SCIENTIFIC ABSTRACT GUSAK, YA.M. - GUSAKOV, V.N.

Document Type: 
Document Number (FOIA) /ESDN (CREST): 
CIA-RDP86-00513R000617520016-3
Release Decision: 
RIF
Original Classification: 
S
Document Page Count: 
99
Document Creation Date: 
November 2, 2016
Document Release Date: 
August 10, 2001
Sequence Number: 
16
Case Number: 
Publication Date: 
December 31, 1967
Content Type: 
SCIENTIFIC ABSTRACT
File: 
AttachmentSize
PDF icon CIA-RDP86-00513R000617520016-3.pdf3.98 MB
Body: 
L 366-54-~ ACCESSXON NR: AT5000925 S/0000/64!006/004/028710297 Y! EPA (blx) -2/W (1)1ZWA(h)1VdA Paa-4/Pf-4/Ps4/Peb ~DI%Fd~ 2qVUS c) AUTHORI i(i2sak, Ya. M.; Tsigel nik,.G d Qrs: of q-qp! TITLE: Investi ation of thermal'fatigue-of the bla eYnd rot 4 Ebines .14 :..,;SOURCF.: flauchnoye soveshchaniye po teplovym napryazheniyam it el6aentakh Icons I:ruk-- r ses in tsiy, 4th. Teplovyye-napryazheniya v elementakh konst uktaiy (Thermal stres! construction elements); doklady soveshchaniyaj no., 4. Kiev, 14 uk la dum a, t9e) k ~4, .287-297 je, 'TOPIC TAGS: gas turbine, centripetal gas turbine, turbine iotor,:t rbi e bla~-de, thermal fatigue, rotor design ABSTRACT: Even though attention is now being'paid.to . the t6rmati fatigue ot- ~allq'ys and metals, the designers of turbines are hampered in their ef forks' to ensure sug- ibus~tion chambers a3id 1ficient heat resistance of the blades, rotors, fire tubes, col iother important parts of gas turbines by the lack ofjtanLg~ Nests , preventing 4 'comparison of the work of different scientists. It is thereforeinecessary 16 de!:. :velcptaethods for estimatin a e!l of 4~ts by mode-Is and g the "structural he t resistand P iengine tests. Since models, as yet, cannot be compared witliactu;al conditions, the stand tests reported here were performed with'actual parts. :Principally',, the I.Card. 113 L 36654..65 iACCESSION UR: AT5000825 ast rotors 1problem was to determine the general picture oUthermal fatig6e of:!. in Ieasor, as~ centripetal gas turbines, incl in& 40 rotors of.the TKR-14 cu~~oco lp ;well as the location of crackAhe effect ofshape and cont.01ji of'61ades and'iotors Ion the rate of formation and,.development of cracks, and other1actars. The test conditions were similar to-working conditions. The tests indicated that centri- fuga,l loads on the rotor rim are relatively low, Cracks in Aie rotor appeared', as: a rule, at the.rim, being caused by peripheral:tensile streasps. Cnfler high tem- perature gradientg the rotors with a higher plasticity showed.high~crack resis6anc4. n1 e rotors warped, at first, at the rim between the blades,,Until figure eishis" were formed, with cracks arising at the sites with.the higMat deformation. Ra di-~ a-1- cracks appeared in the rotor very rapidly when there were thin!' -eims with I Iarge r !aifferencee in rim edge thickness. As a rule,,the cracks apP'e'are0;:,nt the back of' !the blMes, and always in the thin part of the rim. Recesse~:,Madei on the,rot:or 1'rim between the blades improved the heat. resistance of the rotor. Holes in 1.11 e ;;rotor itere found to concentrate stresses, causing pracks. Sharp c~banges in ri~tor, the drip. . Stress relaxa' ,rim thickness are very dangerous, as well as holes, n tion -a a s Ila ,'in the rotor (luring the high-temperature part of he cycle ai o c iu :es loweri: !of the heat resistance in the rotor. For each ~eoarate rotor', th4rd is a certain! ;optimal temperature of the rim. Metallographic nalysis indicateA that coarse- grain metals have lower heat resl-stance, with cracks formiPS at the.grain boUnd- t ',arieu. The disadvantages of centripetal gas turbines in.rlelation:to heat rd C * 2/3 ---- --- . -:. ~ ". 'Tr.M ; t 1. - , I ~ ; : ; --~ I , . ; , % . , I . . . ; - L 21650-66 EWT(d)/ZdT(m)/EW(W)/E7dP(f)/EPF(n)-2/94P(v)4~-2/grIP(k)VE;TC(m)-6 -,rYmm AGG NR: AP6006138 SOURCE CODEt URJO114/65/60 C AUTHORS: I Sbxqkql__I, T. (Academician AN UkrSSR)j J~ybanj Ye. P (Candidate of technical sciences); Stradomskiy, M. V. (Candidate of teohnioal sciences); G a (EngineerT1 -ZAtkol 3-y. -_N.; k4meqq NasyWllinA it A4 Ya.. M. A. -,-C-he2iskinap S. M. ORG: none TITLEz Development and investigation of the air cooling system for the high- p:ressure turbine rotor of OT-6-750 VZ SOURCE: Energomashinostroyeniye, no. 10, 1965# 22-25 TOPIC TAGSt turbine, turbine cooling, gas turbine, blade cooling/ GT-6-750 gas turbine ABSTRACT: In conjunction with the development of _ggs turbine GT-6-70 (initial gas temperature 7,LM~ pressu e 5.8 kg/cm2), several air cooling systems for the bigh-pressure turbine rotoSnere designed and tested at the Ural Turbine Faotory and Institute of W UkrSSR (Ural'skiy the 0 Institute tekhdiheskoy tqp-lofizW-AR-U1d~SR). The development of the final, Curdi/4 uDcs 623..438s62-7l.ool.5 L :21650-66 ACCA NR: AP6006138 cooling system shown in Fig. 1 is discussed and the temperature distributions at the blade roots and in the turbine wheel are graphically presented for cooling air flows of 0.9 and 0.73 kg/sec respectively (0.73 kg/sec represents 1.7% of the total gas flow)., The values of local cooling air pressure, temperature, flow rate) ani heat transfer coefficient at the 16 locations in Fig, 1 are tabulated, It was found that the cooling system maintained all metal temperatures below 410C (at 0-73 kg/sec) and calculations show that the cooling flow can be further raluced to o.4--o-45 kg/sec without dangerous temperatures, With such a cooling system, parlitic stools can be used with gas temperatures of up to 9000a The experiments confirmed the accuracy of previously proposed methods for calcuUting the cooling I system parmeters (Te, Pe Dybanp Inaledoyaniye sisten vozduohnogo akhlnzhdeniya rotorov gazovykh turbine Avtoreferat diesertataiia LPI in. M. 1. Kalinina, 1964)o i Card- -2/4 L 2165o-66 AM, NR: A] p i 7- F~7F7FT771 t 'M .1 -1 WIN 11 M" L.21650-66-1 ........ .. ...... AW NRI Ap6oo6i,38 Fig. 1. cooling systen for GT-6-750 gas turbirA rotore Orig. art, hass 1 table and 4- figuess. SU,B CODE j 21, 131 SUBM DATZs none/ ORIG RM 003 LC~,rd A ii .101 11 Ii I I v P IV, 4 L 20928-66_. EYtr(d)/E;'rf(l)/Ei-ir(m)/Et-jp(f)/T-2/ETC(m)-6 '01 ACC NR: AP60 02560 SOURCE CODE: UR/0286/65/000/023/0057/0057 AUTHORt Gusak. Ya, M. ORG t none. TITLE: Method for determining the forces acti the gr-' anz id of a turbacomessor for diesol supercharge. Class 42, No. 17671 ounced by Turbomotor Factory I 0 ? of Sverdlovsk Sovnwkhoz (Turbomotornyy zavod Sverdlovskogo sovnaril-o z--a)-/ SOURCE: Byulleten' izobreteniy i tovarnykh znakov, no. 23, 1965, 57 TOPIC TAGS: turbine compressor, supercharger, pressure measurement ABSTRACT: This Author Certificate presents a method for determining the forces acting on the grid of a turboc m essor for diesel supercharge. The method in- volves measurL4 the ressur5Wieprld in the flow behind the intake equipment of the t ne, and the au sequent harmonic analysis of this field. To facilitate the experimental m.-ocedure, the pressure field in the flow is measured with the. constant pressure in front of the turbine, equal to the average pressure in the actual flow. This is added to the pressure field in the diesel exhaust collector 1- according to'the sum-tion rule of two oscillations of the same frequency. ,E 2vl,, 131 SUBM DATE: 02Jan64 �UEI.COD. ACCESSION NR: AP4042861 5/0114/64/000/007/0011/0015 AUTHOR: Mokrushin, S. A. (Engineer); Guq,.ak,, Ya. M. (Engineer) TITLE: Calculation of temperature fields and stresses in a cooled rotor of a gas turbine during starting SOURCE: Energomashinostroyeniye, no. 7, 1964, 11-15 TOPIC TAGS: gas turbine, gas turbine rotor, rotor air cooling$ gas turbine cooling ABSTRACT: An approximate method for calculating unsteady temperature fields and stresses in a cooled or uncooled turbine rotor is proposed. The method leads to the evaluation of the influence of the air-cooling system (lateral heat transfer, cooling air blowing under the shroud of -the blades and through the mounting gaps of blade roots, etc.) , and also of the materials used (austenite or perlite steels) on the radial distribution of temperature and stresses in cross sections lying below the rotor's colla7r. The calculation results make possible the adequate selection of: 1) the cooling system; 2) suitable materi- 'als for rotor construction; and 3) the optimum starting time. in the bard 1 1/2 ACCESSION NR: AP4042861 ~case when it is limited by the starting stresses in the rotor. The proposed method was used in designing the gas turbine CT-6-750 unit of Ural Turbomotor Plant TM3. The rotors of this installation allow a comparatively quick start at normal operation of the cooling system. ,The author concludes that: 1) the rotor air-cooling system of the GT-6-750 turbine improves the starting characteristics of the turbine under various starting conditions and increases safety under steady and unsteady operating regimes; 2) perlite rotors are substantially superior to austenite rotors in respect to manufacturability, cost, and operating characteristics when the rotors are air cooled, ensuring allowable temperature levels of the metal; 3) with the application of the "Ural-l" computer it is possible to determine unstable tempera- .tures and stresses in turbine disks without'consuming too much time and labour. Orig. art. has: 7 figures and 2 formulas. ,ASSOCIATION: none SUBMITTED: 00 iSUB CODE: PR Carcl 2/2 ATD PRESS: 3071 ENCL: 00 NO REF SOV: 003 OTHER: 001 L 523illt-65 EPA/EM? (n) -21EPRIEWA (it) /EWP(k) /a4PW/3W1(m)/Ji,'0A (bb') 4/T;2/EWT. (b)/!~ ACCESSiOll HR: AP51,)11771 UR/60~6/65/0W/005/0=; 116 AUTHORS., Gusakv Ta. M, (Engineer) I Zatkovatskiy,, G. 11. iigind.ar) TITLE.- Seleation of materials for rotor ?a air-cooled eas tul.bizes SOURCE: Teploenergetika,, no. 5j 1965j, 32-36 TOPIC TAGS: &as turb-Inep -air cooled turbine, turbine rotor t (IT 6 150 9MId turbine, TVD r__ot_oi~__V-fZ-rotor, KhTZ rotor, T10'rotor, IML ~rotaj-,. EI a5 tteel R 21-1 pearlite steol,, .'31 612 stelelq El 802 steel., ETsVM Ural LL~Qinputer M_ ABSTRACT: The prc.ble design and selection of suitstble maldrials foi! i e construction of rotoralclof !h aM -750 `~tha ~Wrbine air cooled gas turbines s intended for use In superchargers for gas auppliaZv rd ,liscwj~w'fd. The tfjr0(%.. stage rotor TVD for this turbine was made of'h-4151 steel. The choice of thill material is intinately connected with the chi;fcaor the '~oollAg ~system, -governed by tho pick-up. conditions of the motort unfaty, and econimV. t;A nwber af:'mato- rials, including pearl'Ate and austenite steels ror:rotorm' of thl~ type u4z~ W.M., TIM, and NZL, ge lins flnputar found that for ut.-Passes corresponding to -114~hose in steel I - 6U.1 t.1he optiruil at'arting time vat; 30 minutes, In EI415 the stress was 35 3-ovor than thilt i-ft Card , ~ , : i. " I ~ : i I , ~ . . : ~ . . ~j j 11 j: , :: ~, :2~, ~ I ., I " - 1. :! " ; i I ~ ": i - i ~ ',:, 1 1 1 LAPPA, M.I.,.kand.t-ekhn.nauk.. doteent; GUSAK,.Ya.M., inzh.; SHOYKIIET, A.I., inzh. Vibration of high-speed gas turbine units. Energomashinostroenie 11 no.11:28-32 N 165, (,N9RA 18111) L 115340-66 UP(c) WW/EM c-c -N R __X -~=660M6 M R: Gusak, Ya. M. (Engineer); Taigel'nik, G. I. (Engineer) None FatigJ~ilure of centripetal gas turbine wheels SOURCE: Energomashinostroyeniye, no. 2, 1966, 18-21 TOPIC TAGS: gas turbine, fatigue test, mechanical fatigue, diesel engine, super- charger, blade vibration, turbine compressor ABSTRACT: The authors analyze reasons for blade failure in impulse turbines used in turbine compressors for supercharging diesels. These failures occur on test stands 'n factories as well as under operating conditions. The fatigue failure of the blades4f T'KR-23 and TKR-18 rotors is analyzed. The res~ios of the analysis show that fatigue is caused by the resonance vibration of bladesvar, the fundamental frequency where vibrations are set up by A~qnhomogeneous flow in the gas stream along the periphery and behind the turbine nozzlevring.,),~'Fatigue failure of blades on all turbine wheels studied begins at tET-d-ischarge edge of the blade. The thickness of the discharge edge must be greater than 1.2 mm to increase the vibration strength of the blades. The blades of impulse turbine wheels used in turbine compressors must be made to with- stand high frequencies. Resonance on frequencies which are 6 and 10 times the number Card 1/2 uDc: 621.438.001.5 ACC NR: I 0 j of rpm's presents the greatest danger as to fatigue for turbines with 4 inlets, while resonance on 5, 7, 9 and 11 times the number of rpm's is most harmful for turbines with 2 inlets. Besonance on harmonics above the 12th does not produce high dynamic stresses in blades as a rule. Orig. art. has: 4 figures, 1 table. SUB CODE: ;:V/ SUBM DATE: 00/ ORIG REF; 001/ OTH REF: 000 Card GUSAKOV, A.A., inzh. Methods of erecting the main building of a thermal ol9ctric plant and their efficiency in the context of assembly-line construction. Eiierg. stroi, no.26:3-8 161. (MIRA 15:7) 1. KharIkovskiy inzhonerno-stroiteltnyy institut. (Electric power plants) (Precast concrete construction) GUSAKOV, A.A., kand. tokhn. :. ;j". Means of raising thc effectiveneBs of capital. investments ty the continuous construction of the main buiMing of large heat and electrip"'power plants. Prom. stroi. 41 no.10.-17-23 0 163. (AURA 16.,Ia) I-c ~ ZJ - L"'4 'H ::;~ -1- GU ~'AKCV, A. 1). Mcnetar-y cir-ulation in RU3Si2 on the eve and during the nericA of October Sccialist Revolution Moskv;t, Gosfin-"zdat, 1946. 123 P. (52-2?669) HGi.o?4.G8? GUSAEOV, A.D., kand. ekon. nauk; *'TKHAYLOV, A.IL, tekhn. red. (Accelerating the turnover of working cipitall Uskorenie obo- rachivaemosti oborotrjykh sredstv. 14oskva, Gosplanizdat,, 1949. U2 p. OURA 15 - 4) 1. Akademiya nauk SSSR. Institut ekonomiki. (Capital) "IT'SAKU, 19722 GUS~KOV, A. 1". UskoT)Pniye oborar!hiv,,,,,!om,) ti oborotn.vkh tpmy)ovc;ot-,i,ili-,~ichp~--kovo - o!:nT)orizvodr,-.1-,0 L70br,,-bot. i don. F;tr-no,-rnwia dokiac.,- NA Nauch. ")espli Otoniye- ekortomiki i pnva Akad. NAM-' SS'-R q 1.4-Anta 1949 qj IzvestIva Akad. X" SSSR, Otc.niye ekonnm1ki i )r., vo, 1)"-9 ~70- 3. S. 169-87 SO: LFTOPISI ST!71'.Y, Vol. ~,?, "OSICV! 19L9 -- , , i,. . :- . ", , -, - ~, , ,,, ; I - Denezhnoe Obrashchenie i Kxedit SSSR (Monetary Circulation and Credit in the TYSSP)) 306 D., Goafinizdat and Moscow, 1951, C-XS;,*I'Cv) 1". D. ) ed. Vopr~osy ekonomiki sotsialisticheskogo promyshlennogo predpri-iatiia; s1bornik statei Z Problems on the economics of a Socialist industrial enterprise; collection of article2s. Vyp. 1. Moskva, Frofizdat, 1952. 519 1). SO: Monthly List of.Pussian Accessions, Vol. 7 No. 1 April 1954. GUSAKOV, A. D. (Frof.) IlMoney and its Functions in a Socialist Ecunoi%r," Finanqy i Kredit 35,311% N10. 4, 1954. SO: Translation-M-703, 23 Aug 1955. T) GUSAKOV.A.; DYMSHIT"",I.; SITNIN,V., redaktor; FILIPPOVA,R., redaktor; -F ' DENISOVA,O., tekhnicheskiy redaktor [Currency circulation and credit in the U.S.S.R.] Denezhnoe obrashchenie i kredit SSSR. Moskva, GoefinizdAt, 1955. 355 P. (Banks and banking) (Credit) (Money) (M1RA 9:2) U, U04" KOVI - . f, p. - -. " ~ ~) -. ~- -A - - , - -,:, ?,.- -.-, - V.--. i*-nir nnd th-~ construction oi- Den. i i:r-r,d. 15 no.7-9-19 JI ' ", 7. ( :--entn, Vladimir Il'ich, (I'orey) thn 6ovi,~t zonetary sys%ev. O'I'Vt 10:P.'f I G-USMOV. Aleksandr Dmitriyevich: LABAZOV, Vasiliy Ivanovich; MSHNIKOV, Mefodiy Nsumovich. Prinimal uchastiye DIRSHITS, I.A. Cdeceaaedl. BATYREV, V., otv.red.; NADEZOINA, A., red.izd-va; NUGINA. T., teldin.red. TC)irrency circulation and credit in the U.S.S.R.] Denezhnoe obrashchenis i kredit SSSR. MoBkva, Gosfinindat, 1960. 304 (MIRA 14:350 (Finance) IKONNINOV,VV., prof, PrinimaU uchastiye: GUSAKOV,_A,~P., prof.; SHENGER, Yu.Te., prof.; BATYREV, V.M., doktor skon. nauk; KAZANTSEV, A.I., dotB.; BUZYREV, V.M., prof.; BYSTROV, F.P., prof.; NADEZHDTNA, A., red.; POGODIN, Yu., red.; TELEGINA, T., tekhn. red. (monetary circulation and credit in the TJ.S.S.R.]Denazhnos ob- rashchenie i kredit SSSR. Kol-lektiv avtorov pod rukovodstvom V.Ikonnikova. Moskva, Gosfinizdat, 1962. 470 p. (MIRA 16:1) (money) (Credit) GUSAKOV, A.F.; RADZIVILOV, Ye.N. wvqov~ Demonstration of the achievement@ of the Soviet instrument Industry at the All-Union industrial exhibition. Priborostroenie no.9:1-6 S 156. (MLRA 9:10) (Measuring instruments-fthibitions) "Conference on Experimental Techniques and Methods in Higll-Tem- perature Research," by A. F. Gusakov, Priborostroyenlye, Ito 10, Oct 56, pp 26-27 A conference on experimental methods and techniques in higi--temper- attire research was held 26-30 June 1956 at the Institute of Metallurgy iinvni Baykov, Academy of Sciences USSR. Sum 1239 4.--, The LPr-54 explesioaproof logometer. Priborestrataio no.2.-23-24 7 t57. Ociectric instruments) (KUU 10:4) AUTHOR: TITLE: PERIODICAL: Gusakov, A.F. 115-5-191/44 Materials for Planning a Pyrometer Test Laboratory (Materialy kprayektirovaniyu poverochnoy pirometricheskoy laboratorii) "Izmeritellnaya Tekhnika", 1957, No 5, Sep-Oct, PP 39-42 (USSR) ABSTRACT: This article gives recommendations for planning test labor- atories for pyrometers, which will be organized within the special "workshops of testing and measuring instruments and automatic equipment"(tsekh KIP i avtomatiki). These special workshops are presently being orpnized at industrial plants having large quantities of instruments and measuring devices. The author has utilized materials of a project bureau of the former MPSA. He thinks that his recommendations can be of use for certain organizations and industrial plants. The article contains two charts.from which the necessary equip- ment for a laboratory may be chosen, and the number of differ- ent kinds of instruments may be determined. The charts list the equipment items complete with their technical character- istics and the names of producer plants. It further states the mean annual work in man-hours required for checking of single instruments. Recommendations are also given concern- Card 1/2 ing the general conditions in laboratory premises (no sun- Materials for Planning a Pyrometer Test Laboratory 115-5-19/44 light, no machines causing vibrations, eQ. There are 3 charts. AVAILABLE: Library of Congress Card 2/2 )MRSHAIKJJI, Georgly Aleksandrovich; iazh., retoenzent; VECEIARSKIY, P.A., dots, retsentent; KRUGIA)VA, G.I., red.; GROYSHED, Ye.A.. tekhn.red. [Nngineering equipment for confectioner7 production] Takhaologi- chaskoe oboradovania konditerskogo proizvodstva. Moskva, Pishche- promisdat. 195?. 571 P- (MIRA 11:2) (Confectionery-Squipment and supplies) GUSAKOV, Aj.~ Socialist ,~ompstition in enterprises of the confectionery Industry of the Russian Soviet Yederative Socialist Republic. Xhleb. i kond, pTom. l.nQ.5z-!-3,NY 157. (NLU lot 6) 1. Glaynoye upravlsnlye'ionditsrsklo~ prouqahlennosti RSYSR. (Confectionery LUN3 v Oleg Grigorlyevicht k&a.tokhn.naukj SMOLYANITSM v Hoisay Isfimavicht inshol CIUSAMp Aslot insh,,p retsenzant; IRUGLOVAt G,Lq red,j KISINAp Tool.# tokbn.red. [Gontinuous production lineo for oonfectioneries] Fotocbmyo linii proizvodetva konditerskikh isdo3li, Noskvaq Pishchoprom- isdat, 1961. 160 p. (MIRA 14aQ (Confectionery) AYDETEVA, A.Y., doktor tekhn.nauk; AIJOBIN, S.F., inzh.; ALTUNDMI, K.S., inzh.; BROIISffETN, I.I., kqnd.khim.nnuY; BRUS11TH'T11, M.S,; GRIGORITEY, Y.B., inzh.; EDUMHOTA, T.Y., inzh.; ISTOMINA, H.H., kand.tekhn.nouk; KOZLOV, S.A., Inzh.; KCLESNIKOTA, Y.K., inzh.; KOCBMOT, I.A., inzh.; LUNIN, O.G., kand.tekhn.nauk; MANNINA, T.-A., inzh.; SJORMTAKOV, M.N., inzh.; SHOLTANITSKIT, Me., inzh.; TTURIN, A.I., kand.tekhn.nauk; TSTBULtSKIT, A.A., inzh.; GHBIUIOIYANIIIK, A.Ta., inzhi; SHKLOVSKATA, A.Te., inzh.; BZHI, G.M., inzh., retsenzent; HARSHALKIN, G.A., kand.tekhn.nauk, retsen7.ent- GTISAKOT, A-J., red.-, HARTTNOY, M.I., kanditekhn.nauk, rod.; UWGLOTA, G.I.. reno; AISINA, Te.1se tekhnorede [Confectioneris manual] Spravochnik konditera. Pod obahchei red. X.1. Martynova. Moskva, Pishchepromizdat. Ft.2.[Technalogical equipment of the confectionery industry] Tekhnologicheskoe oborudovanie konditersko- go proizvodatva. 1960. 630 P. (mm 14:3) (Confectionery-3quipment and supplies) 1~1 1 1-1-1--.- " ZHUHAVLETA, Yekaterina Ivanovna, kand. tekhn.nauk; F011-thKOV, Sargey Ivanovich; TOKAREV, Lev Illich.; RAKINANOVA, Lsoniya Georgiyevna; GUSAKGV-y--AI-..,,- inzb.v retsonzent; ORLOVA, O.S.J. retsenzent-,~-W~GLOVA, G.I.j, red.; SOKOLOVA, I.A., tekhil- red. [Technology of confectionery]Tekhnologiin konditerslcogo pro- izvodstva. Pod obshchei red. E.I.Zhuravlevoi. Moskma, Pi- shcliepromizdat, 1962. 41j2- p. WIRA 15 - 12) (Confectionery) L 2 '?'317-6~~ L";;' "11)(M I fr'lp I,-, i_~3r~ I- __ ACC NR! klllk~o6757 SOURCE CODE: UR/3158/65/wo/o27/'000i/ool7~-:~ j'~UUIOR: 1~,~pko.LV. Ya.; Petr(rajkiy, V. G.; DmitriyT_~? '!. M. ; Yuryev, Yu. S. ......... - - - ORG; Physics and Power Institute, State Committee on the Use of Atomic Energy SSSH (Fiz iko-energet kiy instilut; Gosuda vemn-y-ko-RItei po Npollzov u atcanoy energii SSSR) TITLE; Certain problems in the development of a tbermionic emission reactortonvertex SOURCE: Obninsk. Fiziko-energeticheakiy institut. Doklacbr, no. V.. 1965. Nekoto- ryye problemy razrabotki termoemissionnogo reaktora-pre6brazovatelyn., 1-17 TOPIC 1AGS: thermoelectric convertor) neutron physics) nucleux reactor, volt wapere characteristic ABSTRACT: This is a review article dealing with several )neutron-plrjaics and engineer ing prcblems connected with the development of a thermiohic converter in which heat energy is converted into electricity by using an electron emitter in contact with the fissiorting material of a nuclear reactor. The first section of the paper deals with possible neutron-physics characteristics of such reactors, such as-the use of,fast or slow neutrons in the reactor, the dependence of the U-235 chaxge and the volume of the active zone of thermionic reactors on the concentration of the uranium in the active zones for different thicknesses of the beryllium reflector and for different cathode materials, the distribution of the energy release over the active zone., the Cord 1/12 L 24317-66 ACC NR: AT6oo67.57 degree of burnup) the dimensions of the active zoney the critical reactor load) and the type and amount of moderator. The second section deals with thermodynamic and electrical engineering problems involved in such a corrverter, such as losses, thermal efficiency, conversion efficiency) volt-ampere characteristicsp and methods of minim- izing the losses. The third section presents the results of reactor tests of three- element assemblies of thermionic converters, made in the loop ebannal of the reactor of the first atomic electric stations of the GSSR. Tests were made on different fuel rods both under diffusion and are-discharge conditions. For the particular reactor --- tested, the losses amounted to 12% of the theoretical output power for ohmic electrode resistance and commutation; 10% for heat leakage from the cathode, and 5% due to the axial inhomogeneity of the heat.release in the assembly. This reduces the theoretical power rating of 2.7-3 w/cm2 to a value of 2 w/cm2. Orig. art. Mai figures. SUB CODE:/J20/ ORIG REP: 002/, OTH REF: 004 4 Sam OnTe". T PSTLYAFOV, inzb.; SHAPOVALOV, A..','., inzh.; GUSAFOV, A.R., Inzh.; UL)OVIGHiMiKO, N,V., invh.; BESPALOV, V.11,)---in~h.; D.K., irz?;, Obtaining a flat sheet of transformer steel. Stu!' 25 no.12: 1132-1134 D 165. (?dfl?A 18:12) 1. Novollpetskiy metallurgicheskiy zavod i TSentral.Inyy nauchno- isSledovatellskiy institut chernoy metallurgii. iineni I.P. Bardiria. GUSAKOV, B. Economical advantages of centralizing equipment. He stroi. Ros- no.l. 12-14 Ja 163. (~aU 1W~ 1. Glavnyy inzh. tresta. Po mekhanizateii stroitelinAh rabot Glavatroy mokharxizatsii Ministerstva stroitelletva SSSR (Novosibirsk). (Novosibirsk Province-Construction equipment) I :iODIONOV, L,V..; F.S.; PRYtZHJVSVfY, T.Y.; ~jjll!.~,P&Qy ~. 1. , L 1. Machine for the working of fr..:,zbn Fround. Gor,zhur. nc),?,?'14 ja 165. (%,'iIRA 18:3) GUSAKOV, B.V., inzh. Automatic tightening of dowel pins. Mekh. i avtom.proizv. 19 no.2:10-12 F 165. (MIRA 18:3) J438*1 S/539/61/000/032/007/017 D202/D301 AUTNORS,, Khomyakov, V.Q,,, Gusakovq D..Ya.. and Podberezina, A.S. TJTIX, Electrochemical synthesis of hexamethylt-ne diamint SOUTZCE'-~ Moscow. 1(himiko-telihnologichaskiy inetitut, Trudy, no. 3?, 1961,. 1t;sledovaniya v oblasti Plelitrokhminii.,, 1-11-1-16 TEXT-. The subject of this experim 'ental work was tD find out. qlantitat--.re data for electrolysis conditions which influence thp-- yield of hexame-thy- lene diamine (HMD) from adipodinitrile as the starting material. The authors used adipodinitrile solutions in HCl as the electrolyte amd spongy nickel deposit as the cathode. The reduction of adipodinitrile to IM proceeds according to the scheme.-. CN - (CH ) t. - V 2 4 - CN i 8 If + BF NH (CH,'; NH')Q Small amounts of E-aminocaprowitriLe and hexamethylene 2 ~ - im~ne were found in the reaction productb which proved that the reductior, of adipedinitrile proceeds in stages. The auth,;rs investigated th-P effegts 1) of adipodinitrile con.cen.tration; 2) of IfC! concenlration; Card 1/3 S/539/61 1/000/032/007/0 17 Electrochemical synthesis D202./D301 3) cf temperature-, 4) of the amount of electricity us~-!. 1) '4i-th ris.,.Pg adipodini"rile content from 50 to 100 g/,~ the rate of its roduction was markedly increased, the formation of side-preducts increasing to a much lesser extew';, 2) With the rise of IJCI concentration the y,.'!ld of IDID decreased; fliereforaq in further experiments ]10-11.4"1" IICI Solutions wer6 used~ 3 The rise in temperature from 20 I'D 35 C. C has an ortfavorable effect. 4) The effect of electricity consumption ivas studied on 2 solli- tions of 97 g/f of adipodinitrile in 101A HCI with r.,d. 10 a/dM , at 200C, %vith electri-city consumption from 50 to 1501ia' of th-t thssoreti-~-ally noeded (81P/mol]). The authors found that the slectri~-i!y consumps."on or. the/ summEu'y reductO.)n process decreased steadily with decreas-ng reagent ron- !:;eniration, when the energy consumption wau equall. to tile ;heqr(-A-i::.a!.') tile y1eld of HMD was about, 60% both in respect. to tile ~urrapl and to the agent, beIng equal to 43yo and 67% resper-tively when U50% of tbeorelical energy amoun!~ was used. The authors state that E-am?.nW,,lpronj:I--'Ie frafl- tion may be re-used Ar, further pro-:,esses; ~,n th-is was tile total IDID yi~~-Id may be increased by about 101/6; that the studied method of IND .3ynthL44is ~~%i much simpler than the chemical one; that by th.is niethod ch'.orine is pTo- duced as a by-product vo the amount of v- 6 tons pey Ion of MID, Full Card 2/3 S/539/61/000/032/007/017 Electrochemical synthesis D202/0301 experimental details are given as well as details of the results obtained. There are 6 figures, I table and 9 references: I Soviet-blot and 8 non- Soviet-bloc. The 4 most recent references to the English-language pub". lications read as followst P.B. Janardhanan, J.Sci.Ind. Research (India) 12B, 183 (1953); K. Oqura, Memoirs Coll. Science (Kyoto Imp. Univ.) Ser. Aj 12, 339 (1929); Fumikazu Kawamura, Shigetaka Suzuki, J, Chem. 6oc, Japan, Ind.. Chem. Sect. 55, 476, (1952); Masaku Ohta, J. Chem. Soc, Japan, 637 1762, (1942). Card 3/3 x:OTLYAROT, Stepan Ivanovich; SHELUDCHIMO, Veeiliy Yevotaf lyevich; G~UOVN x-!yawoyj.0.j GRISHkTXM, K. I., otvetatvennv7 red.; GennadjZ IMV5UY-A, A.A., takhn. red.; FROSOROVSKAYA, Y.L., tekhn. red. [Practical work In ventilation, lighting, and mine rescue oper- ations] Frakticheakle raboty po*ventillatail, osveahcheniiu I gornoupasatellnomu delu. Moskva, UgletekhIsdat. 1958. 248 p. Nine ventilation) (Mine rescue work) (Mine lighting) (HIU 11:9) _4A Ptirrtri I /Ptgrtm) /FF:tqVP(- NN AP5626t66 jp/wj SOURCE CODE: 11R/0286/65/ooo/oj7/oo48/0o48.*; INVENTOR: Roshchin, V. V.; Grinenko, V. I.; Gusakov, G. I.; Frolov, Yu. M.; Novikov, V. I.; Turkov, 1. 1. 77, ORG: none 4 TITLE: Method of automatic TIG welding of fixed tube joints. Class 21, No. 174299 SOURCE: Byulleten' izobreteniy i tovarnykh znakov, no. 1'(, 1965, 118 TOPIC TAGS: welding, metal welding, TIG welding, automatic WIlding. ABSTRACT: This Author Certificate introduces a method of automatic TiG welding of fixed joints of pipes of any thickness. The welding is done with the electrode vi- brating across the groove according to a program determined by the torch motion. Fil- ler wire is fed at the moment when the electrode crosses it. A modified method, in which the direction of welding is reversed after each pass ir, accordance vith the pro- gram and the filler wire is fed correspondingly from two sides, is mentioned. INS] SUB CODE: 13/ SUBM DATE: i3may64/ ATD PRESS: 4F Gu~"'.KCNI G. V. C"c')AY107Y G. 'V.: "To-.0gra--hical. amato-my, of t'he fronLal ,n,' max~llriry mnii~'rs of Cattle, and in thrm In mritcrrit.y !~ml A _le!,.;y, !~,jj TT.-,'Ii:l- 1~.'~Jjjentl--n U':T. Clha-r of Mct~;cow, 1955. 1bsoow VeterinL.1-V Ica, - I ... , 0'0 1 . .4 Crterative Suargery and To!~ofrrar,~~ica2 Lnutomy. (DL-,sertation for the Derree. of Candidate of Veterinary Sciences) SO: KaulmayS, klo Na. 4", IP N(-,vcmb-r 195-5. ocow - GUSAKOV, G.V., assistent. Rinoing tho nasolacrymal duct in cnttle. Vaterinariia 32 no.8; 66-68 Ag '55. (MIRA 8:10) 1..Kafedra op.~rativnoy khirurgil Voskovskoy veterinarnoy akademii. (CATTLE--DISEASES) (NOSE) USSR/Farm, - Large Horned Cat'.-Ile. Abs Jour Ref Zhur - Biol., No 13, 1958, 83323 Gusa, Author kov, G#V* In8t Moscov Academy of Vcterinaz-y 1-1edicine. Title : Topo,~raphic kintomy of tho Abdominal Wall in Lnr~;c Ilort~cd Cattle. Orig Pub : Tr. Mosk. vet. akad., 1956, 10, 120-129. Abstract : ;~ layer by layer description ks supplied of aliatony of the abdominal wnll. The first layer Of and subdermal cellula:: tissue; the second layer is formed by surface fascia which encloses the larGe srb- dermal muscle; the third layer consists of the obliqirus ab~oLiinis externus muscle; tho founth layer consists of the obliquus internus miscle (as compared to ho:~sco in whora this rauscle has a supplt~mentary crus which covcz-j the Cand 1/2 MAMI USSR/Farm Imimals - Large Horned Cattle. Abs Jour Rof Zhur - Biol., No 18, 1958, 83323 .1-2 hunger cavity); the f'i -Ith layer is represented by tho rectus r~bdorjinis muscle; ancl the sixth layer by the crmis- versus --bdominis musb1c. Between the layers, in the s-.=Qs of connective tissuc purulent necrotic masses can mvc -freely. -- A.V. Belousov Card 2/2 GUSAKOV, I.A. Group wage system for train-making-up brigades without special work assignment. Zhel.dor.transp. 46 no.12: 70 D 164. (MIRA lgtl) 1. Nachallnik otdela truda, zarabotnoy platy i tekhniki bezopasnosti Krasnodarskogo otdeleniya Severo-Kavkazskoy dorogi. PiTKO V. Ya. ; MLAUYKI, V. A. : GUS;, IKOV T. 1',j. : V. T'. : *11". 1,% ; Yu. S. I - - ~ -)~ -- - -- ) I YUR IYEV) "Some problems in the development of a thermionic rusearch --onverter. " report to be presented at Inti Conf on Thc!rmionic Ele(,,tri-fd- Fower Generation, London, 20-24 Sep 65. USSR "'tate Comn for AplAications of Atomi~-: Enorgry, rv!o2,!ow. GOLUMTSEV) A.14. LHolubtmatsev, (rlyvv); OSACI'V, !.Z. (Husakov, I.Z.] (Kiy,--v) D~niwalc damping of free Tibr,,Ltlons. "rykI. mekh. 10 no.20A-2P8 1. (A NLRA 17t7) 1. Irstttut mekhaniki AN Ukrl~,R. REBROV, A.S., inzh. [deceased]; USFE"ISKIY, V.P., inzh.; PLESITKOV, D.I., kand. tekhn. nauk; BELE111KIY, V.I., inzh.; 13ERNADSKIY, G.I., inzh.; VALUTSKIY, I.I., inzh.; BAZANOV, A.F., kand,, tekhn. nauk; KOGAN, I.Ya., kand. tekhri. nauk; RATNER, A.I.; VOROBtYE;V, A.A., inzh.; BALR-Z, V.A., kand. tekhn. nauk; NOSENKO, N.Ye., kand. takhn. nauk; FOK111, M.V., inzh. [deceased]; VINOGRADOV, G.V.~ iw4h.; G~qg~qY, inzh.; STJDAhOVICH, D.I., inzh.; Prinimali uchastiye: SIGALI,Ya.Ye., inzh.; TITOV, M.A., inzh.; OGIYF~ICH, V.Ya..' kand. tekhn. nauk; ZIMIN, P.A., kand. tekhn. nauk, retsenzent; LAPIRI F.A.j inzh., retsenzent; PETROV, NJI-, kand. tekbn. nauk, retsenzent; RYAKHIN, V.A., kand. tekhn. nauk, retsen- zent; KHOLIN, N.A., inzh., retsenzent [Construction machinery; a reference manual] Stroiteltriye mashiny; spravochnik. Izd.3., perer. i dop. Moskva, Ma- shinostroenie.. 1965. 788 p. (,-IIR-k 18:6) 2.1, . Oj()OO AUT11ORS: Fr()11W";'yev'V. P., Gmalkov, M. Y11. TITLE: Tfterrmi Conductivity of' Some Organic L"(1-ii,J!; PERIODICAL: Zhurnal teklinichuskoY Ciziki, 195), Vol I'll' 10, I)P l2Y7-12`3); (USSR) ABSTRAM The paper gives results of thermal conduct.lv.lLy of, organic liquids. The following liquid.,; wure benzew.-, toluene, xylene, chlorobenzene, nitrobenzene, arillin, carbon tetrachloride, ethyl alcohol, acetone, acetic acid., hexane, heptane, octane, nonane, dichloroethane, dioxan, (_-yclo1'Lexanonc,, and benzyl alcohol. All liquids were chf--mically [mr(_-. Mea s - urements were made by the optical. muthorl duv,:~lop(--d by loffe, A. F., and described in Ref 1 (Phys. Zs. d. Sovic-t,-Unior, ~_,2,191, 19--~10 J The accuracy of the method is +0.5%. The result.,; of measureirvints are given in tables where they are compared with obtainQ-,.l by other investigators. The agreement of thr- tlicn-vial confluctivity values obtained by the authors with thor;~' 01)t,r.Lirif~l by othccs i,; Card 1/2 very good, varying from -0.5% to +1J'!j. 1.1 io Thermal Conductivity o.0 Some Organic IJ(juids ASSOCIATION: SUBMI'.ffi-ED: Ca rd 2/ f"I benzene , toluene, nitrobenzQtie, JLCz~"Urle, 1-0,M0 - benzene, and carbon tetrachloridc may be u5t.'i' I.,; 0!:an~1a."d 1"I'llids for calibration of apparatus einplop~d for 0' Lll~-'rmal conductivity of organic liquids. Grnatlitud'-~ I.,; "o Prof. Golubkov, P. V. , L'or Ili.,; advic('.. Thei-2 L:; I n, I 2r) referellcQs' 15 Soviet, 1. DuLch, it Gul-m-un, 'I, U.J.. The most recent U.S. and British references are., Brfr gs Ind. Fng. Chorn.. , 49 ~ Nr 3, 4 18, 1("157: Chu I r, ji, PI-111., Froc. Roy. '~nc., ii, .i:, Davies, S. J. 4'0-1. Cheiii., AT/ 10r); 7a~on"'"R. L_ Ti-ans;.. Amer, S'oc. Vech. /(.)Y ~317' 'Lakja7lj:-i,~ C., and Coatea., J.? j. ic%cr. Inst. Chem. Eln.,-., 1, '~17_5, lcjf~~. 11 1~m. N.G. Chernyshev,;kiy gosudarstvennyy universitet im-,:n! U. G. July 7, 1953 GUSAKOV, M.Ya.; GUSEV, V.K. Delustring of capron fiber. Khim.volok. no.3:28 162. (MIRA 16:2) 1. Engellsskiy zavod. (Nylon) !PWO 3/081/62/000/009/007/07" B177/BI38 AUTEORS: Fron tao I yev, V. P. , Gusakov %'I T17LE: New data on the thermal conductivity of 22 organic liquids PERIODICAL: Referativnyy zhurnal. Khimiya, no. 9, 196ip 44, abstract 9B278 (Uch. zap. Saratovsk. un-t~, !,y. 69, 1960, 237-256) "~T: A of a number of liquid ,.Z,. The thermal conductivity q, was measured with an accuracy of 5,;, usinG apparatug previously described (RZhKhim., no. 6, 1957, 16491). The value of t,-lv (in cal/cm-sec-deg) was found to be: for benzene 347, toluene 325, o-xylene 316, m-xylene ~14-319, chloro- benzene 305, bromobenzene 272, nitrobenzene 360, aniline 406, carbon tetrachloride 25,71 dichloraethane 331, cyclohexanone 353, ethyl alcohol 382, dioxane 36a, acetone 386, acetic acid 379, n-hexane 299, n-heptane 510, n-octane 319, isooctane 244 and n-nonane 329. [Abstracter's note: Complete translation.j Card 1/1 GUSAKOV, N.D. Determining the productivity of low resistancia,aand reaervoir rocks. Geol. nefti i gaza 5 no.4243-45 Ap '161. (MIRA 144) 1. Ozek-Suatskaya promyslavo-geofizicheskaya ekspeditsiya. (Oil aands) . lj,.Cl,-%Y, ~x... N.D. Uso of inicrologiing (IaLa for expo~-dnf,, fi~:-,,urwi ar-aL in well cross sections. Fazved. i prom. geofiz. no.50:84-V '(3- WIRA 18:3) ITLECHAY9 A.14.,~, GTISMOV, N,D~ Estimation of the oil-and ps-bearing capacity of clayey Bandstunezi, Fa7ved, geofiz. no.1%79-911 t64. (KIRA 180) GUSAKOV, S.F., inzboner; VAYOGANT, A.S., inzhener. Earthwork under cold weather conditions. Strol. prom. )4 no.9: 7-10 S '56. (IqLRA 9:10) (F.arthwork--Cold weather conditions) (Frozen ground) GUS&KOV, S.F., inzh., red.; PSTROVA, V.V.,'red.izd-va; RYAZANOV, P.Ye., ---te Oi~.-re d. [Technical requirements for building and accepting pipelines] Tekhnicheskie usloviia no proizvodetvo i priesku robot po ustroistvu magistralinykh truboprovodoy 61 83-60. Moskva. Gos.izd-vo lit-ry po stroit., arkhit. i stroit.materialam, 1960. 77 P. 04IRA 13:9) 1. Russia (1923- U.S.S.R.) Gosudaratvennyy komitet po delam stroitellatva. (Pipelines) GUSAKOV, S.F., inzh.., red. - ---------------, (Temporary technical instructions for installing gas mains of asbestos-cement pipes with a pressure up to 5 kg/cm2 outside of cities, inhabited places, and industrial enterprises] Vremennye tekhnicheskie ukazaniia na proizvodstvo i priemku rabot po sooruzheniiu magistralInykh gazoprovddov iz 8-4 bestotsementnykh trub s rabochim davleniem do 5 kg/sm Vne gorodov, naselennykh punktov i prou7shlezuWkh predpriiatii S11 184-61. Utverzbdeny Gosudarstvennym komitetom Soveta Ministrov SSSR po delam stroitel'stva 26 avgusta 1961. Mosk-va, Gos. izd--vo lit-ry po stroit., arkhit. i stroit. materialam, 1961. 22 p. (MIRA 15:3) 1. Russia (1923- U.S.S.R.) Gosudarstvermyy komitet po delam. stroitellstva. (Pipe, Asbestos--Cement) GUSAKOV E.F. L inzh., red.; liTMA, G.A., red.izd-va; TRIKINA, Ye.L., tekhn:'red. (Temporary technical instructions SN 185-61 for carrying out and inspec+V.ng the construction of experimental sections of under- ground gas pipelines made of asbestos-cement pipe in urban areas. Settlements, and industrial enterprise.-, with a working pressure of up to 0.5 kg/cm2l Vremennye tekhnicheskie ukazaniia na proiz- vodstvo i priemku rabot po sooruzheniiu opytno-ekspluatatsionnykh uchastkov podzer.rykh gazoprovodov iz asbestotsementnykh trub, na territorii gorodov, naselennykh punktov i prouOrshlennyl-Ii pred- priiatii s rabochim davlenien. do 0,5 k91sm'. (SN 185-61). Mo- skva, Cos. izd-vo lit-ry po stroit., arkhit. i stroit. materialan, 1961. 31 p. WIRA 15:5) 1. Russia (1923- U.S.S.R.) Gosudarstvennyv komitet po delam stroitel'stva. (Gas, Natural-Pipelines) (Pipe, Asbestos--Cement) GUSAKOV, inzh... red.; IFTINKA, G.A., red. izd-va; ITYKINA, Ye.L., tekh~. red. (Technical specifications on the production and approval of work in constructing gas networks in cities, popylated places, and industrial enterprises] Tekhnicheskie usloviia na proizvodstvo i priemku rabot po ustroistvu gazovykh setei gorodov, naselen- nykh punktov i promyshlennykh predpriiatii (SN 117-60), Moskva, Gosetroiizdat, 1961. 86 p. (MIRA 15:5) 1. Russia (1927- U.S.S.R.) Gosudarstvenmyy komitet po delam stroitelistva. (Gas distribution) (Gas pipes) inzh. I GUSAKOV, S.F.2- ., red..; IFTINKA, G.A., red. izd-va; GOLIBERG, T.M., ---tekE. red, (Technical specifications SN 161-61 for installing and inspecting exterior water supply and sewerage pipes] Tekhaicheskie ukazaniia na proizvodstvo i priemku rabot po ustroistvu naruzlmykh trubopro- v6dov vodosnabzheniia i kanalizatsil; MI 171-61. Utverzhdeny 13 marts, 1961 g. Moskvap Gos. izd-vo lit-ry po stroit.., arkhit.i stroit. materialam, 1961. 93 p. (MIRA 14: 11) 1. Russia (1923- U.S.S,R.) GosudaretvemW konitet po delam stroitellstva. (Water pipes) (sewer pipe) GUSAKOV, S.F., inzh., red.; FETHOGA, V.V,, red. izd-va; SHERSTNEVA, N.V., tekhn. red. [Instructions 91 195-61 for laying delivery conduits of out- door water-supply systems made of asbestos-cement pipes] In- struktsiia po prokladke naporrqkh truboprovodov vneshnikh vo- doprovodrqkh setei iz asbestoteementrqkh trub (SN 195-61). Mo- skva, Gosstroiizdat, 1962. 34 p. (MIRA 15:7) 1. Russia (1923- U.S.S.R.) GosudarstvenrVy komitet po delam stroiteltstva. (Water pipes) (Pipe, Asbestos-Cement) GIJSAKOV~ SF TY-A, G.A., red. izd-va; SHERSTIJOIA, inzh., red.; IITT II.V.2 tekhn. red. [Technical specifications SN 161-61 for installing and inspect- ing the installation of outdoor water-supply and sewer pipelines] Tekhnicheskie ukazaniia na proizvodstvo i priemku rabot po ustroistvu naruzIurkh truboprovodov vodosnabzheniia i kanali- zatsii (S4 161-61). 2. izd. Moskva, Gosstroiizdat 1962. 91 p. 41MA 15-7) 1. Russia (1923- U.S.S.R.) Gosudarstvenrryy komitet po delm stroitel'stva. (Water pipes) (Sewerage) SALUKV, ADZE, , Viktor Sam nauclmry red.; j sonovich; -g SAFONOV, P.V,, red.izd-va; RUDIYOVA, ll~I.; teklm. red. (Consti-action of main pipelines]Sooruzhenie magistrallnykh truboprovodov. 1--loskval Gosstroiizdat, 1962. 246 p. (MIRA 15:12) (PipollneB) GLJS-AKOY, S.F.,.inzh., red.; SHAPIRO, L.L., kand. teklin. nauk,, red.; YAKOVIEV, G.A.j inzh.p red.; KOMUROV, V.A., inzh., red. [Construction specifications and regulations] Stroitellnyo normy i pravila. Moskva., Gosstroiizdat. Pt.3. Sec.G. ch.7. [Gaz supply: Outdoor systems and installations; regulations for the organization, performance and acceptance of work-) Gazosnabzhenie: Nanlzhrqe seti i sooruzhenila; pravila or- ganizatsii i proizvodstva rabot, priemka v ekspluatatsiiu (SNiP III-G. 7-62). 1963. 31 P. (MIRA 17; 3) 1. Russia (1923- U.S.S.R.) Gosudarstvennyy komitet p o delam stroitel'stva. 2. Gosstroy SSSR (for Gusakov). 3. Mezhduve- domstvennaya korissiya po peresmotru Stroitellnykh norm i pravil (for gbafftp).- 4. Saratovskiy gosudex- -i'sledovatellskiy i proyektnyy institut po stvenrjyy nauchno- S ispoltzovaniyu gaza v narodnom khozyaystve (for Yakovlev, Komayurov). t L GUSAKOV S.F., inzh., i-ed.; [GoniiLrilction rogli-Int:iorin-it nornV i pravila. Moskva, Stroiizdat... Pt.2. Sec.D. c..6. (Automobile roads of industrial enterprises; design steandardsi Avtomobillriye dorogi Promyshlennykh uredpriiatij-, norw rr,-- ektirovaniia (,SMiP 11-D. 6-62). 1964. 36 p. (Vl-~A '17 w 7) 1. Russia (1923- U.&S.R.) Gos1-,dar.9tveruXry k~iiidtet ;:o c2elam stroitellstva. 2. Gosstroy SSSR (for Gusakov~. 3. Vs-3soyuznyy proyekt-nyy i nauchno-issledovatellskiy ins-Utui. p,,-omyshlennog') transporta Gosstroya sssa (for Baranov). GUSAKOV) S.F., insh., red.; GELIMIAN, A.S., inzh., red.; KLIMOVA, red.izd-va; RODIONOVA, V.M., tekhn. red. [Construction specifications and regulation5l Stroitellrqe normy i pravila. F;oskva, Gosstroiizdat. Pt.2. Sec.D. ch.2.[Railroad gage of 1524 =. for industrial enterprises; deisgn specifications] Zheleznye dorogi kolei 1524 waa pro- myshlenrjykh predpriiatii; normy proektirovaniia (SNiP II-D.2-62). 1963. 42 P. (MIRA 17:1) 1. Russia (1923- U.S.S.R.) Gasudarstvennyy komitet po delam stroitellstva. 2. Gosstroy SSSR (for Gusako-v). 3. Gosudar- stvenr*,y proyektny-y i muchno-issledovatellskiy inAitut Promtransniiproyekt Gosstroya S&13R (for Gellman). GUSAKOV,.S.J., inzh, red.; Ea',IROVS~,IY, B.S., kand. teklm. nauk-, red.; DUBROVSKIY, A.I., inzh... red. [Con-truction specifications.and regulations] Stroil-ell- nye normy i pravila. Moskva, Stroiizdat. Pt.3. Sec.D. ch.2. [Dridges and pdpes; regulations for the work organization, execution of work, and accoptance of conploted work) Mosty i truby; pravila organizatsii i proizvodstva rabot, priemka v ekspluatatsiiu (SNiP III-D.2-62) 1964. 86 p. (14IRA 17:7) 1. Russia 11923- U.S.S.R.) Gosudarstvennyy komitet po de- lam stroitellstva. 2. Gostroy SSSR (for Gusakov). 3. MezIl- duvedomstvennaya komissiya po peresmotra StroitelInykh norm i pravil (for Nemirovskiy). 4. Vseso-~ruznyy nauchno-issledo- vatellskiy institut transportnogo stroitel'stva (for Dubrovskiy). S/120/60/000/004/001/026 E032/E414 AUTHORS. Gellperin, B.B., Gusakov,, YJAA,1~ Luban, 1(h.L. and Trofimova, N.N. TITLE,' Methods of Adjustment of Betatrons to Maximum Intensity PERIODICAL,, Pribory i tekhnika eksper-imenta, 1960, No,4, PP~13-17 TEXT~. The intensity of y-rays produced by a betatron depends on a large number of factors, all of which have to be taken into azcount in order to obtain the maximum possible Intensity. The present. authors describe measures which were taken by them to ensure this maximum intensity. The first secl'ion of the paper describes devices which were used to obtain the optimum orbit radius,, The radius of the or-bit was controlled by special coils located on th,~ electromagnet pole-,face. The emf induced in these coils by the field produced by the electromagnet was balanced by externally applied emf. When the two emf's are-in fact balan::ed, the radius of the orbit remains unaltered, If, on the other hand, the external emf is less than the emf induced in the coil, then the cuLry-ent produced in the coil gives rise to a magnetic flux which can be! used to !control the radius of the orbit, By pl3tting the intensity of the y-rays as a function of the orbit radius, the Card 1/6 ,5r: S/120/60/000/004/001/028 E032/E414 Methods of Adjustment of Betatrons to Maximum lntens-~ty optimum radius can ba determined. This schamv wa.,j used with a 15 MCV betatron in which the radius could be vetried by 10 rimi, using a current of 36 A. The second section of the paper is concerned with compensation of magnetic field nonuniformities in the air gap of the electromagnet, Since the static nonuniformity remains practically constant, only the phase nortun1formity of the field is considered. Of all the harmonics of the phase azimuthal field nonuniformity, only the first and the second are of importance in the betatron. Therefore, the compensation of the phase nortuniformity is reduc~ed to the minimization of the first and second harmonics. The two harmonics are compensated by two groups of compensating coils whi:,h are located at 901 intervals, This is particularly simple in electromagners with four-yoke construction as shown in Fig.4. It was found in the case of a 25 MeV betatron that the compensation of the phase nonuniformity increases the intensity by a factor of 2, The final seztion of this paper is concerned with devices which are capable of altering the field index n at the instant of injection, In the case Cf a 15 MaV Card 2/ iS S/1-,-),0/60/000/00 It /001 P) E032/E414 Methods of Adjustment of Betatrons to Maximum Intensity betatron two turns (in series) were used, having a radius equal lo the radius of the equilibrium orbit, One of the turns was located above the chamber and the other below, The turns were connected through a stepdown. transformer and a series resistor to the source supplying the electromagnet of the betatron, When on one turn was included in the circuit (either the upper one or the lower one), no change in the intensity occurred when the current was varied-between 0 and 0.7 A~ However, the intensity was ly increased by 20% when both coils were in--luded, the current through them being 0,37 A~ In one of the electromagnets it was found that there was a large phase shift along the radius and the shift increased with the radius, Although the static field index n for this magnet was 0,56 to 0,7 (in the region of the equilibrium orbit), the radial phase shift tended to increase n to about i at the instant of inje--tion, This was countera,:.ted by using distributed coils of the form shown in Fig,6, The coils were arranged so that the phase shift produced by them decreased with Increasing radii-is, One group of such coils was placed below the Card 3/6 20/6(Vt~)&/004/001/028 E032/E414 Methods of Adjustment of Betatrons to Maximum Intensity chamber and another above It, In thi5 way it was possible to ensure that the field index n did not exceed a r:ertain limiting value at the instant of injection, In some betatrons use was made of orbit tontrat~ting coils. These consisted of two turns located above and below the chamber (FIg.8),, In a 15 MeV betatron, the y-ray intensity was increased by the superposition of ar, additional field at the instant of injection over a 130' sector, This was achieved with the aid of two four-turn coils, placed above and below the chamber veapestixrely (Fig.9), There are 9 figures and I tabled ASSOCIATION- Moskovskiy transformatornyy zavod (Moscow Transformer Factory) SUBMITTED; July 10. 1958 (initially) June 9, 1959 (after revi6ion) Card 4/6 E032/E414 Methods of Adjustment of Betatrons to Maximum Intensit'v Pue. 4. Cxeua cocAHueuufL nouneHeannounmi 06NOTOIC U DnOI(Tpomarmuo tempexopeNmort I(ORCTpYlullill Fig.4 Card 5/6 6'um# d/rIfilm/l, R pue, 6. C'uma perymiponaijun uOD~(j)Slllllejj,ru ciia;tatuia tionn n Fig.6 s/i2o/60/000/004/001/028 E032/E414 biethods of Adjustment of Betatrons to Maximum Intensity puc. 8. cxmtA Opitellim OP61ITLI B )IDMeHT nunteltAlill (iton-rpaRgim) Fig .8 FIS . 9 )"ITIM AAH 11831O)IMIllil Card 6/6 ALEMIN, I.M.i_GUSAKOV, V.F.; PANTSYREVA, N.S. Reserves in constructing oil and gas wells in the Kuban fields. Trudy KF VNII no.lld79-191 163, (MIM 170) GUSkKOV, V. 1. 110n hydraulic mechanisms." report presented at the Second Conf. on the Problem of Pneumatic Hydraulic Automation., at Inst. of Automation, AS USSR, 17-19 Mar. 15 8. S_ A v 8(2) PdASE I BOOK EXPLOITATION SCYV13393 -071! 1 - .:-I I Moscow. Aviatsionnyy in-,tilut imeni Sergo Ordzhonikidze 0 dinamicheskikh Bvoystvakh sle0ashchikh privodov; abornik statey (on the Dynamic Properties of Servodrives; Collection of Articles) Moscow, Oborongiz, 1959- 78 P- (Series: Its; Trudy, vyp. 113) 6,100 copies printed. Sponsoring Agency: USSR. Ministerstvo vysshego obrazovaniya. .Ed.. (Title page): S.V. Kostina, Candidate of Technical Sciences, Docent; Ed. (Inside book): S.I. Busshteyn, Engineer; Ed. of Publishing House: S.I. Vinogradskaya; Tech.: V.I. Oreshkina; Managing Ed.- A.S. Zaymovskaya, Engineer. PURPOSE: This book is intended for engineers working in the field of electric and hydraulic servomechanisms., and for students taking courses at electronic and aeronautical institutions of higher learning. COTERAGE: This book contains.four articles on problems of stability and dynamic accuracy of electric and hydraulic servomechanisms. k study7 is~ made of the eff eat Card 1/2 On the Dynamic Properties of Servodrives SCYV/3393 of a mechanism's parameters on its dynamic properties and ways of increasing the precision of servcmechan-isms in electrochemical equipment of systems. References a, ppear at the end of each article. TABLE OF CONTENTS: Preface 3 Petrov, B.I. Transien-W Processes in D-C Electric Servcmechanisms 5 Terskov, V.G. Increasing the Dynamic Accuracy of a Servomechanism by the Introduction of Noise Feedback 27 Borisovs, N.A. Theory and Calculation of the Transient Processes of a Hydroservomechanism with Throttle Control, Taking into Account the Nonlinearity of the Throttle Characteristic 55 ,.q~us~~.EovV.j. On the Calculation of Dynamic Characteristics of a Throttled Hydraulic Device 67 AVAILABLE: Library of Congress A*M C ard 2/2 4_ TT GUSAKCV, II.I., inzh. Characteristica of oloctrontochLnical convertero with magnetic oprihtgs. Trudy l,VtI no-134:107-UO 161. (MIRA 14:8) (Servomechanisms) ;; H.. r- a ;:: : -!' -~ 11' 1 -1 : , 1 ~ * m -. . - :, ; I ACCESSION NR: AP4042270 3/0145/64/OOOfOO5/0133/0146 AUTHOR: Gusakov, V. 1. TITLE: Transition and frequency curves of an ideal throttle-type hydraulic drive SOURCE: ]VUZ. Mashinostroyeniye, no. 5, 1964, 133-146 TOPIC TAGS: hydraulic drive, throttle type hydraulic drive, drive frequency curve, drive transition curve, frequency curve calculation formula, drive rospollse, phased input signal, sintisoidal input signal, throttle effect, ideal drive calculation ABSTRACT: The dynamfe curves of an idealfzed drive, calculated by direct solution of a system of tilree non-linear equations which allows accurate consideration of the effe6ts of a drive's bMiC parameters, are analyzed and the author concludes that solution of thds system of equations is not possible without the use of computers. Formulas and graphs are presented for use in calculating frequency curves of idealized and real drives. It Is demonstrab3d that the tr.~nsffion curves of an ideal drive remain non-oscillatory for any ratio of parameters. Specifically, the response of a drive to a phased input signal involves a transition constituent whose duration depends in part on the magnitude of the control Ca,Y2 ACCESSION NR: AP4042270 signal. Regulation periods of a non-linear drive and, a linear component with the same time ,constant are practically coincident. Frequency curves are governed notonly by inputsignal fre- quency, the type and magnitude of load, but also by the magnitude of the input signal am- plitude. Ile 'response of a drive to a 6inusoidal input signal is shown to be of complex, harmonic character, but analysis proved that it can be approximated by a sinusoid with a phase differential. relative to input signal. Here the throttle effect manifests itself prinfarily in the form oT a non-linear lag component. Leakage and compressibility of the fluid can be ;accounted for-, approximately, in the form of an oscillatory term of the second order. Orig. art. has: 6 graphs and 42 equations. ASSOCIATION; Moskoveldy aviatsionny*y institut (Moiscow Aviation Institute) SUBMITTED: 12Mar63 ENCL: 00 ~SUB.CODE: IE, PR NO. REF SOV: 002 OTHER, 000 J 1 'T V K. Lj,-~r, att, of ',-,he ~-tcjxa,;i I I i I S;J Ia. 'Va I I! S rf ll:.~~ 165. 1 V -1 ,-a hg k i-v v F_ U - r i n arnrr in s t tt i t. D.V.; I...A.- G.V.; 1 11'. Y 1111~11 A) il,.Y(,.,. K(M.YAWIVA, T.V.; Yo.bl., veo. [Chelyabinsk electrometallurgy workers are striving for 0 technical progress] Cheliabinskie elektrometallurgi v borlbe za teklinicheskii progress. Chediabinsk, Cheliabin.- Aoe knizimoe izd-vo, 1963. 014 p. ( 11, 1,T i -~", 1 If - P. ) OUSAKOV,V.N., kandidat takhnicheakikh.nauk 'a, Concerning joints In precast reinforced concrete columns. Stroi. prom. 33 no-7:20-23 J1 '55. (MM 8:9) (Columns, Concrete) GUSAW, T.11.; ZABOIA)TSKIT, M.T.; TERENTIYEVA, Y.Y. CoRtiRuous distillation of wood tars. Gidrells.i losekhim.prom.9 no,,2: 6-9 156. (MLIRA 9:7) l.lSextrallwy nauchne-issledevatel'skiy leseWmicheakAy institut (for Gueak*v, Zabolotakiy).2.Uproleakhim (for TerentlyeYA) (Weed tar) (Distillation apparatus) ,/Fon--%doa of yapoir. in woid cheaxic~d praom3i and its rp-w=tion. V, IN. Gm~,kuv. Vidrelt'C. i LxsokA-ra. Prom. V -" Aj. klve.-Ai. 9, No. %, 5--C, r 243 ~,Iadojt Of 111C t4~Vjp. segim Lj) are in which vap'oz-s (1) (carryiz:z owr fareign mutcrL- II formcd. The r--tt,;es kading to, dm build-Vp. of I- were found to be tile dir~czmvce Extwoext Me tclzup. of I ar'd t1lat -0 f Co[UrflaS -.- coolors~tIte im*. oE rtibi and of the Ivalls "Ll qi!s in 1, and the raut b( vapor t could bc liurifhA by partfift eroline falla."ied by eiltmew" t1trour-'11 Comm of by elce. p-ptn. r Y MSSR/Mexic technology Chhemic~l Prod~icts and Their 1-9 Application. Wood Gbpmisbry Products. Hydrolyiiis Industry Abs Jour : Ref Zhlz- - nimiya, No 1, 1958, 2659 Author : Tivarov, I.P., Gordon, L.V., Gusakov Inst Title Wood.-T-ar Pitch as Binder in the Ft-oduction of Wood-.Coal Briquettes Orig Pub Gid-roliznava i lesok~,_isa. prom.-st', 1957, No 4, lo-11 Abstract Description of experiments on maki-ng of briquettes from birch wood coal (rDisture content 1%) and wood-t&r pitch (softening point, Maken 5-ransliterated block method, S 900). Strength to crushing (in kg/cm ) of briquettes (unbaked) containing 10, 15, 20% pitch and produced with low pressure, is respectively, 4.4, 7.4, 17-3; that of baked briquettes is 16-3, 23-3, 26.8. With a press-wor- king pressure of 65 k9/cM2 tl%e average strength of baked briquettes was of about 40 kg/c-Ta2; increase in pressure Card 1/2 USSR/Chemical Tect-nology - Cho_,v_Ic9,l Pe-oducts and Their 1-9 Application. Wood Chemistry Products. Hyclrolysis Tndustry Abs Jour : Ref Zhur - 107ilwlya) No 1, 19%, 2659 to 150 kg/cw? increaaes the strengtt_ to 100 kg/cm2. Strength of vmbak-~d briquettes could be increased to 50- 80 kg/cni2, by rais-ing the pressure. Streugth of briquet- tes on attrition is low. Card 2/:2 SOV AUTHOR: Barshteyn, M.P.,)Candidate of Technical /97-57-11-9/10 Gusakov V.N. Sciences TIT~LE: Practical Tests on Load-Carrying Constructions for the Games Arena at the Central Stadium imeni V.I. LenLn. (Naturnyye ispytaniya nesushchikh konstruktsiy areny ruchnykh igr Tsentrallnogo stadiona imeni V.I. Lenina). FERIODICAL:Beton i Zhelezobeton, 1957, Nr 11, pp 465-466. ABSTRACT: The TsNIPS and the Institute for Building, Technique of the Academy of Building and Architecture of USSR carried out statical and dynamic investigations of load-bearing constructions for,the above stadium. Tests were carried out by Candidate of Technical..9(-.i-ncesN.P. Korovin, Engi4eers V.S. Pavlyk, P.K. S'hklyare "kiy (through the TsNIPS)and,I.P. Rvzhov,, A.V. :Pan1k,ov,Y*.Ya Svetova and N.M. Belyayeva...of the Institute for Building Technique. The aim of these investigations was to determine the actual load-bearing capacities of the precast standapd reinforced concrete units. Various tests are described in detail. Investigations showed that during the cal- culation and design of deformations of typical Joints Card 1/2 SOV/97-57-11-9-10 Practical Tests on Load-Cnrrying Constructions for the Games Arena at the Central Stadium imeni V.I. Lenin. of these prestressed elements a considerable quantity of reinforcement and concrete could have been saved. T11is could have been effected if sufficient protection had been taken against the corrosion of the reinforcement and the deformations by testing full-scale units. There is one illustration. l.Structures--Analysis 2. Reinforced concrete--Loading 3. Reinforced concrete--Testing equipment 4. Reinforced concrete --Test results Card 2/2 bITMAWKOV, V-P.; GUSAKOV, V-N.; KURDYMOV, V.A.; VOLODUTSKAXA, Z.M. Extraction of acetic acid by wood-tar oils from vapor and VLs products obtained in a vertical gas-eircalating retort. Sbor. trud. TSNILKHI no.13-46-59 159- OGRA 13:10) (Acetic acicl) (WOOCI-Chemiatry')