SCIENTIFIC ABSTRACT GRIGORYEV, V.S. - GRIGORYEV, YA.N.

AM4007948 discussed. Recommendations are made an methods for increasing the rigidity, strength, and endurance of joints and for joint testing to determine the optimum joining conditions. TABLE OF CONTENTS: Symbols used 3 Introduction 5 Ch. I. General characteristicsof continuous joints and of joints consisting of load-carrying elements -- 8 1. General characteristics of continuous joints 8 2. Joints consisting of load-carrying elements 12 Performance of joints consisting of load-carrying elements under shear stress --! 12. . Perfermenes of jointi sensisaLng of load-earryins elements und,sviseling stress 23 Card 26  AIIINVYINA, Alovtina Aleksandrovna, 01GORIM) ',S., otv. red.; GESSEN L.V., red.izd-va--m-- I I ONAT T.T.-I red. (Ceramic sound pickup equipment] Keramichoskie zvuka. Moskvav lzd-vo AN SSSR, 1963. 177 p. (14liLk prierniki 17: 1) A  L MI-900-65 E.eT(M)/EPA(W)-2/;WA(m)-2 Pab-10/2t-7 IJP(C) ACCESSION NRt AM1836.5 MV03,39/64/Wo/006/0016/0020 AUTHORI Did'anko, A. ff. I 'Irt TITLE: Effectiveness of smooth decelerating systems of waveguide synchrotrons SOURCE: IM. asika, no. 61, 1964,j 16-20 TOPIC TAGSt synchrotong waveiguide ABSTRACT: The article concerns the effectiveness of waveguide synchrotrons in 1. which smooth, curved waveguides of rectangular croon section are used for the acceleration. It in shown that under controlled conditions such accelerating systems will be an effective as accelerating systems of a type. haying diaphragm vaveguides and more effective than resonator oyatemsi. Oeig# art* has 1 figure I and 6 formulas. ASSOCIAT3X)Nt NIX pri Tomakom politakhnichookom institute imeni S. M. Kirova (NII, Tomsk Polytechnical Instituto) . - " , . 'I SUBMITTEDt 26Jun63 ENCL 1 00 ISUB OODEt NPt W NO REFfY 1 003 OTMMs 000. JpRS Card 777  i--L 33159-65 EiVT(m~-___DWP_,,____.__. ACCESSION HR: AP5005232 S/0057/65/035/002/02 05 9 3 AIMIOR: Gpigorl Vv, V. P. Didenko, A.N. TITIZ: Cerenkov radiation due to the MUM Of A particle In a cylindrical reso- nator located in a f0cuGing magnetic field SOURCE: Zhurnal tokhnicheakoy Mikit v.35, no.2, 1965p 298-305 TOPIC TAGS: charged pqrtfole, Ceronkov radiation, magnetic f told, resonator ABSTRAM The authors~calculate the radiation ol a cha rged particle moving within. a cylindrical reaonator located in a focusing magnetic field and executing radial ond axial oscillations about an equilibrium cirrular orbit. Tito calculation is per-~ formed by expanding the field of the coving particle -in normal Modus of the resona-4 tor, retaining only zeroth and first order terms in the ratio of the amplitude of the radial oy axial oscillations to the radius of the equilibrium circular orbit, and computing the reaction of the field on the particle. It is found that radiation rccurs not only at harmonics of the orbital frcquency of the particle but alL,-), at liijear combinations of these with harmonics of the radial and axial oscillation frdquencies. Separate formulas are derived for the power radiated in E waves and If Card 112,  L 33159-65 ACCESSION NH: APS005232 waves, respectively. Several limiting cases are discussed, and for a resonator or i infinite radius the formula of J.S.Nodvik and D.S.Saxon (Phys.Rev.96,180,1954) for the radiation of an electron moving between infinite plano-parallel conducting i planes is recovered. Radiation does not occur when the radius of the resonator is small compared with,the wavelength. 'I express my gratitWe to -S-2-Vapt- ior discussing certain results of this work." Orig.art.hast 55 formulas. ASSOCIATION: none SUBMITTED: 3lJul63' EhICM 00 SUB CWE: NP,EK NR REP SOV- 007 OrIMR: 002 Card  A) I ld--'~,;K C, A . N . ; (;h 1(',( !;-1 I-p:v , %, . i . Effi---ier-y of !jr:ooth moderating jp3tt.-no of -,4avp-j?u!ai s,,,,rl,~rotrons. Izv. vys. -acheb. zav.; fiz. 7 ro.6:16-20 164. (MJFj, IF:2) I- ~~'%IICIIrIO-13310(1()VIlt491'skiy inatitut pri Tomakorn, politekhnicLeskom Illstitu*e Ineril -,%M. KII-ovil.  GRIGORITEV, V.R. Notes concerning the method of analyzing morphological characterm. Bot.zhur. 45 w.8:ll6l-n63 Ag 160. (miu 13se) 1. Severoosetinskly gosuderstyamW podagogicheekly institut Im. I.L.11hetagurova, Ordshonikidse. (Bot&3W--Xorphology) (Botaw-CUssif ication)  NINITEV, V.I.; GRIGORIYEV, V.R. Stud7ing the structure of mammalian burrove. Zool. zhur. 39 no.U 1742-1743 N 16o. (KIRA 14: 1) 1. North-Ossetian State Pedagogical Institute. Ordzhonikidze. (Animals, Habitations of) (Rodentia)  j~. : ;k~ T I'j7E!7 V. 101.1 .,R .,cl Dis3artati:-.n: "Inveoti,ation of Ten3lon and Elon:atLn of the -1:-p a Thread in the '7eav-ing Procerm on the Loo= M-46.11 2J+ Nov 49 ?,loscow Textile Inst. SO Vecheryaya Moskva Sum 71  GRIGORIYIIV. V.S. Theory and practice of passing the shuttle through the shed. Izv. vys. ucheb. sav.; tekh. tekst. prom. no.5:89-94 159 (KIRA 13:3) 1. Grusinekly politekhnicheskly institut im. 3.M. Kirova. (Looms)  APOLWV, B.A.; TALININ, G.P., otvetstveanyy radaktor; GHIGORIYIV, V.S., radaktor; ORLOVA, N.S., tokhnicheakiy rsdaktor~,-----"-- [Study of rivers] Ikhanis o rekakh. [Moskyal Isd-vo Xoskovskogo universitsta, 1951. 521 p. [Microfilm] WHA 8:1) (Rivers)  GRIGORITMV.V.S.; BELUKO,S.P.; KIRICHENKO,V.M. All-purpose Jack. 28-30 '55. Rate. i izobr. predl. v stroi. no.110: (KLRA 8:10J (Lifting Jacks)  AGISHEV, A.P.; ORFL, V.Ye.;,GRIGORIYEV, V.S. Present status of the develogrient of the gas fields of the eastern Ukraine. Gaz. delo no.8:3-7 164. (MIPA 17:9) 1. Ukrainskiy filial Vsesoyuznopo rinuchno-Assledovatel'skogo instituta prirDdnogo gaza.  OREL., V.Ye.i AGISHEV, A.P.; GRIGORIYEV, V-S- Gas and gas--condensate fields of the Ukraine. Gaz. dolo n0.8: 45-48 164. (MIRA 17:9) 1. Ukrairiskiy filial Vsesoyiiznogo nauchric-lavledovatel'Bkogo Instituta prirodnogo gaza.  LUKAMMIN, N.I., inihener, GRIGCRtM , V.3~. Welded structures for blast furnaces. Stall 7 me.1:79-80 147. (United States--Bloot furnaces) (KLRA 9:1)  f Z, GRIGORIYXV,V., kand. takhn. nauk Obtaining lightweight aggregates through mechanized proceising of liquid furnace slags. Stroi..pnt. 2 no.10:11-12 0 156. (MIRA 12:3) (Slag) (Idghtweight concrete)  GRIGORIT i.- T-Sj KIRICHNIKO, Y.M. Unit for obtadaing lightweight mmshed material from heat-Ilquiflod blast-furnace slag, Rate. i izobr. Mdl. v stroi. no,W22-124 157. (MIRA 11:1) l.SotrudnIkI Yushnogo nauchno-ionledovateltakogo institute, po strottelletva, MiarIkov. (Slag) (Centrifuges)  sov/ilo-59-6-3/24 AUTHORt Sakovich, A.A., Candidate of Technical Sciences; Grigorlyeva, R.I., Engineer; Grigorlyev, V.S., Engineer and Blond, I.V., Engineer TITLEx An Investigation of a Titanium Absorption Pump (Issledovaniya titanovogo absorbtsionnogo nasosa) PERIODICALiVestnik elektroprowyahlonnosti, 1959, Nr 6, pp 13-16 (USSR) ABSTRACT: Existing types of vacuum pump are subject to various operating difficulties when installed on high-voltage valves. The pump here described is based on the principle that titanium does not react with mercury but can absorb gas when hot* Hot titanium reacts irreversibly with most gases and volatile organic compounds. These substances penetrate the crystal lattice of the titanium, forming solid solutions. Except for hydrogen, gases thus absorbed are not released during subsequent heat-treatment under vacuum. This principle formed the basis of the model absorption pump which is illustrated diagrammatically in Fig 1. The absorber is a block of porous titanium containing a heater. Because different parts of the block are heated to different Card 1/5 temperatures different gases are absorbed. The device  SOV/110-59-6-3/24 An Investigation of a Titanium Absorption Pump was found to be fairly effective at pressures between 0.5 and 0.001 mm Hg. As porous titanium contains a considerable quantity of occluded gas, prolonged de-gasification was necessary. The device does not absorb inert gases and evolution of hydrogen is possible if the thermal conditions are unsuitable. Titanium absorbs gases best when it is condensing on a surface and attempts have been made to use this principle in the construction of pumps, However* as pumps of this kind are complicated and unreliable, improved methods of atomising titanium were sought. It was accordingly decided to locate the titanium In the mercury cathode and atomise it by ionic bombardment in the presence of a cathode spot. A model absorption pump constructed on this principle is shown in Fig 2; it is installed in a high-voltage valve. Authors' certificate Nr 111517 of Ilth March 1957 has been taken out by three of the above authors for this device. The titanium electrode is on the centre line of the valve and is surrounded by an Card 2/5 auxiliary electrode at a positive potential. When  An Investigation of a Titanium Absorption Pump SOV/110-59-6-3/24 negative potential is applied to the titanium electrode an ionic current passes causing atomisation. The atomised titanium is deposited on a screen and on the auxiliary electrodtt creating an active surface that effectively absorbs the gas. The screen protects the internal parts of the valve from contamination with atomiaed titanium. Some results of tests on the absorbing power of atomised titanium obtained with this model are plotted in Fig 3. It was found that when pumping air the lower limit of pressure is below 2 x lo-5 mm Hg. The weight of absorption with a current of 2.5 mA and a voltage of 2.5 kV for various gazes in tabulated; the figures relate to a volume of 20 litres with an initial pressure between 60 and 70 microns Hg. The electrical circuit shown diagrammatically in Fig 4 may be used to supply the electrodes of the device. Employing this simple circuit, it was possible to make up a sample titanium absorption pump and instal it in a mercury rectifier type VR-3M as illustrated Card 3/5 diagrammatically in Fig 5. The valve was subjected to  An Investigation of a Titanium Absorption Pump SOV/110-59-6-3/24 the usual manufacturing cycle of vacuum treatment and forming. After evacuation by a mercury pump# the valve was connected to the absorption pump. Tests were then made on the rectifier on a low-voltage bench and at high voltage using an equivalent circuit. The electric strength was checked periodically by static tests. The valve was maintained for 2000 hours without the mercury pump in use and operated under load for about 400 hours: there was no case of pump failure, When the valve was left for a long time without pumping, leakage caused the internal pressure to rise to some 5 or 10 microns Hg but when the absorption pump was connected the vacuum was soon restored. A defect of the pump is that it absorbs inert gases only very slightlyg hence, if there is an appreciable ingress of air, atmospheric argon may accumulate in the valve. The service life of the absorption pump, though not yet established, is likely to be considerable and can probably be made of the order Card 4/5 of 10000 hours. The power required for the pump is about  An Investigation of a Titanium Absorption Pump SOV/110-59-6-3/24 100 W, most of which is absorbed by the auxiliary electrode. By a slight change in construction the latter could be used as an excitation anode; the power required to operate the pump would then be considerably reduced. One of the advantages of the pump is its high pumping speed at low pressures. A disadvantage is the presence of a high voltage on the auxiliary electrode which, amonst other things, limits the upper pressure to between 200 and 500 microis Jig: beyond this limit corona occurs and atomization of the electrode is much reduced. There are 5 figures, I table and 3 references, I of which in Soviet, I English and I German. Card 5/5  GRIGORIYEV,, V.S., red.; WSLYANSXIY, G.N.p inzb., red.; --'---'-KWOROSTCSIWAj Ye.m., kand. tekhn. mauk, red.; DONSKOY, Ya.Ye,,, red. izd-va; LIMANOVA, M.Lp tekhn. rod. [Slags in construction; papero)Shlaki v stroitellstve; trudy. EbarIkov, KharIkovskoe knizhnoe izd-vo.. 1962. 227 p. (VJU 15: 10) 1. Koordinatsionnoye soveshchaniye po pererabotke i ispoll- zovaniyu metallurgicheakikh shlakov v stroitel'stve, Kharkov,, 1961. 2. DeyBtvitel'iWy chlen Akadwii stroitellstva i arkhi- tektury Ukrainskoy SSR (for Grigorlyev). (Slag) (Building matorials)  GRIGOR'YEVO Vladimir Sergeyevich; KOVENDANT, K.P.., red.; LEUSHCHENKO, N.L., tekhn. red. [Technology of manufacturing porous slag fillers for lightweight concrete) Tekhnologlia proizvodstva por ristykh shlakovykh zapolnitelei dlia legkikh betonov. Kiev, GoestroiWA USSR, 1963. 143 p. (MIRA 16:10) (Lightweight concrete)  C-MWRIYEV, V. S. V=)%"ics - Acoustics mar 49 *Architectural Acoustics in the USSR, " N. N. An- dreyev, V. S. Grigorlyev, I. G. Leyzer, L. D. Rozemberg, B. D. Tartakovskiy *Uupekhi Piz Nauk" Vol XMII, No 3, pp 269-315 Lengthy, general, historical, and nomathemati- cal. discussion of acoustics of chambers; sound absorption; sound intensification; sound insula- tion; sound measurements. Gives extensive bib- liography of 421 references covering all Russian vorks on architectural acoustics frou 1861 to 1948. VMS  PHASE I TREASURE ISLAND BIBLIOGRAPHICAL REPORT AID 391 1 BOOK Call No.: TK7870-075 Author: GRIGORIYEV, V- S. and GRIGOROYEV, B. S. Pull Title: ELECTRONIC AND IONIC DEVICES Transliterated Title: Elektronnye I Ionnye Pribory Publishing Data Originating Agency: None Publishing House: State Publishing House for Literature on Problems of Communications and Radio Date: 1950 No. PP.: 327 No. of copies: 10,000 Editorial Staff Editor: None Tech. Ed.: None Editor-in-Chief: None Appraiser: None Others: The author expresses his gratitude for aid In preparing this book to the following: Prof. N. A. Nikitin, D. V. Strankovskly Text Data Coverage: The book deals with basic types of electron tubes. Their physics, operation, and applications are described in detail and illustrated with characteristic curves and scale drawings. The range of tube types extends from simple diodes to microwave tubes such as magnetroneo klystrons, lighthouse and acorn types. This book Is a general Introduction to the problems of electronic and ionic devices. It is primaril a descriptive nature. However, its  Elektronnye i Ionnye Pribory AID 391 - I value resides In the fact that many of the components described are identified by designating markings. TABIZ OF COIMNTS Ch. 1. Electron Emission 11 2. Thermlonic Cathodes if 3. Motion of Free Electron In Electric and Magnetic Fields It 4. Electristatically Controlled Diode it 5. Triodes it 6. Screen-grid Tubes 7. Multi-Electrode and Multiple Tubes 8. Cathode-Ray Tubes 9. Microwave Tubes 10. Gas-Filled Tubes 11. Photo-Electric Emlsslon Devices Purpose: Intended as a text book for students for communications Institutes; approved as such by the Ministry of Communications of the USSR. Facilities: None No. of Russian and Slavic References: A few references are given in the text. Available: Library of Congress 2/2  GRIGORI&V, V. 1. Zledtronic and ionic devices; textbook Izd. 2., perer. Moskva, Goo. izd-vo lit-ry po voproaam aviazi i radio, 1954. 418 p. (55-29820) TK7870.G75 1954  XTASISHCHEY, V.L. rodaktor;ALKSANDROVA,A.A., redaktor; BNMIN,B.G., (tranalatorl; GRIGGROYNY, V.S.,[tranalatorl; ISAKOVICH.M.A., [translator]; KURM,11.17,"Vikhnicheekly redaktor (Physics of sound In the son. Translated from the Inglishl Fisicheskie onnovy podvodnol akustiki. Perevod a angliiskogo B.G.Belkina. V.S.Grigorleva. I H.A.1sakovicha. Moskva. Izd-vo OSovetskoe radio.* 1955, 739 P- (KLILA 9:2) (Underwater acoustics)  redaktor; ROSMMM. L.D.. BMKMNN, Ludwig, 1898- ; OMqq'Y~Vj redaktor (Ultrasonic waves and their application in science and technology. Translated from the German) Ulltrasvuk I ego primenents Y nauke i tekhnike. Perevod a nometakogoo Pod red. B.S.Ortgorleve I L.D. Rosenborge. Moskva, lad-vo inostrannoi lit-ry. 1956. 726 p. (KLRA lo:l) (Ultrasonic waves--Industrial applications)  ",~Ie7t.rf7d3mamlc Transduzer Based on tl!e Use of Displaccv;%:nt-Current in a Dielectric with Mgh Dielectric Permeability." pnpt,i- prescnt(-~~ tit thc 4th Ali-Union Couf. on Ai.)u,;tl,!s, w, '26 2 Jun 5'. --w  SOV/110-59-6-4/24 AUTHORS: -Grigorlyev, V.S.9 Engineer and Pertsev, A.A.. Engineer TITLE: A Mercury-Vapour Pump for a High-Power High-Voltage Mercury-Arc Rectifier (Parortutnyy nasos, dlya moshchnogo vysokovolltnogo rtutnogo vypryamitelya) PERIODICALtVestnik elektropronyahlennosti, 1959, Nr 6, pp 16-17 (USSR) ABSTRACT: The mercury-vapour pump described in this article is used with the high-voltage rectifier type VR9. In operation the pump is at a high potential to earth and so must be cooled with transformer oil. A number of difficulties were experienced with the original type of pump, which has been described elsewhere. This article is principally concerned with the design changes which resulted in the modernized pump illustrated in Fig 1. The exhaust tube, which is wrapped helically round the pump body, serves to guide -the flow of cooling oil. The exhaust tube in thus twice as long as in the previous construction and, although this halves its discharge rate, the pressure drop in it is not greater than 1-7% of the backing pressure. The vapour circuit was also Card 1/3 reconstructed, particularly the nozzle of the diffusion  SOV/110-59-6-4/24 A Morcu";-Vapour Pump for a High-Power High-Voltage Mercury-Arc Rectifier stage. It was found that the pump maintained its performance when the heater power wan reduced by a factor of 2-5 to ~ and the pumping speed actually increased. Because of this it was possible to reduce the minimum gap between the surfaces of the cones and the nozzle of the diffuser stage to 0.4 mm. This and other consequent changes improved the characteristics of the pump: the pumping speed was increased by some 20 or 30% and was between 10 and 12 litres/sec with an inlet pressure of 5 x 10-4 mm Hg; the maximum back- pressure was approximately doubled and was 20 mm Hg with a heater power of 900 W. The pumping speed and maximum back-pressure are plotted as functions of the heater power in Fig 2. The pumping speeds are similarly plotted for hydrogen and for air in Fig 3; it will be seen that at rated heater power, the speed with hydrogen in 36 litres/sec. However, it falls off much more rapidly than the speed for air as the heater power is reduced. Card 2/3 A trap that was devised to prevent carry-over of mercury  SOV/110-59-6-4/24 A Mercury-Vapour Pump for a High-Power High~Voltage Mercury-Are Rectifier droplets is illustrated in Fig 4. This is installed at the end of the pump discharge tube. There are 4 figures and 2 SovIet references. Card 3/3  5/046/60/006/01/03/033 BOOB/Boll AUTHORS: Galkin, O._ ., Grigorlyev, V. S. TITLE: On a Device for Flotting Refracted Rays PERIODICAL: Akusticheskiy zhurnalq 1960, Vol. 6, No. 1, pp. 23 - 29 TEXT: The paper under review deals with the basic principles of de- signing automatic continuou&motion devices serving for the calculation and the plotting of path-of-rays diagrams. One and the same basic cir- cuit diagram can be used for purely electrical (electronic), purely mechanical or electromechanical machines. The present paper deals with devices used for a medium consisting of plane layers, in which the sound velocity depends only on the perpendicular coordinate (Fig. 1). From among the large number of possible modifications of electronic devices, four with especially remarkable featurea are sorted out (Figs. 2 - 7), and some mechanical and electromechanical beam recorders (postroitell luchey) (Figs. 8 - 10) are submitted to a close examina- tion. When chockinr Roveral variation the authorn reached the following Card 1'?  On a Device for Plotting Refracted Rays S/046/60/006/01/03/033 B008/BO11 conclusion: Electronic devices reproducing the rays on an electron-ray indicator are better suited for high-speed recorders of a relatively low accuracy, Electromechanical integrators reproducing the system of rays in the form of curves are better suited for low-speed high-preci- sion recorders. There are 10 figures. ASSOCIATION: Akunticheskiy institut AN SSSR, Moskva (Institute of Acoustics, AS USSR, Moscow) SUBMITTEDs July 31, 1959 Card 2/2 010- - V1_8  -GRIGORSTEV, V.S.; Xl,.YAZHEV, F.I. propagation of low frequency sound In -shallov water* Akust,sbure 6 no.1:34-42 060. (WRk 34:5) 1. Akusticheikiy institut AN SSSR, MDokva. . (Sound-tramilablon)  V PHASE I BOOK EXPLOITATION POL/5981 Symposium on Electroacoustio Transducers. Krynica, 1958 Proceedings of the Symposium on Eleetroacoustic Transducers Lheld in] Krynica~ 17-26 September, 1958. Warsaw, Panstwowe Wydawnictwo Naukowe, 1961. 442 p. F.rrata slip inserted. 630 copies printed. Sponsoring Agencyt Polish Academy of Sciences. Institute of Basic Technical Problems. Ed. in Chiefi Januszlacprowski, Doctor of Sciences; Editing Committee: Ignacy Malecki, Professor, Doctor of Sciences; Wincenty Pajewski, Doctor; and Jerzy Wehr., Master of Sciences; Secretarys Juliusz Miarzejewski. PUfWOSE: This book is intended for physicists and acoustical engineers. COVERAGEs The book is a collection of detailed research papers constituting the proceedings of a conference hold in Krynica from 17 to 26 September 1958 under the auspices of the Instdtute of Technical Problems, Polish Academy of Sciences. Card I/lb  Symposium on Electroacoustic',Tranoducers PC'-'/5981 The following basic problems are treateds 1) theoretical research on energy transformation ocessen; 2) experimental development of new tnes of transducers; 37 electroacoustic measurements; 4) techaology of piezoelec- tric and magnstostrictive materials; 5) construction o'A' transducers for te,,-'%- nical needs; and 6) design of acousticgl transducer systems. No personaliti-s are mentioned. References tif.any)follov the individual articles. TABLE OF CONTENTS: Preface 3 Problem of Research Work on Electroacoustic Transducers. Ignacy Malecki, President of the 00aference 5 Ch. 1. General Problems and Theory of Electroacoustic Transducers 1. Classification of electromechanical transformation methods in the light of the tasks faced wMAWID [s1c] the design and construction of electroacoustic equipment. V. S. Grigorlytiv 7 Card 2,19  Symposium on Electroacoustic Transducers POIV5981 2. Symbols and models for mechanical systems. L. Cromer 23 3. Dual forms of four-pole equations and four-pole equivalent cir- cuits of electromechanical transducers. Janusz Kacprowski 33 4. Equivalent circuits for material-active electromechanical (pie- zoelectric, electrostriative, magnotostrictive) transducers in non- quasi stationary vibrations. F. A. Fischer 49 5. Transients and the equivalent circuit of the magnetostrictive transducer. Lessek Filipczynaki 61 6. Electrical equivalent circuit of the piezoelectric transducer. Leszek Filipczynski 75 7. Four-pole equivalent circuits of piezoelectric banding vibra- tors. A. Lenk 85 8. Analysis of the equivalent circuit of the magnetostrictive transducer. Roman Suwalski 93 9. A method of oalculatbg transients In nonlinear transducers. Jozef Tabin 101 10. Electrodynamic transducer utilizing displacement currents in dielectrics vith high dielectric permeability. V. S. Grigorlyev, L. N. Nikitina, and J. [sic) A. Ukhanov 105 Card 310-  GRIDO - --- 9w-=4-V-3- Gromr. St.tiet,c&l srohtectur&l &cOustics" by Le 8 no.3&3?6-377 '62- ~.S,Gri orlev, Akufitosbmro tios) (Cremr,, L.) lArchitOctursl &coup ROviewed by (KM& 15,U)  oRIGOWYEV, V.S. IIL~Iltrasonicnl by T. Tar-noity'. Revlowed Ily V.S. GrIgorlev. "st. zhur. 9 no.3.4397--399 i63. (MIRA 16~8) (u1 tra F; an I in 9 ", (Tarnoczy, T.  GRIGORIYEVV V.S. - wFundamentals of modem acoustics" by S. Badarau, M. Grumazescu. Reviewed by V.S. Grigorleve Akusto zhurs 9 no*3:400-401 163. (MIRA 16:8) (Sound) (Badarau E ) (anAazescuj M05 0  GRIGOR'YEVI V.S. Simplified method for of reservoir pressures field, Neft, I gas, pron. estimating the precision of the averaging based on a study of the Shebelinka gas no.109-40 Js-Mr 164. (KRA IW)  All n3uk dr t ~5 YEV, I'S rd.lza ticirt (j-,* the wcavinc by P~ 'Y, Vlasov, Roz,in,ov., He-viewed by Pleahin, V.S Grlgor-nr, I.r ..bra tanel Tok3t.prori, ~!i rio,11!88-9C, N :61. (M III ~A 14: 11' ) 1. Vso.-joyuznyy zaachnyy Institut, tokatil-noy i legkoy prommysh- lennooti (V.TLP) (for Aleshin), Wo -, tv I., tp, Looms V i ov F.. V (Pozanov., F,",-)  KOOTLOVO VOTOO, ;~ndidat tokhnichookikh nauk.- GLAZZW.H.S., kandidat tekhnichaskikh nauk; aRIGORITIV, Y.T., Inshoner. Connection of the transformer neutral- '- lOw-tonsion network. Provesnarge12 no*2:20-24 7 '57e WaA 10:3) 1. leningradskly slaktrotekhnichookly institut Imeni V.I. U;1janova (Lenin). (Bloctric currents-Orounding)  24202 S/14 61/000/006/002/003 '7LIS-41 -0 D253YD301 AUTHORS: GriGorlvevg V.T., Mrigineery Yatukhanov, P.N., Docent TIM B: tong pul3e power generator with a shaping circuit and with cnerCy storaZe in inductances PERIODICAL: B"nergetika# no. 6, 1961, 31 - 35 T3XT: The authors describe one of the possible varieties of a ge- nerator with an inductive energy stor,-;e. Short pulse 10%7 DOWer J;e- nerators normally utilize the caDacitive storage of energy. In the generators of longer pulses and higher power the inductive storage of energy becomes more practical, aince this system does not re- quire large capacities. On breaking the circuit the stored energy is passed over to the load inserted in parallel with the shaping circuit. In the subsequent shaping circuits the pulse current through the load equals 1/2-of the current in the inductance. The main d4sadvan~age of this system is the need for a commutator. The circuit, diaLram of the system is depicted in Fig. 2, w1here Lo is Card 1/4  2h 2 C, 't? S/143/61/000/006/002/003 Long pulse power generator ... D253/D301 the energy storing inductance; Co is the shaping circuit capaci- tance charged by a separate source to the voltage Uo; Lk - Ck are tile parameters of the series resonant circuit; R is the load resi- stance; C,,r ~_s a larf;e blocking capacitance;,'1.1 - charging thyra- tron;J12 - commutating thyra"Clron;J~3 a gasetron. Pig. 2. Card 2/4  g2 ly Long pulse power tenerator S/14~D 000/006/002/003' 1 D253 301 The 9yotem works Lie follows: A control pulse at tiije tj9. opens the thyratroii valve A, and thus initiates the flow of en~.~rr,y to Lo. If at t2 ankjUt_-r control pulse opens the thyratron J12, capacitance Co is charged. With the polarity of the in.itial clur, t in Co shown in the diagram, the current through J1, decays ai:d the c. - eitt to Lo flows through CO, A2 and the shaping circuit with th,, load. The charge in Cc decreases to zero. If the time of discharte of Co, t, is sufficient to deionize the thyratron - J1, will not strike. permits the two-way conduction through Co. After the pasoage of e pulse and deionization Of J12 the system is ready for the next cycle: chc~rging - switching over - pulse shaping. The deionization time is very important. C o min (the smallest value ensuring nor- mal operation of the circuit) determines the minimum length of pulse which can be obtained for a given UO. In the case of mercury thyratrons the minimum length is of the order of a few millise- conds. The reduction of the deionization time can be achieved by increasing the bias on the grid and selecting a sufficiently large Card 3/ 4  S/l4t3'U000/006/002/003 Long pulse power generator ... D253 D301 3', capacitance in the bias circuit. The time of flow of current through JI? is approximately equal to the length of rise of current in the pulse A conducts during the time of rise of current from zero to its ~axlmum value. This time is approximately equal to L0 2 ~-, where ro is the resistar-e of the winding. For the iron core 0 inductances this time is approximately 0.1 - 0,15 seconds. The thy- ratron is so chosen that its permissible peak current is greater than the charging current. This circuit can be earthed at any point. The operation of this system was verified on a small power model, whose circuit diagram is also depicted. There Lire 4 figures and 2 Soviet-bloc references. AO"UOCIATION: Leningradskiy elektrotekl:nicheskiy inatitut imeni V.I. Ullyanova (Leningrad BlectrotecIiii,cal Institute, imeni V.I. Ullyanov (Lenin) PRESENTIM: July 7, 1960, by the kofedrn teoretich~.,sliikh osnov elektrotekhniki (Departi-,ent of Uic Theoretical Bases Card 4/4 of Electrical Rnginecrint,)  ACCESSION UR: AT4017560 S/3074/62/000/047/0136/0140 AUTHORSs Matkbanov, P. N. (Doctor of tacbnical sciences, Professor)1, Grigorlyev, V. T. (Docent) TITLEs Diagram of generator for long bigb-power pulses vrith induc- tive storage SOURCE: Leningrad. Elektrotekhnicheskiy institut. Izv., no. 47, 1962, 136-140 TOPIC TAGS: pulse generator, long pulse generator, inductive stor- age, gas discharge tube-switching, pulse flatness correction, igni- tron, thyratron, gas filled diode ABSTRACT: In view of the difficulties involved in generating long rectangular pulses (on the order of several or several times ten milliseconds) with capacitive storage and electronic modulator tubes, a generator is proposed with inductance storage, in which the commu- Card 1/5  ACCESSION NR: AT4017560 tation is effected by ordinary controlled qas-discharge tubes (thy- ratrons or ignitrons).in analogy with the capacitor switching cir- cuit. The correction for the drooping top of the pulse is also con- zidered. It is shown that the operation of the circuit depends appreciably on the thyratron deionization time, which can be de- creased by increasing the bias voltage and increasing the capaci- tance in the bias circuit, or else by using specialized thyratrons. The circuit was tested using TRI-6/15 mercury vapor thyratrons and a VG-129 gas filled*diode, an inductance of 1 henry, and a correct- ing capacitance of 8 microfarads. The load resistance was 50 ohms, and the pulse duration was 6 milliseconds. The authors are grateful i to M. M. Fedorova for help in the construction and adjustment of the breadboard." Orig. art. has: 2 figures.,. ASSOCIATIONt Leningradskiy elektrotekhnicheakiy institut (Leningrad lClectrotachnical Institute) 'T  ACCESSION KRs AT4017560 SUBMITTEDs OoMar6l SUB CODE: GE, SD DATE ACQs 20Mar64 NR REF SOVs 001 ENCL: 02 OTHERs 000 ,Cad  ACCMION NRI AT401T560 + INCLOUM 0 01 Schematic diagram of pulse generator with inductive storage R - load resistance, C 0 correcting capacitor, C b - blocking capacitor of large value designed for a hvoltage equal to the poi,.,erl supply voltage.JI 11 11 21 ii 3 -c arging and switching thyratrons and gas-filled diode. Card 4/5  ACCESSION ;Ri AT4017560 Oscillogram of ioad pulse waveform nmosvu 02 Card 5/5  L 04172-67 EVT(I)__ ACC NRI AP6027556 SOURCE CODE: UR/0143M/000/005/0028/0032~ ~AUTHOR: I Matkhanov, P. N. (Pr Docent); ooy, A, I, G0901"810, L, Z. (Docent); :Grigor'Zev, v. T. ofessor); (Engineer) jORG: Leningrad Electromechanical Inatitute 11D. V, I. U (Len~ingradskiy elektromekbanicbeslciy Institut) I'lenoy (Lenin) :TITLE: A generator of Powerful videgimpulseg with an Induction Jaccumulator 0 ISOURCE: IVUZ- Eneraetikas no- 5, 19660 28-32 TOPIC TAGS: video signals generator# pulse accumulation ABSTRACT: The article gives details of an impulse generator with an induction accumulator and describes a method for its calculation. Figure 1 shows the electrical circuit used* In charging, the current in the impedance accumulator rises according to an exponential law U6 I -exp R '91 (--L 'A. where R is the active resistance of the impedance. A figure given curves showing the change of the current in the impedance and of the Card 1/2  L 04172-67 AP6027556 Figure 1, . ................... 0 ivoltage on the load. Advantages of the new scheme are: a) the !roliability of an induction accumulator is considerably greater than that of the oondonsers of a capacitance accumulator; b) the feed to the ,raparator coin be a low voltage naurcol in many canon the generator can :be fed d1reotly from a circuit with the use of small dlmnnslon I ;somiconductor rootifierse Orle, art, has: 10 formula3 tuid 3 figures. ,SUB CODE: 09/ SUBM DATE: 06jul65/ ORIG REF: 002, 2/2  "The (-cononi---~ jolo,`Lcal Properties rt -"winie -!e-d at ~vdcnnovetsl Xolk!~Oz." All-l-l-n-orn '77r!1 r7c~: insft of Lnl~nril ',L;c.-anjry. Moscow, 1955. (For the Decree of CandiOatf in, ACr~lc-ultilral So: ,Liizhnaya Letopis' No. 18) 1956  S/094/62/000/002/001/002 E194/E485 AUTHORS: Popkov, V.I., Grigorlyev, V.V. But, A.I. TITLE: Electronic-ionic technology in the national econoriy PERIODICAL: Promyshlennaya energetika, no.2, 1962, 1-4 TEXT: This is a general article intended to familiarize production engineers and others with recunt achievements in electronic-ionic technology. It is based on materials of the Scientific-Technical Commission of the formir-tNTK USSR of which V.I.Popkov was President. Electronic-ionic technology has three special features: firstly a wide range of materials can be treated in an electric field so that it is a very universal method. secondly, the process is continuous and subject to very fine control; and thirdly the electrical energy is directly applied to the object without intermediate conversion. The introduction of electronic-ionic technology can be revolutionary in many branches of industry. Thus, the use of electrical mixing and electrical forming in the manufacture of constructional materials could save hundreds of millions of roubles per year. The introduction of electrical flotation can provide an economic solution to problems of producing rare and dispersed elements such as rubidium, caesium, Card 1/4  S/094/62/000/002/001/002 Electronic-ionic teciinology ... E194/E485 germanium, etc. Electronic-ionic processes are already parti_illy being used for de-watering and de-salting crude oil, for trapping powdered products such as cement, for purifying industrial flue gases, for painting and for many other purposes. At the Goricov'skiy avtozavod (GorIkiy Automobile Works) the use of high- tension painting methods saves 300000 roubles per year and still greater economies have been achieved at other works. On deliver-,- on a conveyor into the painting room, the product is charged whjl:-t. the paint spray, is charged to the opposite sign. The method a better coat of paint with smaller paint consumption and is ver, convenient for automatic operation, each installation saves about 110000 roubles per year. The Katuarovskiy keramiclievskiy zavotl (Katuarov Ceramic Works) is depositing powdered glaze on unf ired tiles in an electrostatic field thus not only saving glaze but cutting out the preliminary firing of the tiles. Electrostatic methods are being used to produce textile materials with a pile such as artificial furs, carpets and others. Using electi-icl-il methods more than 1000 fibres can be placed vertically on one square millimetre of surface. An electrical spinn-,ng metho-A i:i in the process of devflopj,.:ejit, the idea being tlh,); Lhe electric. I Card 2/11  S/094/62/000/002/001/002 Electronic-ionic technology E194/E485 field would straighten and orientate the fibres and deliver tiiern in the required direction. Electrical separation and electrical classification of materials is very promising. Polar particles can be separated from non-polar by attraction of' the polar particles into the parts of the electrical field where the gradient is greatest. Electrical separation methods are widely used to concentrate coal and ores of rare elements, to regenerate mould materials in foundries and to produce high I&rade constructional materials. Electrical forming offers promise in the building industry. Pulverized materials can be deposited electrically on a shaped electrode or products of complicated shapu can be formed, such as pipes, insulators, insulating and building materials. Electrical mixing of various components may be combined with the grading of the materials according to particle size and the like. Electrical fields may be used in printing to press the paper to the matrix, a latent image may be formed electrically on the paper which then attracts the ink. Although electronic-ionic methods are very promising they have not found really wide application and one of the main reasons for this is Card 3/4  S/094/62/0(JO/00~~/001/002 Electroitic-lonic technology E194/E485 lack of suitable equipment. Moreover, the probleii:s involved are being studied Independently by a wide range of institutes. Not enough work is really being done on the subject; for instance. there are many institutes trying to overcome the bad effects of corona discharge on transmission lines but relatively little effort is going into the use of corona discharge for industrial. purposes, It is accordingly recommended to set up a Scientific Research Institute of Electronic-Ionic Technology, Card 4/4  GRIGORIYEV, V.V., itizh. New models of upholstered furniture. Der. prom. 13 no.8:2 of cover Ag 164. (MIRA 17:11)  IV- Zhf:!I.t-z,-.o,!or,ozhnyt- I*jLre:,r* vy i rviplaltive linsty. f-lratn-:'- rries -v,-), 1?43. 77p. , .F- SO: 30l.fIET -A -FT,,LTCXDA.-P7f Library o' Cun-ress Department, i4ashlngton, 19,,,2, unclesolfle,l.  GR16CRIM, V. V. GRIGORIUT, T.T.; ORTAZVOT, T.N.; SHCHNTINING, A.I. kapitan dallnege -'VTWfWW, rodaktar. (Ship cordareg collection of plates) Sudo"s takolashnys raboty; atlas. Pod red. A.I.Shchotininei. Leningrad, Gm Isd-vo Yodnego transport&, Leningradskee otd-nis, 1954. 131 P. (NLRA 7:7) (Masts and rigging) (Knots and splices)  GRIGORITEVO V.V.- SAMOMALOV, D.A.; TSURHAN, A.I.; SHCHITININA, A.I. n, redaktor: PIENHW11, M.M.. takhnichaskly rodaktor. (Nautical Instruments] Korokbodrqe Instrumenty. Pod obshchel rod. A.I.Shchotintnoi. Leningrad, Izd-vo "Morskoi transport." 1955. 382 P. (KLRA 9:1) (Nautical instruments)  GRIGORqU,~ VjmUmjv T"illyevich; GRYAZNOT, Tasilty Kikhaylovich; SHCMELTINA, Anm Ivanovm, kRpItan dallnego playaniya, "to. red.; SAM=, W.V., red. lzd-va; XOTLYAKOTA, Oelo, cekhn. red. [Ship cordage@; an atlas] Sudme takelashve raboty; atlas. IOCZ.. parer, i &op. Pbd red. A.1. Shchatininoi. Leningrad, Izd-ve Norokol transport.0 1957. 195 P; (KIM 110) (Knots and splices)  PHASE I BOOK EXPLOITATION 936 Akademiya nauk SSSR. Konlaslya po, problefto Sayers Letopial Severe; Yezhegodnik po voprossm latoricheskoy geografils istorii geografichookikh otk-rytly I Issledovanly na Severe. t. II (Chronicles of the North; Yearbook of Historical Geograp , Histor:r of Geographical Discoveries and Exploration of the Northy . . -. v. 2 Moscow, 09ografglat 195T. 2T9 p. 2,000 copies printed. Editorial Board: Andreyev,)AJ., Baloy, N I:, Burkhanov, Y.F., Yefinov, A.V. (Romp. Ed. , Chernenko, X:B (Deputy Reap. Ed.) and She herbakov,D.I.; Ed. : Vorontsova, A.I.; Tech. Ed.: Kosheleva, S.N.; Map. Ed.: Nallchevskiy, O.N. PURPOSE: The book Is Intended for readers Interested in the 3oviet Arctic. COVERAGE: The present volume, the second of a series of three, is a collection of 27 articles by various authors presenting an historl- cal account of the exploration and economic development of the Card 1/6  Chronicles of the Worth (Cont.) 936 Soviet North. A small part of the book is devoted to Arctic areas beyond the confines Of the Soviet Union. The &in Of the book is to contribute to an understanding of the physical geography, c&rtog- raphyo ethnography, and economy of the Soviet North through a historical survey of these factors. A large number of authors, explorers, scientistej travellers, pilots, navigators, etc. are cited. The text Is accompanied by numerous photograph and maps. TABLE OF CONTENTS: From the Editors 3 STUDY AND CONQUEST OF THE NORTH DURING THE SOVIET PERIOD On Drifting Ice In the Arctic Ocean (From the Logo of Stations ."North Pole No. 4" andlorth Pole go. 3") Bolotnikov, X.Ys. The Siberian Grain Expedition of 1920 34 Card 2/6  Chronicles of the North (Cont.) 936 Pinegin, N.V. Over Novaya Zemlya 51 Zotin, M.I. Drift of Soviet Scientific Research Station* in the Central Ar6tig' 73 Grigorlyev, V.V. Records In Open Vater Navigation in-High 1~itil-ude-iF-or the Arctic 78 Starokadomakiy, N.A. Kouseveroput' (Committee of the Northern Sea Route] Expeditions to Oydanakly Sever 81 FROM THE HISTORY OF OBOORAPHIC DISCOVERIES AND EXPLORATIONS Belov,, M.I, Belov, M.I. Now Data on Vladimir Atlasov and the First Russian Expeditions to Kamchat~lp 89 SIdorov, K.V. Novaya Zemlya on XVII Century Maps 107 Chernenko, M.B. Travels in "Chukotskaya Zemlya" and the Voyage to Card 3/6  Chronicles of the North (Cont.) 936 Alaska by the Cossack Lieutenant Ivan Kobelev in 179 and 1789-91 121 Frumkin, P.A. Notes on the History of Spitzbergen 142 Kremer, B.A. How the Existence of Franz Joseph Land was Predicted 14T Chernenko' M.B. Materials for the Biography of Ya.I.Nagurskly, First Polar Aviator 150 Gromov, L.V. Traces of an Ancient Settlement on Wrangel Island 155 #RON THE HISTORY OP~ ?='. STRU00U. PON TO ZC0XO%IC DI&VELOPUNT OF THE NORTH DIvin, V.A. T6e Second Siberian-Pacific Expedition and Problems of Economic Development of the Soviet Far Sant 157 Probst, A,Ye. From the History of Petroleum Production and Processing in Ukhta 176 Card 4A  Chronicles of the North (Cont.) 936 Slavin, S.V. Notes on the History or Railroad Building in the North 00 in Pre-Revolutionary Russia log Freydin, I.L. The Struggle for a Sea Route to the Pechora 206 Chumak, P.A. G.Ya.Sedov in the Soviet Par Zest 216 NON-SOVIXT NORTH Agranat,G.A. Spitzbergen During the IAst 15 Years 224 Vyshnepollskiy, S.A. North-West Passage 234 Lappo, S.D. Research on the Central Arctic by Foreign Scientlots 239 Agranat, G.A. Recent American Pualications on Russian America 247 Bogorad, Yu.D. From the Pages of the West German Journal "Polarforachung" 255 Card 5/6  Chronicles of the North (Cont.) 936 News in Brief (Compiled by O.A.Agranat). New Polar and Arctic Instututes. The Canadian Ministry of Polar Affaira . . Inhabitants of the American North. Non-stop flight by jet plane via the North Pole. Transarctic air communication. A new pipeline in Alaska. Projected railroad from thq USA to Alaska. Geological explorations of the Canadian Arctic Archipelago. Migration of the magnetic pole in the Northern hemisphere. An expedition to Ellesmere Land. Housing on the lee shelf 25T REPORTS Malyshev, V.I. Ancient Written Recq~ds from the Pechora 265 Suzyumov, Ye.N. Heroic Feat of the Crew of the Icebreaker ,A. Sibiryakov" 2T1 Bobrov, N.S. Airplane Skis -- A Russian Invention 274 AVAIIABLE: Library of Congreme W4/whl 1-5-59 Card 6/6  GRIGORIYXV, V.V, Records of the free navigation of shipe in the upper latitudes of the Arctic. Ist. Soy. 2:78-81 157. (MIRA 10:12) 1. Arkticheskiy nauchno-looledovatellskiy institut Glaveevzorputt, Itnekoveldy otdol. (Arctic regions)  BOCHRK, Alekeandr Pavlovich; GRIGORIU'V, Visearion Visearionovich; DUBININ, Aleksandr -1o9rfCWr-cV-.--MOW9V'* Tajiliy Fedorovich; PITROT, Nikhail Xlimentfyevic~ [decease;]; YAHKOVICH, Vladimir Mikolayevich; PRTIN, K.I.. red.; TIKHOKOVA, Ye.A., takhn.red. (Karine practical Korskaia praktika. Pod obahchel red.Y.M. lAnkovicha. Koskya, Izd-vo OMorskoi transport.' Pt.2. 1959. 418 p. (MIRA 13:1) (Navigation) 7' '4'--  KOZUMOV, V.P., doteent; VORCROV, Vj., kand.takhn.nauk; ,Y,V,, inzh.; ZAKHAROV, V.I., kand,flz.-motem.nauk, reteenzent; RTRMOVSUT, M.Yu.. prof., spatered.; DXNISOV, I.M., red.lzd-va; I)ROZHZHIKA, L.P.. tokhn.red. (Deviations of the mgnetic compose] Deviatelis magnitnogo kompass. Leningrad, lzd-vo "Morskoi transport.0 1960. 291 (MlU 13:1S (compass)  'GRIGORIUV. Vladimir Vasillyevich; SAYAAWALOT, Dmitriy Arkadlyevich; 1, -.-1 ---- - -- - ii'iA-4- __ - - I TSUM". Ai on vanovich: SHCHITININA, Anna Ivanaynai kapitan dallnego plavaniya: SMO, G.S., red.; TIKHOROVA. Ye.A., takhn.red. LHautical instruments] Morekhodnys pribory i instrumenty. Isd.2., parer. i dop. Pod obahchal red. A.I.Shchotininol. Moskva, Isd-vo OKorskol transport.0 1960. 427 P. (Kim 14:3) (Nautical instruments)  G:' TUI'CTl I yr - .1 V, V.V., inzhener-sudovoditell Compensation of electromagnetic deviations by readings of an inclinator. Sudovozhdenie no.4:72-75 164. (MIRA, 18:31) 1. Kafedra sudovozhdeniya Leningradskogo vysshego inzhenernogo morBkogo, uchillahcha Imeni admirala Makarova.  NECHAYE"i, Favel Alokoandrovich; vaoilly~-'vlciij inzh.; V.V., ixti., rcLvnzent; KNIMMMO V.P.p dots., muchn, red, (1-lagnetlc compass] Magnitnu-kov.1--asme dolo. Mosk-.ra, Trans- port, 19U,.. 267 p. (IMILLA 16;3)  TUDIN, I.D., knnd.t9kbn.nauk; GRIGOHITIV, V.V. Experimental study of tho prozesa of unlerground gasification of coal. at the gas producer No.1 of the T%zhn;-j-Abinsknya gasification station "Podzemgas.' rv,.~-'2-24 157. (MIRA 10:11) 1. Vaesoyusn" n&uvhno-ias)-,1,-NvriLo' ' 41y I 7royektnyy institut podzemnoy gazif ikRtsii ugley ~f c~r lit ,i In' Tazhno-Abtnskaya stantniya, "Podzemgaz" (for Grig