a working gap of 20 mm between the target and the aluminium plate only a part of the range is employed. Fig,3 shows the pulse height distribution obtained for this case with a target containing about 3 mg Am241. The dotted curve in this figure corresponds to a-particles in the absence of the fission fragments. The fission cross-section of Am2111 was measured using a mechanical neutron monochromator in the beam of the kOT-1000 (IRT-IUOO) reactor. The fission cross-section was calculated from ,w, ission - N'1N5 V7. Card 3/7  2o684 S/l2o/6i/ooo/ooi/oi8/o62 E03 2/ El I 1i A Gas Scintil!...Lion Counter for the Rocorkling of Fission Fragments where NAm ..ind N13 are the counting rates in the scintillation chamber and the BF3 proportional counter, respectively. The fission trw4s-sootions were weasured to an accuracy of 100,~ and the energy resolution was about 40%. Fig.4 shows the fission cross- section (in barns) as a function of the energy in eV., The rurve is normalisea to cf = 3.1 barn at the thermal point (E,K. 1111let et al., RefT. Calculations of rf~ yielded n value of about 1.1 x 10- OV. Acknowledgements are expressed to M.I. Pevziley and V.S.Zenkevich for help in the experiments and discussion of the results. There are figures and 9 references- 2 Soviet and 7 non-Soviet. SUB'44 ITT ED January 4, 1960 Card 4/7  GERASIMOV, V.F,-, 2ENKEVIC9' V.S. 7 41 , 41", -, ~ I Cross section 0f,05 absorpiion on mollOchromatic neutrons In the energy range. Atom. energ, 13 no,4065-370 0 162. (14MA :L,:.g) (Uranium-Isotopes) (Neutrons) f  PETROSTAN, A.E., kand. tekhn. nauk; SERGEYEV, I.V., kand. tekhn. nauk,- SHAVRINA, R.F.; GERASIMJV V.F. -1- 11 (Methodology of determining the gas concentration of workings In mining coal without men in the pita]Metodika opredeleniia gazoobillnosti vyrabotok pri bezliudnol vyeake uglia. Ylbakva, In-t gornop d91& im. A.A.Skochinakogo, 1962. 36 p. (MIRA 16:1) (mine gages)  AKSENOV, V.V.~ kand. tekhn, nauk, nauchnyy rukovoditell; DIYAKONOV, D. At. 0 insh, ; MIFUNOV, N, T. , inzh. ; Y AIKOVLEVA, L. A. , red. tekhnolog [Optimum parameters of a system of working steep seams with stoping machinM and the efficiency of mechanized mining) OptimalInTe parametry sintemy razrabotki krutykh plastov ochistnymi agregatami I offektivnost' agragatnoi vyemki; kratkii nauchnyi otahet. Moiskva, AN SSSR, 1963. 46 p. (MIRA 16:10) 1. Akademiya nauk SSSR. Laboratorija podzemnoy razrabotki ugollnykh mestorozhdaniy. (Donets Basin-Coal mines and mining)  MANIKC,VSKIY, G.I.~ DOWYOV, O.A.., 4.nzh,; YEWSHOV, N.N., kand. tekhn. nauk, MLTAKOVA, Z.V., red.;GERASIM( 'T, V.F., tekhnolog [Nomograms for calculating the freezing of rocks] Nomo- graway dIiR raschetov samorashivanila gornykh porod. Mo- Ava, Institut gornogo dels, 1963, 50 p. (MIRA 16:10) 1. Chlen-korrespondent AN SSSR (for Manikovskiy). (Soil freezing)  GERASIMOV, V.F. Device for facilitating the dismantling of the rod yoke drive of the TGHI diesel locomotive. Elek. i tepl. tiaga 7 no,4:14 Ap 163. (MIRA MO) 1. Master teplovoznogo depo Karagandinskogo metallurgicheskogo zevoda. (Diesel locomotives.-Maintenance and repair)  &kVELtYEV, G.P., kand. tekhn. nauk; GERASEOV, V.P., tekhnolog (Mim vignaling; annotated bibliograpby of publications up to 1959 inclusive) Rudnichnaia signali2atciia; annotirovan- Wl bibliograficheskii ukazatell literatux~, po 195& 9- vkliucldtellno. Moskva, Institut gornogo delal 1963. 130 p. (MIRA 16-12) (BibliograplW-Electricity in mining) (Bibliograpby,-Signals and signaling)  4 D 8(2) AUTHORS: Kifer, Isaak losifovich, Candidate of SOV/161-58-2-4./30 Technical Sciences, Docent at the Chair of General Electrical Engineering of the Moscow Power Engineering Institute, Gerastmov, Viktor Georgiyevich, Candidate of Technical Sciences, r-ri, tant at the CUrr-7-6-en-eral Electrical Engineering of the Moscow Power Engineering Institute TITLE: Device for Detecting Iron Foreign Bodies in Wooden Trunks (Ustanovka dlya obnaruzheniya zheleznykh predmetov v brevnakh) PERIODICAL: Nauchnyye doklady vysshey shkoly. Elektromekhanika i avtomatika, 1958, Nr 2, PP 34 - 3`9 (USSR) ABSTRACT.. Three methods of detecting iron substances were investigated. The beat results were achieved with the method based on measur- ing the emf that is induced in the receiving coil. The best results refer to 'he sensitivity of the device and the operation stability. The nie~hod consists in generating an alternating fiell in the area where the iron object is expected to be,and the receiving coil being placed within the field. The value of the emf induced in this coil is changed by the iron object Card 1/2 entering the responsivity zone of the coil. By experiments,  .Device for Detecting Iron Foreign Bodies in Wooden Trunks SOV/161-58-2-4/30 a circuit diagram of a generator consisting of two coils for the generation of the alternating magnetic field and of a receiving coil was developed, The device is described. Tests were made at 150 and 200 cps, The laboratory tests showed that thie device is capable of detecting iron bodies of a minimum welght of 5 grams in wooden trunks. The performance of the device permits the automatic detection of the low-quality WODd (with iron inclusions) and to separate the usable trunks from the useless ones, There are 3 figures. ASSOCIATION: Kafedra. obshchey elektrotekhniki Moskovskogo energeticheskogo instituta (Chair of General Electrical Engineering of the Moacow Power Engineerin~ Institute) SUBMITTED: April 14, 1958 A ward 2/2  GIMINOV, ToGe, kand. tokhn. nauk. -1-Ij .,.I ; ", '. " , Woetriml appliances. Politekh. obxwh. no.6:57-64 A 158, (Ilectria appamtue and appliances) (miRA il s 6)  AHMIT, Moyya Turlyevich; ONUSIMOT, Viktor Grigorlyevi,ch; ZAYIZLI, Khrintins Bdunrdoyna; KOOMI-DALIN, Vladimir Viktorovich; LYSOV, Nikoloy Tegorovich; HOROZOV, Dmitriy Nikolayevich; NITUSOV, Tevgoniy Vasillyevich; PAYMMIN, Vsailiy Sargeyevich, prof.; PUKMTAKOV, Turiy Kharl3mpivevich; SHIRNOV. Vladimir Aleksaadro- vichl VNIN, Ivan Vasil'yovich; '.VMOKHIN, Grigorly Ivanovich; KASAININ, A.S., retsenzent, red.; BORUNOV,.N.I., tekhn.ree. [Electrical engineering; general courseJ Elektrotekhnika; obahcldi kurs. Pod red. V.S.Pantiushina. Hoakva, Gos.energ. izd-vo. 1959. 632 p. (MIRA 13:1) (Electricity)  86647 S/119/60/000/011/003/009 78 6F 0 (A Iso /4 1 B012/BO54 AUTHORS: Varshaver, B. A. and Gerasimov, V. G. TITLEt The Use of a Capacitive Transmitter to Control Geometrical Dimensions PERIODICALs Priborostroyeniye, 1960, No. 11, pp. 6 - 8 TEM The present paper studies a capacitive transmitter to control the diameters of conductive cylindrical bodies. For the control of cylinder diameters, it is most convenient to give the transmitter the form of a cylindrical capacitor. The body to be controlled plays the role of the c1lindrical internal electrode. The error of diameter measur!~ment primarily depends on how far it is possible to center the internal cylinder (the body to be controllea) (Fig. 1). To estimate the resolving power of the capacitive transmitter, the authors investigate the dependence of the capacity of the cylindrical capacitor both on the change in diameter and on the shift of the ibternal-cylinder center with respect to the external- cylinder center. They derive formulas for the relation between the increase in capacity AC of the cylindrical capacitor and the change in diameter,&d Card 1/~ kA  W47 The Use of a Capacitive Transmitter to Control 5/119/60/ooo/oll/003/009 Geometrical Dimensions B012/BO54 (d is the isternal-cylinder diameter), as well as for the relation between 4C and the shift b. Fig. 2 shows the relation (calciilated from these formulas) 'WC in % of m at q - 0.1 and q - 0.2 in the form of a diagrain. m - d/D, q * + , and Co is the capacity of the cylindrical capacitor. D 2 This diagram shovs that the effect of b must be considered for a capacitive transmitter. At m< 0.3, AC/C 0 is approximately constant. At m> 0.3, the effect of the shift increases. The most frequent values of m lie between 0-05 and 0.3. The sensitivity of the capacitive transmitter is estimated from the relative shift 6f/f 0 of the resonant frequency of the oscillation circuit (per unit deviation of the diameter to be controlled). The authors use a formula from the paper (Ref. 5),,6C/Co " Mflfof where C - C 0 + C*' and C* is the capaoity acting in parallel to C 0 . It is shown that the sensitivity is the higher, the smaller C ft becomes. The resonant frequency of the oscillation circuit is to be selected sufficiently high. The authors recommend f 0> (2 + 3) megacycles per second, Finally, they derive Card 21 6~  86647 The Use of a Capac.1tive Transmitter to Control S111 9/60/000/011/003/009 Geometrical Dimensions B012/BO54 the principalformula for calculationst C* In n'Y In n q ln,n v In n Q - f O/Afo , V d max/d min n', D/d max This formula indicates the relationship between*the geometrical dimensions of the transmitter and the oacillati~on-circuit data, the capacity of the transmitter being an element of this oscillation circuit. The authors gi-le recommendations for the use of this Sormula. There are:2 figures.and 5 Soviet references. Card  GERASIMOV, V.G.; XHLFBNIKOV, V.G.; SHKARLET, Yu.M. Device for contactless measurement of the diameter of n copper 14re, 13v. AN Kir. SSR. Ser. est. i tekh. nauk 4 no.8f4l-50 ,62. (MIRA 16.()) (Electric wire--*asurement)  aRWIMOVO V.G, -WOONOWW7, ~ 0- 0"14 Theory of the seasurwant of ferrosagnetio cylindrical spealm*nfi br the method of eddy currenta. Zav. lab. 28 no.9:1094-1098 162, (MIRA 160) Is NookmIdy enerptichosMy inatitut, Nagnetic materials-TesUng) tectric currents, Eddy)  GFIIASIHOVJ V.G., inzb.; KALITEYEVSKIY, R.Ye., kand. tekhn. nauk Overall mechanization of board trimming and automatic control of trimming units. Mekh. i avtorn. proizv. 17 no.12:11-15 D163. (MIRA 17Q)  %. GZRASIHOVJ-:T!qq SHKARLET, Yu.M.; CHERNOV, L.A. Apparatus for the separate control of the diameter and permeability of ferromagnstic cylinders. Zav.lab. 29 no.4:497-499 163. (MIRA 16:5) 1, Hookovalciy energaticheakiy institut. (Magnetic materials)  ORWV07j CHFR40V, L.A. Theoretical and experimental irvestigation of certain transducer typea. Waktookopiia no* 5147-57 165 (MIRA 19d) lo Dloskavskiy energetiabeskly Jzstitut,  GIMASDIOV, V.G.; TMALIKOVA, G.F. Underground waters in the southeastern Tatar A.S.S.R. Trudy YVIGRI no.20:112-116 '59. (MIRA 13:15) (Tatar A.S.S.R.-Water, Underground)  . -LG..;_YEFIMOV, L.I., :Lnzh.; LELITSEV, V.V., kand.tO~n.nauk; GMSI!~)Y.. HARAROV, K.H., inzh.; PQDhOPAYEV, V.F., inzb. Steam conversion of natul,a) gas in a water gas producer. M"1.- thir. prom. 27 no-9:31-34 S 61. (MIRA 14:11) 1. Moskovskly gidrozavod (for Gerasimov). 2. Vsesoyuznyy nauchno- issledovatel'skiy institut prirodnago gaza (for Yefimov, Kelltsev, Makarov, Podkopayev). (Gas, Natural) (Gas producers) 1),  GERASIMV, V.G, - I ~ -... ......-....... .t... 1,11. Hydrogeological characteristics of the Devonian and Carb:)niferous sediments of the Menzelinsk-Aktanysh region in the Tatar A.S.S.R. Geol. neftl i gaza 8 no.4:39.-43 Ap 164. (MIRk MO 1. Tattirskiy neftyanoy nauchi.,o-issledovatel'skly institut.  Ca  GIRASINDV. V.0., JnO ; ABKIN, A.D., kand.tekhn.nauk ----- ----- - . - -.... ---. Role arA objt,'ivaB of design organizations of the Minietr7 for Countructic- of Heavy Industry Establishments in thfo development of prjgressive building technolog7. Strol.prom. 27 no.3:1-3 * 149. (MM 13:2) 1. Glaystroyproyekt, (Construction industry)  MUMISM, Boris Aloksandrovich, kand. tekhn. nauk, dots.; SI"OVICH, Petr Antonorvichj inzh., MTOSH, F.T., inzh., retsonzon~- GERASIMGV V 0 Inzh., red.; USILIMAj V.P., red. izd-va,- PETERS01",, M.M., tekhn. rud. [Overall mechanization of the unloading of bulk materials; machinery and devices for basic and auxiliary work] Korn- pleksnaia makhanizatsiia vygruski navalochnykh gruzov; rashirq u8troistva dlia osnovrWkh i vspor-ogatellnykh rabot. Yoskva, I-'Awh izo 1962. 283 P. (MIRA 15:8) Roading and unloading-Equipment and supplies)  BA"OSHI N.T.1 WGILEVSKIY, L.D.; SHAROOVICH, P.A.; VOROSHILOV, B.P.1 ihsh., retoentent; GERASINU,..".. inzh., red,; LEYKINA, T.L., red. ild-val WMA, A.A., tekhn. red. (Manual for the operator of machinery used in loading esd unloadibg] Spravochnik mekhwdsatora pogruzochno-razgruzoch4ykh rabot. Hoskvn, Hashgis, 1963. 419 p. (MRik 16:8) (Ina,ftng and unloading-Equipment and supplies)  BAURTOSH, fil.kolay TarasuvIclij GFaASll-')V., V~G,, [OrgarAzatJon P,11 machanizW'or, f)Af In xachinery plutal Organizatsilla i mokiritinizaLsi ,'.9 Bkl.adsldkh rabot Pa masbinosiroitollyiy~-.'l prcdprilqll-~~tl~ LeTiinrradp 1964. 35 P. (MIRA 18J)  -GIRASI-HOVj..!ladimir Gayrilovichq Pastukh-stotnik; KOHMMAT, A.Y., red.; TASMIKINA, Te.A., tekbil.red. NY seven-year plan] Kola samiletka. lulbyehav, Xuib,,Fshevakoe knishnoe izd-vo, 1960, 21 p. (MIRA 14:1) 1. Kolkhos %aninakiy puts" Borskogo rayona (for Gerasimov). (Stock and stockbreeding)  GERASDW. V.I., (Odassa) . . ..- . I ~. ...1.1 9 '~ DMvis ott th li ilds frcm a chicken embryo. Lab. dalo 8 ti"M 163. (MINA 16s 5) (*T8RIOLOGY~TZCHPIQUH)  SXIMY, D. T. ; 01MASINDY, T. 1. Using the 9-nation method in prospecting for copper pyr:lte deposits, Raved.i ok:b.nedr 26 no-5:19-21 My 160. (MIR& 13:7) 1. Kirovogradelmys, goologorazvedochnaya ekspediteiya. Whalcopyrite) (Prospecting)  GEUSIMOV, V.I., lushener. . Ow"'Iml IWAN"Woo R91road transportation of mortar in containers. Strgi.prom- 35 no*3:28-31 Mr 157* (nn lo: 4) (Mortar--Transportation)