SCIENTIFIC ABSTRACT GORBANEVSKIY.V.YE. - GORBATENKO, M.F.

I L/k ,,it I 6~*  ACC NRs AP7006715 SOURCE CODE: UH/0113/66/ 0 l2fuuxxTv-_,,___, 1AUTHOR: Gorb~ U Va. IORIG~ No*ne 1W ITITLE: On the problem of selecting dimensions for the plunger sleeve ports in a I 'high-speed diesel pump 'SOURCE: Av-tomobillnaya promyahlennost', no. 12, 1966, 11-14 TOPIC TAGS: fuel injection, diesel engine, engine fuel PUMP JABSTRACT: A simplified trial and error method is proposed for determining the optimum 1dimensions of the intake and npill ports for the plunger sleeve in a diesel fuel pump. !It is shown that the effective cross sections of the plunger sleeve ports in presently used fuel systems on four-stroke diesels (operating at speeds up to 1500 cycles per minute) may be considerably reduced without impairing the process of filling the pump ~barr-tl with n-:1. A reduction in the effective cross sectional area of the sleeve ;portG reduces fuel compressibility losses as well as fuel leakage into the inlet ports 1 1during the period from opening of the delivery valve until the inlet ports are closed. if- the injection process may be made less dependent on speed conditions. At the liu: time, the fatigue strength of the plunger springs will be increased and cavitation; -jear of the plunger and sleeve will be reduced with operation on'li(5,hter fuels. The C,,d 1/2 uDc: 621.43.038.001.5  ACC NR3 AP7006715 !~Simplified method proposed by the author for calculation of the charging process gives ~.n easy means for determining the optimum dimensions of plunger sleeve ports from the !standpoint of efficiency in filling the pump barrel with fuel. The proportionate ce.- ~pacity of the intake and spill ports during the charging process may also be evaluated itogether with the effect of the grade and temperature of the fuel. Orig. art. has: ;4 figures, 18 formulas. CODE: 21/ SUBM DATE: 'None Card  IA"IRBAINE."'jKly.~ V,Y.F,. Lt-,S-4Lm,.ng hp.-Ji.tigs for vHa--4t* :-,,F thri -, sngfmos. ~.vt. T-rom. -i,') D 61 . I'll;-i H:. - -I , - ' I - -, , . -.1 04 , ..- - "- I  V.Ye~ ; I'C)LYAKo'-V', G.D. Designing the flywheel of a ntand for te:jtinir diesel engine fiael systems. Avt. prom. 31 no.1:11-13 Jet '64'. O-ITPA IS:3)  )IIU.I,OL--,IlAj H.M.; GORBANIN, V.P~,, starshiy gidrogeolog; BOYARSFJY, Ye.V. Means of controlling underground waters in the Mirgalimsay deposit. Gora zhur# no,3:9-32 Itr 162, WRA 15:7) -1. Rukovoditell gidrogeologicheskogo byuro kombinata "Ach Olimetall" (for Yermolin4). 2. Mirgalimsayskiy rudnik (for Gorbanir 0 (Ifirgalimsay region-Mine water)  GORBANKO, S.S.p tAkWMik (ff. Varkata). Autcmtlc regulator of oondenBats level in turbine condenaeras Inergetik 13 no*10125 0 165, (MUU 18110)  . P"-DOCHEV,, D. 4ANOV G=NOV, Khr.;_2qR _ On clinical value of erythrocyte sedimentation tests in tilted tubes. Suvr. med. 12 no.11:101-107 161. 1. Iz Natedrata po vutreshni bolesti i terapiia. pri. VMI Mesh meditsinski, institut] - Softia (Rukov. na katedrata prof. Al. Pukhlev). (BLOOD SEDIONTATION) k,  MYSTROVSKlys R.B.; GORUNOVSKIY, V.S. (Dnepropetrovsk) Severe tatraothyl lead poisoning. Vrache delo no,8sl35 Agt63- (NIRA 16:9) (IYAD POISONIM)  RML%R&M Etta= 137-58-5-9863 Translation from. Referativnyy zhurnal, Metallurgiya, 1958, Nr 5, p 142 (USSR) AUTHOR: Gorbanskiy, V. V. TITLE: Electric Spot Welding- of Interior Parts of Heavy-duty Receiver- amplifier Tubes (Elektricheskaya tochechnaya svarka vnutren- nikh detaley nadezhnykh priyemrio-usilitel'nykh lamp) PERIODICAL: Tr. N. -i. in-ta. M-vo radiotekhn. prom-sti SSSR, 1957, Nr 6 (42), pp 48-70 ABSTRACT: An examination of problems in the design of electrical spot welders for the electronic-tube industry. It is noted that expul- sions cannot be tolerated in spot welds of receiver and amplifier tubes, since they cause short-circuiting between elements of interior parts of the tube. The shortcomings of the Ye. 300.01 serial-production welding machine are listed. The causes of expulsions during welding are listed, and it is established that the power control unit of the welding machine must provide reproducible heat cycles, and the pressure mechanism must provide uniform electrode force. The electrical circuits of mach- ines with individual weld-time regulatcrs, stored-energy cap- Card 1/2 acitor-discharge machines, and machines with a combined form  137-58-5-9863 Electric Spot Welding (cont. ) of welding heat cycle are examined. Various designs of clamping mechan- isms are examined. The rnajor characteristics of the new model A. 300.04 universal spot welder, which affords freeclorn from expuisions of liquid metal, are presented. I. M. 1. Electron tubes- -Prodtictl on 2. ",;Pot. we Lit ln~-hqil Card 2/2  SOV/ 137-58-8- 17175 Translation from: Referativnyy zhurnal, Metallurigiya, 1958, Nr 8, p 139 (USSR) AUTHORS: Gorbanskiy, V.V., Kliudvshev, A.F. TITLE: A Welding Machine Employs Rollers for Welding of Cathodes (Stanok dlya rolikovoy svarki katodovj PERIODICAL- Radioteklin. proiz-vo, 1957, Nr 9, p 22 ABSTRACT: Instead of employing spot welding for the t-,,~,o (athode half- sections, a method was introduced and developed whereby welding is performed by ri-icans of rollers in (onjLnction with a special mandrel and a machine whicli ensures uniform condi- tions for welding operations. The introduction ot the inethod described resulted in a 10- 12 fold inc rease in produ( livity and improved quality of cathodes. A. K. 1. C athode s --Spot welding 2. Card 1/1  AUTHORS: TITLE: PERIODICAL: AB~,TRACT; Card. 112 SOV-1 3 5 -5, R- 3- 14/1,) . .1 Kislyuk, F.I., Doctor of Technir- Sciences, Gorbanskiy, V.V Engineer A New Machine for Spot 'Nelding Parts of Receiver-Amplifier Tubes (Novaya mashinn dlya tochechnoy svark-i detaley priygmno- usilitellnykh lamp) Svarochnoye proizvodstvo, 1958, Nr 3, PP 39-42 ('TSIIR) The existing spot welding machines used in the production of radio-tubes do not eliminate spatter of' liquid metpl, In- vestigations were~ carried out on the expediency of gradually increasing welding current pulse, or of two separate Dre- heating pulses without disconnecting the electrodes. Engineers G.A. Bolkhovskaya, A.M. Kupfer and A.F. Khudyshev participated in the'work. Three machine circuits were tried: 1) machine with increasing amplitude ADf the welding pulse (Figure 3) for welding steel, platynite, nickel, etc; 2).a capacitor spot welding machine (Figure 5); ~) a machine with a combined thermal cycle (Figure 7), pre-heating on a.c. and with a gradually growing amplitude. Information includes a description of mechanisms for compressing the electrodes of spot welding machines such as a mechanism with cylindrical spring (Figure 9)  SOV-135-58-3-14/19 A .111ew Machine for Gpot "Velding Parts of Recreiver-Amplifier Tube'3 and a mechanism with flat springs (Figure 10). On the basis of the experimental inve*stigati~ns performed-, a new spot welding madhine was developed having an electric circuit with pre-henting by n.c., welding by capacitor discharge and with a flat spring compressing mechanism. The machine (Figure 11), was tested for two years and proved to be satisfactory. It eliminates spatter, There are 2: graphs, circuit diagrams, 4 oscillograms, 2 diagrams, 1 photo and I table. ASSOCIATION: NII Komiteta radiotekhniki Soveta ministrov SSSR (Scientific Research Institute of the Radio-Engineering Committee of the USSR Council of Ministers) 1. Electron tubes--Spot welding 2. Spot welding--Equipmen'. Card 212  SOV-135-58-10-9/19 'j AUTHORS: Yiglyuk, F.I., Doctor of Technical Sciences, Corbanskiy, V.V., and Khudyshev, A.F., Engineers TITLE-. Precision Automatic Arc Welding in Hydrogen With Non-Fusing Electrodes (Pretsizionnaya avtoinaticheskaya dugovaya svarka neplavyashchimsya elektrodom v srede vodoroda) PERIODICAL. Svarochnoye proizvodstvo, 1958, Nr 10, pp 26-29 (USSR) ABSTRACT: A new device for the precision welding of thin parts made of heat resistant and other metals and alloys used in the production of cathodes for electric-vacuum devices is de- scribed. The welding is done in hydrogen, with a low pow- er arc. Engineers V. Elabakidze, V. Rastopchina and A. Kupfer participated in the work. The new device is described in detail and the approximate technology for welding on direct polarity of different parts according to their thick- ness and nature of joints is given in a tab?.e. In welding tungsten and molybdenum parts, micr~-hardness of recrystal- lized molybdenum attained 210 kg/mm and io 1"Aividual grains Card 1/2 as much as 320 kg/mm ; micro hardness of porous tungsten  SOV-135-56-10-9/19 Precision Automatic Arc Welding in Hydrogen With lion-Fusing Electrodes was epal to 175 kg/mm 2 in the seam center and 200 - 300 kg/mm in the transition zone. There are 3 graphs, 4 pho- tos, 1 table, 1 kinematic and 1 circuit diagram. 1. Tungsten--Welding 2. Molybdenum--Welding 3, Are welding --Applications 4. Hydrogen--Applications Card 2/2  GORBUSKIY., V. V., Candidato Tech Sol (diss) -- "Investigation and development of the technology of point electrical welding and soldering of the Inten-A! parts of electrical vacuum Instruments and the development of now equipment". Moscow, 1959. 12 pp (State Cour ittee of the Council of Ministers USSP on Radio Electronics, State Union Sol Res Inst), 150 copies (EL, No 23~, 1959) 165)  S/125/61/000/006/003/010 D040/1)112 AUTHORS: Gorbanskiy, V. V., Shubin, L. V. Khudysbev, A. F. (moscow) -- -------- TITLEt EquiDment for precision electron-beam welding of refractory metals and alloys PERIODICAL: Avtomatichoskayn evarka, no. 6, 1961p 21-30 TEM The authors describe a now experimental installation developed for welding refractory metals and alloys by an electron beam In a vacuum. The article contains detailed deuign information. The unit is shoyrn in a photo- graph (FiG. 2) and diagram (Fig. 1). It consists of an olectron-optic systemii.e. an electronic gun with focusing and deflecting systems; a high- voltage rectifier; one feed unit for the focusing and deflecting system and one for the modulator, P work chamber, a mechanism rotating and movin(; the workpiece9 an evacuating sys-bom with a high-vacuum and a forevacuum pump. The electron-optic -system (Fig. -3) is attached by a flange to the work chamber, Its parts are connected by vacuum-tight joints with aluminum or copper shims.. The cathode leg of the electron 6un is fixed in a ceramic bulb and its output terminals connected to a heater, a lanthanum boride Card 1/ 9  I '_ V, 9 S/12 1 800100610031010 Equipment for precision electron-beam welding... D040 YI),1112 cathode, and a focusing and a modulating electrode. The anode unit is a cylindrical water-cooled piped The cathode lQt: is connected to the allode unit by the flange. There are one central 1-nd six -side holes in the oylin.- der top, Accelerated electrons move through the central hole and air is evacuated through the side holes. The electron gun is powered from the rec- tifier and the modulator; the feed source for the focusing and deflecting system is inside the unit; the contTols aTe on the front panel, When the electron gun works with pulses (to obtain higher beam density and to reduce heating), the feed voltage is modulated. Pulses and intervals are adjust- able in ten steps between 0.01 and 1.2 sec. The 20 cubic decimeter capacity work chamber is cylindricalo welded from stainless 1X1849'r (lKhl8N9T) steel. Replaceable workpiece holding device are provided for welding cir- cular and straight seams. A vacuum of B-10-5 mm Hg is maintained in the chamber. The gun system is shoyni in a diagram (Fig. 4). Boride cathodes are used becausc of their stability at high current donsitieu (above 10 amp/ CM2) and because they require no activation time. IfIcating to 1600OCis suf-- ficient for steady operation of the cathode. The work life of most Df the boride cathodes is 250-300 hours. The replaceable lanthanum boride cathodes have active surface diameters of 3,09 4.2 and 5,4 mm. A tungsten -wire Card 2/ 9  S/1 OV61 1600/006)10031010 D-,uipm.ent for I)recic;:Lon electrcn-huar--, -.-.-~lding... -r)04(;1D112 Spiral i:; 11f;e'l for IIQrITA-.q8 the callic-ides. Throo diffei.-nt alectron rvins are designed for crithodes of differ~--.-t diameters. Po,.%u,- c,,.xi I)e varied over a wide range. Practio.)*!I'r all reiractory metals with a thickness of 0-005 to 5 rira can be welded. Tlii Lliotanco fi~om the anodo oatlet, to work sizrface ip 340 ruiv becau.3(3 of the size of the ,ioik chambc~r. The focusing system i.r, a magnetic lens, i,e. a rectan.--ular coj.1,Ft portion of which jo, placed in an iron screon. The electron bear; pa..Ioeo for a considerable pirt of its pass- age in the equipotantial i;pace of the anode pipo~ The external electric and magnetic fields have no effect on it, therefore calculation of the fo.-. cussin-rr aysteEt r3ay be simplified by assuming that only the forces repelling the space charge are acting, and that the magnetic Ions is "short", The spread of the elootron beam may be calculated by the Yayns Vatson (Russian spolling) equation ri, n--k r 0 U Ix4d, - `F ro ( -27Y2 I-x f Card 3/9  S/I 25/6lTdoo/006/003/010 Equipment for precision eloctron-beam volding... D040/D112 where .1 and ?, are tho charge and the mass of electron; I - the beam, current; v - the qnode tube potential in reepect to the cathode)~. T'.h&-, equatiOn (1) describeti. directly the initial paxallol beam shaPe. In the magnetic. lens the beam coiverges (Fig. 7). The article includes a calcula- tion example. It is very approximate, and the basic. dimensions for the focussing system were determined finally in experiments. The best position for the magnetic lens was found to be (f =120 mm and 12 .220mm (Fig, 7), and the proper current for focussing a 50 m,.amp beam at 159000 vo't to be 1000 - 1050 v-amp,. The deflecting system is the same as used for TV tubes and consists of four coils connected by pairs in series and aiv- en 1800 angle, The coils are wound on special arbors and cont)ist of 5 soctions, with maxi- mum winding density at the coi', end to produoe a uniform majnetic field. The formula for calculstlr4 tho ampere-~urns of coils (Ref. 1'4~ M. Ya. Mulyarov, Elektronno-IuQ6evne polbory Lsiectron-beam iastrument~-/, Gosener- goizdat, 1954 is 2.65d -.-.in 1N a 10 Card 4/9  S11251611000100610031010 .L~quip..iont for precision OIOGtron-beam ,veldinj> D040/D112 ... lie . re d int - is the internal diameter of dc."lectina system; 1 0 tho, of.foctive. coil lonC;t-h ( 10 - 1 + IT," 1 1 - tho coil longth; the naximum deflection anj3le4 The undistortod adflectlon an-le de -I. elm-1--ned -n exi~crizients tas 3-50, which -ireans that tho bo:-,n may be Oeflected 10-15 :1,7, OfLi center without changinC-: the focus. I'urthor v!ork is in progress on de- tormination of lbc~.,,:i. proscuro pn a metal poolt durint; and heat (Ii- stribution in the metal outside the Conclucions. 1) The o,,_-tcn rCplacCa,jle cathodes pormilUs V.OldinL;-current re~,-uiation 100 v, ancl 10 2) The ',,i~;h-voltaCe rectifier and nodulatuor pcrmi~ pulso 3) e::ner-mental unl; mcaker, po;;oible the -cl- circul Ij lar :-ind otr,7~i,-ht sOZ1.:;!S Vir ~n ;lec'vron beam 'in a %racuum. 4) Vact:,,i-,i-tiUht jointr can be tzAned on rcfrc_ctqry netalz. There are 10 c-.nd 15 re--croneco: 5 Soviet-bloc and 6 non-Soviat bloc. Me fourlatest rufcrenceL to 7_!,E;1ish-1,xngu- aC;e publicationo read as follows: G. Burton and Vin. L. Frankhousor, Elec- tron-boam, Weldino, "YfeldinL- Joiirnal", '.11c. 10, 30, 19519, S-401-409; Produc- tion Welding -.-.,i'uh Blectrons, "Electronic industries", April, PP 76-94,-1959; Electron-beam 1.7elding, "American IMachinist", Februar~,, 23, pp 94-98t 1959; Electron-bear. 701dimU, 1112n,'ineeringll, ':eril 1959- 0 SUB'UTTED: Pecemler 7, !960 Card 5 3)  VOYTSENYA %S.; GORTIANYUK, A.G.; ONISHCHENKO, I.N.; SAFRONOV, D.G. Lotion of Cense plasma clots in the magnetic field of a toroidal solenoid. Zhur.tekh.fiz. 34 no. 21280-287 F 164. (MIRA 17t6)  L-j i-PTI-Jok-la -olear-r- ivv!v -469 1-1 Z -11-1 Z-V"rl m A p L ~'L 41 a sma C aqmc- J?I. vjasir.~a polarization, nonr).nmr)vpnpou5 T~aj-Tietj,- !",4L- n cyC- n EISIORS-A0 ------------ mmiswv~effo-ngthe Vwo -pritc-1parftmaters-of the  KCCFMlOi4 NR: AP5018319 a p i e exr t r q j-Card-2  11W TIMCT, The Ijthor-q have measured the radii! eiectric fiej,! 4.-. ---- -- - --  ACMISSIaN %,M: AP4049054 to :10 V/cm were observed; these :fields wOrO djreCt4E,-j t-,Yw'nrd thle nxxis. 7,nc e-,.r u- Lrzxnz~iciun irom thn fin] -SOS i tic 614--in e-non-uniform-rxe ionLX-aA_~ ~c-q -y-litt _4 -i -- t -that ec =F_tru--Olwmr co=lud-d M was , uc. to the diffcT-ence betwe tle inn nnd eip-tr-~r Z/Z  1- 4 Ei i T 7 -,P(.- G D /A T ACC NR. AT6020409 Ch S6U_RCE_'CODE: UR/0000/65/000/000/0119/0129 AW'HUR: Voytsenya, V. S. z Gorbanvuk,_A_r~,'Onishchenko, I_. _N. ; SafLonov I, G. Shkoda. ORG: none ~TITLE: Molipq of the f la�m2~ids in a magnetic field of toroidal solenoid SOURCE: M1 UkrSSR. Issledovaniye Dlazmennykh sgustkov (Study of plasma clusters). Kiev, Naukovo dumka, 1965, 119-129 TOPIC TAGS: plasmoid, solenoid, plasma magnetic field, plasma density, plasma injec- tiqn, Interferometer, mass spectroscope, ion distribution ABSTRACT: The behavior of a plasmoid moving with several kev energy was studied in order to determine its upper density limit, its purity, and attainable velocity in lon gitudinal magnetic fields. This work is based on the theoretical predictions of N. A. Khizhnyak (ZhTF, 1965, 35, 847) who stated that due to shortcircuiting of polarization fields by electron currents rather high densitie3 are attainable in the plasmoids. The experimental apparatus is described showing a curved region preceded by a straight sec tion connectIng with the plasma injector. The plasmoid properties were studied with a macs spectrograph, time-of-flight mass analyzer, microwave interfercmeter and elec- tric and thermocouple probes. In the experiments with low density plasma, the ion dis Card 1/2  L-41 ACC NRi AT6020409 tribution was found to be considerably distorted. At 1012 cm-3 density, long high energy tails appear. In higher density experiments, thz mean ion energy was found to be 3 to 5 kev, with an impurity content of 401. A study of the solenoidal guiding field indicates that plasma densities higher than 1013 iona,CM3 are possible if fields are increased above the 8 koe fields available to the authors. Orig. art. has: 10 figures. SUB CODE: 20/ SUBM DATE: l1Nov65/ ORIG REF: 007/ OTH REr: 002 Card 2/2  FATInVA, M.N.; KLIMOV, V.~S.; GCR3=NKO, N.I.; DICIISOVA, Te.A.; ZRINA, Ye.V. -, OSTAPKOVICH. Earl.v diagnosis of abronic radiation sickness. Vest.rent. i rad. no.2:16-23 Mr-Ap 155. (MIRA 8:5) 1. 12 Instituta terapil ANN SSSR (dir. doystvitallrWy. chlen Ake- demii meditainakikh nauk SSSR Prof. A.L.Krasnikov) (RADIATION SIdMSS, diagnosis)  j4y,'m Cold Grgl gntcn (Thunp. 1115t.", Aroncow) EkOW biol. t lied. 41, Nc, (J. 310-41(1936).-Thl propt~xty of airim to c1cpAymuize hyaluronic ucki 6 duc to otber pihmatices LvsideF hyalurouldase. This was drjuon-: btmicd by subjecting urine to prokmgr-~d b3iling which de- Stroym tht~ In 41 out of 51 Lases tht: uriiw tti roug- 6 -- - b"iblig a St epolymc!rlr_ng ability. c VAV11wrizilig ability of slibstances other (hart hpilurouidast ;q)pc.tr~; to mcmLsc after boi]jIlf'. since the urine oweg iti Ilvp,lvmcli!iZ, g property to hyalurtilkiLLIse C-Illy in a smull jj~ ,j c_,, it v.limnt L,,. u-sed as .1 wtjz:ure of livaluronic -it~ u1 Om  ?, 'I ~-4* ctr . I S ana al u E.L.Lo , cf 1,1!,, ic.,A T Efforts. i'.bs Jvur: j,%ef zhur--_,,,ioI-, ~Po 20, 1958, 93746. -U-6,1or stepanyan, yc. i,., V.S., Gorbare-ho, IT.I. L'St Ti ~10 Tae PrCUu.i of iyo.umni(,LIsc a-,.a !istw~iinu ill tne rlood of L-Iftividur.1r, soutNiectea to Io:iiziil;.; itcaiation ill 111LIu3try. Ori.[, !~ub; 14--d. radiolof.-,iyaa, 3-957, 2, ITO 3, 19-23- libe anounIll of hyal-armiLlase (I) in ne Gonr,.'.' mild Ido L rieftically tc-oline (II) in the plas-m of people (21) -~L -)ii sWbjectod to the effect of and -maiatic 5 til--,cs or ncre 1-ACIor than a sCXe close (crolr!) I), people (21) subjected to the effect w~.,thin c sa-fo nnC7,e (Grurf II), allLI 1)eoi)1o (15) wlio received Closes lower I Vla;-. s--fc bu-'U- !vwLIC co,'~'-Iact With CI-01.dcally tCjxic ("m1"! 1/2  !-,ffQcto of rr IL Eff ort s J~ur, ikuf Irr, ',20, 195(3, 93746- 51~7bstanccs (L-rou!) 111) - In all the C:rOUp:;, I flue- tuatuCL in mnZoas cf 2 - 10 tualts a6ai:-.st 0 - 2.5 ix-lits I I Li the control, XT in rami6cs of 11 - 25 ',j nCairlsst 5 - 10 ::uqjci-,cy of kr'~ in thu Co.-vurol. 7ha relativc f -1trol , -;reatcst in -.0. arlolults Ims caseS euJi. 11c; c :--'rcup ITT, aiicl llith l-mr~)i:il- of the i-atcrJal accurdinc to t:le sta[;c- of t",.c; imdzirq; racliation - in the Z,roir with the lcut cxi~csurc. Thuro was no --arallolisri botwou., chaaiL:.cs in I ancl II nor butuce-a i'llictuatic'ns in bicc:icrUcal indicators and cl--ta (if the c1ii-iml O-KVann- tioll (bloccl cowt, subjective ca.Z.,lCints). -- E.D. Glikson. C'.rJ 2/2 .155  rJ NKID. N-I- "IMOV, V.3 G(MBARS s blood serum of m6a subJOcte(' to 4alitronidase activity 71~n 1 report [vith summary in Ing "'b3' chrm~c irradiation; preliminary a-7 157- io.6) 'fest.rent. i red. 32 no.l-.19-23 J 1. Iz laboratoril Ina tituta terapil Akademii meditainakikh nauk SSSR (dir. _ deyatvitel, Vy, Chlen Akademit editsinakikh nauk SSSR prof. A L. Wyasnikov) iRADIATIONS, eff- tation, eff- on bYalurOuidaBe i oniz ing., chronjairra d activity in blood) (HTALURONLDASE, in blood eff. Of cbronic ionising irradiation)  VoS.-P PONIZOVSKAYA, A.I.; GOR13ARM09 N-10; FATE M At M-N-; XLlMOVP SOKOLOV, V.V.; SMIMOVA9 M-L of C.137 cn the hman organism. Med.rad. 5 no.7Z14-19 Effect (min 13:12) 160o (RADIATION-PHYSIOLOGIUJ EMCT) (CESIUM-130TOPM)  FATEYEVAp M.N.j PENIZOVSKAIA, A.I.; SOKOLOV, VS.; BENI80VA, Ye.A.; OSTAPKOVIC111 V'Ye. Initial reactions of the human organism to tbi action of ionizing radiations. Med. ead. 5 nq.8:3-7 160. (MIRA 13:12) (RADIATION-PHYSIOLOGICAL EFFECT) I  GORBARENKOJ. U. I. "Concerning Changes in iiyaluronidase MLzyme (Permeability Factor) activity in 262 humans exposed to varlous radiation was within normal limits in all reflected no significant decline. Protein-Fraction COMPOsitiOns and During Chronic Radiation." llyalurcnidase intensities and duratic;ns of lndustri'-~" cases. Protein-fract"on LcmPositicn =dIdate dismertatiou listed In HeditainLkW radiobnalwa no, 'ct 1964- The article did not state ap'-dricallyWt degM was a ': The amotated I.ttles deal with atudles on radlatitm physioloa., redintim bioehemistry, coobiried traum and the influerice of radiation an regenerative promsees, mMatlig-4 mlcrcbiolc~V snd izmtaioloa, and radiation pharmeoloa.  GORBARMO, P.; SAMUROV, Yu- Three-cEannal tonograph. Radio no.3:21-23 Mr '60. (MIRA 13:6) (Tonometers)  NBSTAROV, A.P.; GqW" !~'! P. G. SAMIAROV, Yu. I. Ifigh-frequency tonometer for measuring and recording intraocular pressure. l4ed. prom. 13 no.5.*54-57 14Y '59. (MIRA 12:7) 1. Kuybishevfikiy meditsinskiy institut i 4-y gosudarstvemW pod- E;hipnil,,ov.vy zavod. (EYIC, INSTRUMTS AND APPARATUS FOR) (ITITRAOGUIAR PRICSSUF3)  GORIBARENKO, P.G., lnzh.; SHKILI, A.D., inzh.; KRIVITSKIY, S.M., inzh. Semiautomatic machine based on the horizontal milling machine for rourh-cutting bevel pear teeth. Mashinostroenie no.2:16-20 Yx-,Ap ,62. (MIRA 15:4) 1. Kharlkovskiy stankozavod. (Gear-cutting machines)  GORBASI) V.S. Against outmoded methods of quality control. Standartizatsiia 29 rio.10:25-27 0 165. (MIRA 18.:12) 1. Nachallnik otraslevoy laboratorii nadezhnosti Soveta narodnogo khozyaystva Moskovskogo gorodskogo ekonomicheskogo rayonas  BORISOVP V.P.; GORBASH, A.A. Use of vegetable oils in the production of biomy4ne Spirt,prom. 29 nc;.1:22-23 163. - (MI,tA 16.2) 1. Nezwohayevskiy savod kormovykh antibiotikov. (Chlortetracycline) (Oils and fats)  BORISOV) V.P.; GALYUGA, T.N.; GORBASH, A.A. - - -------- Biosynthesis of vitamin B,12 and its losses in the various stages of the production of vitaminized biomycin feeds. Ferm. i spirt. prom. 30 no.1:24-27 164. (MIRA 17:11) 2. Nemeshayevskiy zavod kormovykh antibiotikov.  YURCHENKO, F.A.; BORISOV, V.P.; GORBASH, A.A. Effect of iron on the blosynthanin of chlorU!traryclines Ferm. i spirt.prom. 30 no.4232-34 164- (MIRA 18:12) 1. Kiyevskiy spirtovoy trast (for Yurchunko). 2. Nemeshayev- skiy zavod kormovykh ant-iblotilov (for Borisov, Gorbash).  BORISOV, V.P.; GORBPSH, A.F. t Utilization of waste filtrate in the production of antibiotic feeds. Spirteprome 29 no.2:41 163, - (KIRA 16:3) 1. Nemeshayevskiy zavod kormovykh antibiotikov. . -(Feeds) (Was'te products)  BORISOV, V.P.; GALYUGA, T.N.; GORBASH, A.A. Device for the control of air sterility in factories of antibiotic feeds. Spirt. prom. 28 no.6t24-25 162. (KIRA 16rlO) 1. Nemeahayevskiy zavod kormovykh antibiotikov.  & V v r 1, T,--Z 0y llharmacolofg and Toxicology. Analgesics 1,11~. JUIR. RZ117-0iol't No. .5 1959, Un. 23012 L1,1TItill Sarigayl,,,. A.K.; DenIgina, E.D.; Clovbaahova, M.P. IL c on of Aii, -i Amina- On thi, C omb i no ell alges ce witl zin c FIG -I'UB- Fa-n-vilrol. i tolmiltologiya, 21, 1,10 3, 10-12 In exzpoz4~1-eionts -on rrtts by ~h.:) of pinc-, i UA CT I i n F, tlic tlall, the action (.,1j',) of aninazin CLI-I) ria',lifested it,,iolf, bogiritr vj,lth -the sub- Cutal"llus a67n ini strut ion 0 zl_~14 (thrci2hold 5 doro ) of A;M. WJ' th tj~_e increase. of the flusago of L AM, to 10-2-0 mTAcg, the ljj+~-nsii7j ard duratio,_j of AA Incileascid. All LntansLf ied tho AA of pyramidon L.o ri grenter dogree than that of analgin.-- F-rom the author3t sumary Card- -IA  "!J'!A, Cl.:~., Doc Sci f in tu,.-.or,, of Vic br, In of loc ")!!I llirtuo- Evc-r.-Il !)T) S t.- u l1!- 2nc) COA ~1;- 40--,97 lo'~)  USSR/Ilumn nnd Aninal K)rpholocy (Normal anCI Patholorical) The s-4 Smal Apparatus Abs Jour Ref Zhur - Diol.) No 12) 1958, No 55160 Author Gorbasheva- T;,.P. Inst =SvOrdl6-v-sIF-ie-H-]ron or the All-Union Society of Anatorly, Histolcu-y and EmbryoloGy Title :The Morphology of the LiGamantous Apparatus of the Uterus. Orig 11-lub:Sb. nauchn. rabot Svercll. otd. Vses. O-va anat., r;ist. i ambr., 1957, vyP- 1, 44-46 Abstract : The structure of the uterine li(pnentous apparatus vas examined on a total of 50 uterine specimens, which were ubtained by the macro-and microscopical preparation nothol". UI,A has a laminated structure and it represents the Alirect prolongation of muscular and connective fibers. The wiae ana uterosacral liamuents consist of tvo connective tissue laminae, which proceed independently to the pelvic fascia, and which contain smooth muscle fibers situated between the laminae, as well as fat calls ana vessels, which are enclosed Card 1/2  USEAR/HW:ian and Ai-,i:-al Morphology - Muscles. S I Abs Jour : Ref Zhur Biol., No 5, 1959, 21523 Author : Gorbasheva, T.P. Inst : All-Union Society of Anatoidets, Histologicts and ELibryologiate Title : Macro- and Microscopic Data Concerning the Pelvic Faacia and Its Relationohip to the Female Pelvic Organs Orig Pub : Sb. nauchn. rabot, Sverdl. otd. Vsess o-va anatoriov) gistologov i erabriologov) 1957, No 1, 47-50 Abstract : A study was rnde of the architectonics of the pelvic fascia following staining of the elastic fib3rs with orcein. and collaganous fibers with nothyl green. In the fascia of the levator ani riuscle the collagen bwidles are fibrillar) parallel to one another and Cnrd 1/3 USSOR/Humn and A.-ainal Morphology - Muscles, Abs Jour Ref 71iur Biol., No 5, 1959, 21523 arranged perpendicularly to the muscle fibers. The elastic fibers form powerful bands arranged in 3 layers. In the lumbar fascia the collagenous struc- tures formed 2 layers and the straight fibers are perpendicular to one another; fibers which are ad- jacent to the muscle are porpeudicular "Llo the ziuscle bundles. The elastic structures are arranged in 4 layers (single bundles, a large-loop and a na*,row- loop network). In the obturator fascia part of the collagen fibers (base of the fascia) is arranged tran- sversely; others are arranged either obliquely or vertically. Di one layer the elastic fibers are re- presented by paral1il deli-ate fibers; in the other 2, by networks. A study was also nade of the topo- graphic relationships of the visceral fascia in the area of the minor pelvis. It waa shown that its 2 layers are arranged frontally and envelop the uterus Card 17 USSR/Hunnn aud ilu-iinal Morphology Muscles. S  fibs Jour Ref "liur - Biol., N:) 14-, 1,-)50~ r9 65339 Author Inst Title The Viability of the KicIncy FollovinG Ligation of the Benal Artery. Aii Experinental L-mcs-Ugation. (Iveliminary Ccxu-mnication) - Orig Zlub 'Jrclo~;43, 1957, No 6, 6-9 Abstract A contrast- matnrial injec-'ZoO. into the vascular syst= of O.o~;s 1-2 months after liLAtion of one renal artery, iPhilc the collateral to that hiOncy were left intact, fill&~- the vessels of the kidney which vndoi-weat the operation, i~giich iras raluc& in size and in which 'histological examination showc(I necrotic foci in the cortical and medullary layers. Aliter the injection of in.50 of the cases the capacity of that ki(hicy to c;,,crete the dye remninoft, clue to -the presence of the collateral circulation. Card 1/1  GORBASIOVA, T. p Relntion of connective tissue forMAtiOnS to uterine blood vessels Lwith summAry in Englishj. Akunh. i gin. 33 no.6:65-68 II-D '57. tHIRA 11-3) 1. Ix knfedry normallnoy Anntomii Sverdlovskogo meditsinakogo institute. (UTERUS, anat. and histol. connective tisaue strunture, relRtion to mfimt. & physiol. of blood vessels)  USSR/Humn and Animal Physiolo.-Y (N~)rmj and Fathol3j;ical) T Dl..-.))d Circulation. Vessels. Abs Jour : Ref Zhur Diol., No 6, 1959, 26620 Author : Gorbasheva, T.P. Inst : Title The Creation of Artificinl DloDd Circitlation :)f the Kidney. Or i Pub Arkhiv anatoniiO ~;istol. i Euibriolo6ii, 1957, 34, No 40 77-81 Abstract 4 consecutive operations were 1)erformed on doGs at inter- vals of 1 month : decapsulation of the kidney and its wrappinG into omentum; liGation 3f one of the two bran- ches of the renal artery; removal of healthy kidney, and finally, complete liLption of the artery of the renaininG kidney. Arterialization of the kicluiey at the expense of newly inter&TowinG vessels fron omentum was sufficient for survival of aninale and preservation of functioniliC Card 1/2 - 51 - USSR/Ilumn and uiiral physioloL.Zr (Normal and Patholouical) T Mood Circulation. Vessels. Abs Jour Ref Zhur DiOl., Na 6) 1959, 26620 kidney tissue. Dlo~)d Uul)!)lY of the kidney was confirmeA roeat~;enoloGically and with corrosive preparations, and its fxulctianal ability was proved on the basis of labo- ratory investiGatio;18. O.M. Akinfin Card 2/2 `2  GORBASHNA, T.P., doktor med.nauk .. " 4:~ ~ -"~ ~ ~ - -- I-- V'iability of the kidney following omentization and ligntion of the ranAl vein. Urologtia 23 no.3:7-10 Hy-Je 158 (mmA 11.6) 1. Iz kafodry normallnoy anntomii Sverdlovokogo moditainskogo inatitutne (KIDNRYS, surg. decapnuIntion, omentizntion & ligntion of renal vain, off. on viability in nnimale (Rua))  GORBASHNVA, T.P., doktor mod. nauk. Rentoratlon of blood circulation in the kidney after trauma and liga- tion of branches of the renal artery. Urologlia 23 no,60-5 N-D 158. (MIRL'11.-12) 1. Is kafedry normalln0y Rnatomii Sverdlovskogo meditzinskogo instituta. (RIDNAYU, blood supply restoration of cire. after trauma & ligation of branches of renal artery in dogs (Rae))  GORBASHEVA~ T.P.,- FUSHKAREV, L.N. How data on resection of the posterior [i.e.,inforior] vona cava oraniad to the inflow of the renal vains. Arkh. anat., gist. i embr. 42 no-5:50-57 My 162. OMIA 15:6) 1. Kafedra normalinoy anatomii (zav. - prof. T.P. Gorbasheva) Sverdlovskogo meditsinskogo instituta. (VEENA CAVA--SURGERY) (RENAL VEIN)  B'-,: H.V T f Z,~ nov' v f i rine tjr,:i b-p -U, i unat. 4 cnbr. 3 n,-,. Kafe.,-'ra nc rimr. 1rlciy r,j L-,p; bf! t t  GORBASHKO, -A.I. (Leningrad, Novocherkasskiy prospekt, 25, kv.48); ROGOZOV, L.I.; FEDOTKIN, D*V. Topography of the principal vessels of the stomach and their signifi- cance in surgery. Vest. khir. 92 no-3:49-55 Mr 164- (MIRA 17:12) 1, Iz fakulltetskoy MiTnargicheekoy kliniki (zav. - prof. A.A.Rusanov) Leningradskogo pediatricheskogo meditsinskogo instituta i ob"yedinennoy bolinitsy imeni Kuybysheva (glavnyy vrach - Ye.V.Mamy8hava).  PANFILI. L.S., Inzh.; MIRFIR, N.J.1 inrh,; GORRASHOV, s.G., inzh. Centrifuged reinforced concrete supports to be used in areas with higb ground-water level. T-ranap.stroi. 9 no.9:39-40 S 159. (MIM 13:2) (Electric linne-Poles) (Precast concreto construction)  GORBUHKO, A.I. (Ioningrad, Novocherkasskiy pr. d.25, k7.48) Determining the dimensions for resection of the stomach in peptic ulcers* Vest.khir. 89 no.ll,.19-24 N 262. (MIRA i6s2) lo 1wkliniki fakulltetakoy kbirurg-41 (zav, - prof. A.A. Rasanov) I,emingradekogo pediatrioheskogo meditsinskogo instituta (direktor dotsent Ye.,P. Semenova) i CYb*yedinenn bollnitsy imeni T.Y. Kuyby- sheva (glavnyy vraoh - YeA Mamysheval. (FUTIC IJWM) (STMIACH-ZURGERY)  EXCERTTA YMMCA See 2 Vol 12/2 PHysiolory Feb 59 722. OBSERVATIONS ON CHANGES IN GAS EXCHANGE AND BODY TEMPERATURE, IN HUMANS WITH FEBRILE DISEASES OF VARIOUS AETIOLOGY (Russian text) - Gorbal-Sevich L. 1. From the Sympos- ium; FIZIOL. MEKIIANIZMYIIKffO-I-tM-G-Cl-IN.-I-tRX-KTSII (Medgiz, Lenin- grad) 1957 (56-63) The consumption Of 02 and the changes of deep and peripheral temperature were studied in therapeutic 'aseptic' fever. caused by i.m. injections of A suspension of sulphur (sulphazine) or electropyrexia in 16 humans and in febrile diseases of various aetiolcgy in 36 humans. The relation between deep and skin temperature was different in different patients during the various stages of the attack; dis- crepancy of the temperature curves and ttw~r %,tv, will% 'VIlf, comikimption o1 04 following inalphatme Injections increased in nearly all the car-es during tile perod or tile temperature rise; it dropped in mo&- cases at the height of the febrile rz-action. and changed to varying degrees in different patients during the period of temperature drop. The absence of complete coordination contradicts the theory of direct dependence of changes of body temperature on the intensity of oxidative processes and indicates the importance of heat emission processes. (S)  Cbenistry - Generijl cht,mlatry Card 1/1 Pub. 116 7/24 --and-Gor-bataya,-A.-I- Ys-- J. Title I About the compoDition and stability of a tartrate iron compIE--c N~ --Ta~bes; ~graph~s, institution Vw T. H. Shevehe&.o State University, Kiev Submitted December 12, 1953  GORBATENKOp A., general-leytenant --w ---------- I Increase the activity and combativeness of ever7 party orguization. Komm. Vboruzh. Sll 4no.3s.V1.16 F 164. (MIRA 17:3) 1. Nachallnik partiyno-organlzatoi6ndogo upravleniya, Glavnogo A politisheskogo upravloniya Sovetakoy Armii i Voyenno-Morskogo o Flota.  GORBATENKOP A. Gv Treatment of peptic and duodenal ulcer with bikalin. Vrach. delo no.6:150-151 Je 162. (MIRA 15:7) 1. Gorodskaya bo.11nitsa, Pereyaslav-Khmellnitskiy. (DIGESTIVE ORGANS-ULCERS) (BISMUTH)  HOL(fl0l, A.T.; DHITRIYEV, A.I.; GORBATIRKO. A.I.; SMOTAN-SARINGULTAN, G.P.; MAIHOY,F.Te.; KRI -YOM&.,, .A.. doktor takhn.nauki red.; ORMOYSCIT, G.I.. prof., doktor tekhn.nauk, red.; TRETITAKOV, I,P,, prof. doktor tekhn.nauk, red.; ALAKSIM. 'S.A., dotsent. red.; MALOV: A.N.. doteent. kand.tokhn.nauk, red.; SHAKEDIAMMOV, M.N.. dotsent, red.; VCLOSKIY. V.S., red.; GALITSOV, A.D., red.; KABANOV, N.Ta., red.; TOLCHNNOV, T.Y., red.; IMARITONOV, A.B., red.; KHISIH, R.I., red.; SHOR, M.I., red.; ESMOVA, N.M., red. izd-va; ILIKIND, V.D., takhn.red. (Time norms in general machinery manufacturing for applying coats of lacquer; large, medium, and small scale production] Obahchemashinostroltelinye normativy viromeni na lakokrasochnye pokrytiia; krupnoseriizwe, seriinoe i molkoseriinoe prois- vodstvo. Moskva. Gos.nauchno-tekhn.isd-vo maohinostroit. lit-ry. 1959. 83 P. (MIRA 12:6) 1. Moscow. lFauchno-issledovatellskiy inatitut trade. TSentrall- noye byaro promyshlennykh normatiVOT PO trudu. 2. Rabotniki otdols trudovykh normativov Nauchno-issledovatel'skogo institute traktore- sellkhozmasha (for Molotok, Dmitriyev, Gorbatenko, Sharoyan-Sarin- gulyan, Kalakhov). Olainting, Industrial) (Machinery industry)  VIALAK11OV, P.Ye.j MOLOTOK~ A.V.; DMITRIYEV, A.I.; GORBATENKO, A.I.; IOROVA, Ye.P.; BARKNOV, B.A., inzh... red.; DOBRITSYNA, R.I., fekhh. rea. (General time noram used in machinery manufacturing for establishing machine-work norms in woodworking shops; mass, large lot, andlot production] Obahchemashinostroitellnyo normativy vremeni dlia normi- rovaniia stanochnykh rabot v derovoobrabatyvaiushchikh tsekhakh; masso-voe, krupnoseriinoe i seriinoe proizvodstvo. Moskva., Gos. nauchno-tekhn. izd-vo mashinostroit. lit-ry,. 1961. 78 p. (MIRA 14:10) 1. Moscow. Tgentrallnoye byuro promyshlennykb normativov po trudu. 2. Pauchno-isoledovateltakiy institut tekhnologii traktornogo i sellskokhozyeqstvennogo mashinootroyeniya (for Malakhovp Molotok~ Dr,itriyev, Gorbatenko, Ionova). (Machinery industry) (Woodworking)  ; I.HM ~5ffiq.  . GORBATENKD, A.K.; KMTHILTSKAU, D,S,, kand.fiz.--nat.nauk ~ hape of equilibrium diagrams fer binary alloys. Probl.netalloved.1 fizemet. no.6:191-195 '59. (MIRA 12:8) (Phase rule and equillibrius) (Alloys) ., I I  S/137/62/000/003/106/191 Ao6o/Aioi AUTHORS: Gorbatenko.---_AK,, Kamenetskaya, D. S. TITLE: On the shape of equilibrium curves of binary alloys PERIODICAL: Referativnyy zhurnal, Metallurglya, no. 3, 1962, 7, abstract 3142 C'Sb. tr. In-t metalloved. infiz. metallov. Tsentr. n.-i. in-ta chernoy metallurgii", 1959, 6, 191-195) TEXT: Using the example of a state diagram of a system demonstrating the formation of a continuous series of solid solutions and using a particular case (the Au - Pt system), an analysis was carried out of the variation in the shape of equilibrium curves (in particular, of the solidus line) as a function of a change in the parameters characterizing the intermolecular interaction. There are 8 references. Z. Rogachevskaya [Abstracter's note: Complete translation] Card 1/1  S/08i/62/000/017/016/102 i B166/B180 AUTHORS: Gorbatenico, A. K., Kamenetskaya, D6 S. TITLE: The uhape of the equilibrium curves of binary alloys PERIODMI: I'Leferativnyy zhurnal. Khimiya, nd. 17, 1962, 47, abstract A. tr. In-t met,lloved. i fiz.,metallov Teentr. .17B314 no-I. in-ta chernoy., 6tallurgii, v. 6, 1959, 191-195) TEXT. in oquation.is suggested which shows the relation bptween the conutitution diagram and the parameters-which chardoterize the interaction between the components of a system (concentratiq~pte'ntropieo, heat3 Of meltin6 and meltina points of the componen.tqp and mixing energies of both, phases) for binary alloys torming-continupu4 'series of solid solutions. The equation ha*s been tried-out on the Au -Tt system. The eiperimetital liquidus line of this system was found to coincide with the theoretical. [Abotracterla note; Complete tr.analationq' Card 1/1  i t i !ric .11 T',Ipt i,:  VAVRUKa, A.T., insh.; inzh. Organize steady ventilation of gassy mines. Bezop truds, v prom. -,2 . ;LO.2:9-10 7 It 59. iMM 12:2) (Mine ventilation)  GOREATENKO,, G. Criticizing. NTO 3 no.6:29 Ja 161. ( MRA 14:6) 1. PredsedatelO proizvodetvenno-massovcy komissii profkana stayfKostroitellnogo zavoda imeni S.M.Kirova, g. ThIlisi. (Tiflis-Machine-tool'industry)  ,AORBATENKOO G. Increase the efficiency of production coqfOrences. Soy. proffioiuzy 17 no.5sl7-18 Vr 161, (MMi 14:2) Preftedatell proisrodstvenno-mansovoy kamisaii zavkom~ prafsoyaza. (Tiflis-aachine-;--tool industry) (Works oolmoila)  - --L'Zacli T V., I f " i-Y . 1G . G. ; B y z C- ti. S . y o . ......... -1 -~- PyllrocilemL-al char--ol,or'st5-:3 -)" aruill m3c-.rv,~Jrti Lf M~~- ' . J. 6 - da iia Biol. res. voas Mlolld. jlo.;~ .424.~-59 16 41. (~aRA je::Lo)  SOV/121-5 B-10-16/25 AUTHOR: ggrb""Uj G.M. TITLE: A Test-ing-Machine for Mooring Fittings (Mashina dlya Ispytaniya dhalocbmykh Prisposobleniy) PERIODICAL:Stanki I Instrumentl 1958, Nr 109 P 37 (USSR) ABSTRACT: A testing machine specially built by the 'Tbilisi Machine Tool Works (Thilisskiy itanklostroitelInyy tdavod) "Imeni Kirov r for the testing of mooring fittings is shown in outline together with its hydraulic circuit. A load of up to 209000 kg is ap lied by a-hydraulic cylinder. Two smaller cyl inders serve to return the ram. The tested,rope or chain is attached between the short arm of a bellerank forming part of a lever scale-and a special fitting connected to a crossbar of the hydraulic ram through a turnbuckle and a Card 1/Z  SOV/121-5 8-10-16/2! A Testing Machine for Mooring Fittings Self-alignimg-link, The hydraulic system has a fast displacement and a slow-loading motion. There is 1 illustration. Card 6 /-2  GOREATENK09-G.M Good,results have been obtained, Mashinostroltell no.2t . F 65. .I I . I(mT30813)  '-- ~' -- , . , , , .1 ~ - r -.II- , -, . I- ~~ I -- ~ I-, ~~ --91 It, "? ~ - -1 - -1. GORRAISNKO, GA - ~ I. - _'~- I - p - - - - - Forms and methods of promoting advanced practicos at the S.M. Kirov Machine Tool Plant in Tiflis. NTI no.8t23-24 165. (MMA 18 t 9) 1, Starsbiy inzh. po tekhnicheskoy informatsli Tbilisskogo stankostroitellnogo zavoda im. S.M. Kirova.  5/028/60/000/010/oll./020 B013/B063 AUTHORS: Gorbatenko, I. V., Sokol. I Ya, d TITLE: Experience Gathered in the Production of Stainless Steel Sheet PERIODICAL: Standartizatsiya, 1960, No. 10, PP, 44 - 45 TEXT: This "Letter to the Editor" deals with the standards POCT 5582-50 (GOST 5582-50), GOST 5632-51, and.LIMTY 3126-52 (ChMTU 3126-52) which refer to the production of stainless steel sheet and strips. The recommendations made there for heat treatment (GOST 5582-50 (Table 1) and ChMTU 31 '26-52 (Table 2)) do not always guarantee a high quality of sheet., Therefore. the suggestion is made to al~,er the heat treatmento ;e types IX13 - 2X13 (ILKhl K of sipl sheet of the MM)Ibin such a way that ~KM3)%%and X17H2 T the sheet is cold-rolledl not after annealing~ but after drawing Non the strength of piL~lished data, supported by practical experience, an optimum ratio of hardness to plasticity in the cold-hardened state can be guaranteed for steel sheet and strips having the lowest content of nickel (8-9%) specified in GOST 5632-51 (Table). Specimens made of steels with Card 1/2  Experience Gathered in the Production of S/028/60/000/010/011/020 Stainless Steel Sheet B013 Bo63 'A different nickel contents have shown that cold-hardened metal with a !(~-w content of nickel has excellent mechanical properties,. This is due to the low stability of austenite and results from the formation of martensiti- structure which, in turn, increases the hardnfas of the metal. There is 1 table. ASSOCIATION: Zavod "Serp i Molot" ("Serp i Molot" Plant) Card 2/2  ZKZTVIN, N.F., kand.tekhn.nauk,- GORBATENKO, I.V., inzh.; KONTSEUYA, Ye.M., bob. Effect of chemical composition on the properties of peened Ku8Nq steel. metaIloved. i term. obr. met. no..L;45-41 Ja '63- (MIRA 16:2) 1. Zavod I'Serp i molot"* (Steel alloys-Testing)  AUTHOR: Gorbatenkop K. G,p Senior Operator MV/92-58-1-7/22 TITM: Three Hundred Sixteen Days Without Overbaill (316 ffutok bez remonta) PMODICAL: Neftyanik,, 1958., Nr 1. IT- 9-12 (UM) ABSTRACT: There are different vays to boost refinery output. One of them in to lengthen the operating cycle of a processing unit. With this aim in mind refiners of the new Groznyy refinery have made a =dber of alterations in the equipmnt of the catalytic crackLng unit. The -,, most serious defect of this unit vas that the coils of the regenerator vater-cooling system were getting out of condasion too early. There- fore., following the suggestion of the refinery's chief engineerp Prigornev.. and unit heads Pugachev and Yershov., the regenerator cooling system van modified., the nunber of coil tubes vas reduced by 50 percent.. coil pitch vas increased from 100 m, to 200 m. and nualeos tubes vere installed instead of tubes vith velded joints. Card 1/4  Three Hundred Sixteen Days Without Overhaul WIJ'92-58-1-7/22 When this reconstruction of the unit was completedp it was decided to extend the operating cycle of the unit and to pay a bonns to Pperators who succeeded in running the unit 200 da;js without interruption. At the sam time an appeal to all Groznyy refiners was published in the newspaper "Groznenskiy Rabochie in which they were requested to extend the operating cycle of units. As a reawlt,, operators of the catalytic cracking unit pledged to ran the unit for 2,10 days without shutting it dovn for an overhaul. Numerous difficulties, especially In connection vith cat&4-st circulation., Vere encountered before refiners could break this record. It was necessary to ensure a uniform charge of the catalyst into the reactor sectionp and to see that the catalyst circu- lated continuously. Since failures of the cooling system tubes were most frequently caused by salt deposits on the tube walls,, it was decided to use condensed steam instead of water. Moreover., the refinery technical council has decided to take measures to prevent the catalyst from overheating and to to improve operating conditions in the regenerator. Formerly, the assistant operator in charge of dosimeters worked in an overheated place,, and regulated Card 2/4  Three Hundred Sixteen Days Without Overhaul SOV/92-28-1-7/22 the catalyst level in hoppers by turning gate valves manually. As a result of the introduction of automation., he is now able to work in the control room,, where he does his job by merely pressing buttons. Due to the efforts of re- finery personnel the operating cycle of the catalytic cracIting unit was extended first to 250 days,, and later to 316 days., cbn-Ing which time the unit operated without being overhauled. As a reaulti, in 1957j, the unit was kept on stem 30 days longer than previously and tbie helped -to saw. over ha3 a million rubles, 360 tons of liqaid fuelj, and 2200 tons of steam. This was achieved partly as a resat of high qualifications for ref^lxsary workers,, whose training wassubstantially. improved. At present the sapply of air to upper sections of the regenerator is reduced to a vintle the supply of adr to lower sections is increased. The edr supply is controLled. by an analysis of flue gases taken frcm various unit sections. Efforts are being made to keep the content of oxygen in outgoing gases under 2-3 percent and the content of carbon monoxide under 0.5 percent. There are 2 photographs.. one showing a group of operators who succeeded in extending the unit operating Card 3/4  SOV/92-58-3.-7/22 Three Hundred Sixteen Days Without Overhml cyclej, and the other showing the electrical desalting unit recently put into operation at the GrozWy refinery. ASSOCIATION: Novogroznenakiy NZ 1. Refineries-Operation 2. Refineries-Maintenance 3. Petroleum-Fracitionation '/+. Pictures Card 4/4  VEMOVODOV, P.A.; GORBATINKO.-L.S. Use of scattoted radiation in the Xrfty spectrum analysis of molybdenum. Zkv.lab. 30 no.6s 691-694 ~,64 1. Sibirskiy gosudarstvennyy proyektnyy i nauchno-isoledovatell- skiy institut tsvetnoy metallurgii.  8/781/62/000/000/007/036 -AUTHOR, Ehynberg,-Ya-B., _Gorbateenko,M_-_,-Kuri1ko,-V'_ TITLE: Cerenkov radiationin a bounded gyrotropic medium PERIODICAL: Fizika plazmy I problemy upravlyayemogo termoyadernogo sinteza; doklady _17 konferentsii po Mike plazmy I probleme upravlyayemykh termoyadern3pkh reaktsiyw-- Fizi~tech-.Anst;--AN-Ukri-SSR.--Kiuvi-lzd--vo-AN-Ukr;-~R~-l~9611-134- -39-- TEXT: The dispersion properties of a plasma column in a. magnetic field differ appreciably from the dispersion properties of an unbounded plasma in a mag-netic field, and consequently the interaction between auniforrnly moving particle. with the fields of a plasma wavegulde 0Aced in amagnetic field are of Interest. -Meat previous -investigations have dealt with &.0 - interaction between a charged particle with electromagnetic waves In unbounded unisotropic and gyrotropic media. Maxwell's equations in the region occupied by the plasma are solved In straightforward manner. but the expressions are too cumbersome in general, and are interpreted only for  B/78i/62/000/000/007/036 Cerenkov radiation in a bounded several limiting cases. In the case of zero external magnetic field, the retardation due to the Cerenkov effect turns out to be smaller than that due to polarization losBes both in Ue case of small radii and small densities of the plasma. It can be shown, howe ver, that when the Cerenkoy frequency is much smaller than the polarkation frequency, a plasmoid may turn out-to be.coherent with-respect to the Cerenkov-- -to t rization losses, and then the v ratiiatoti and fiic66erent witit respect re pola Cerenko if -particle denalty. In- the plasmot losses mRY_-pr6Ve_ lirger: thah-,the;po V -separ 4, :AU r-.c la~ bigh- ondequent Y 168sWin eam-PO on-of the spec LuAtes- rum __A ate y, rep i:dless of their rela tive maj~iitude. b~'~ r*Obaahw~ah lon-by-clotroh ite--d---'-- -ra-sonan are C W c kea exic _aM_ also 4nvestipted.---,--------,. There areelght references, of which-only the paper by E. Fermi (Phys Rev.- - 67, 48 5, 1940~ to Jn~ English. Card 2/2  S/781/62/000/000/008/036 AUTHOR: Gorbatenko, M. F. TITLE: Interaction of electron beam with a plasma in a magnetic field PERIODICAL:. Mika plazmy I problemy upravlyayemogo termoyadernogo sintclza; doklady I konferentsli po, fizike plazmy I probleme upravlyayemykh termoyadern),kh reaktsiy. Fiz.-tech. inst. AN Ukr. SSR. Kiev, lzd-vo AN Mr. SSR, 1962,3e-45. TEXT: The equations for a beam of charged particles interacting with a plasma In a longi- tudinal homogeneous and constant magnetic field are derived with an aim towards investigat- ing the formation and acceleration of runaway electrons and the stability of the plasma., as well as towards determining new methods of amplification and generation of miorowaves. The treatment is in the hydrody-aamic approximation and deals with the excitation of the ton-cyclotron frequency in the interaction between an unbounded electron beam with an un- Wended plauma in a constant magnetic field, the excitation of the Koerper resonant frequency, and excitation at frequency close to the natural frequency of t1he plasma. The interaction be- tween an electron beam with a plnsma in a magnetic field and bounded by a metallic case Is -Card 1/2  8/781/62/000/'000/008/036 Interaction of electron bean, with a plasma considered for certain specific values of the radii of the beam, plasma, and case as well as for certain limiting frequencies. Also considered Is the interaction between a bounded elec- tron beam and a bounded plasma for both infinitely large and vanishingly small magnetRc -top c -The e no- reference s- but mention- B -with-auggesting the re ar ftynberg-is -credited to work by G. 1. Budker (19530) and by Lthhart (1960) to made in connection with certain sta- bility criteria.  b6an 1962 v '0a+ tron IDr, P_ 0 ejec q. C 'tio 7'b'A a, ,,jte 0 Is a P .'tJO of nal 15C,6 ati-OT'5t-ni~D 255 cons -'kt Or c O'rk Lork of all "' Yilitl of a ori.- ta Case 41he s,,,,.ace The Vas Urte c-reluerlts. . V 0..4 C 6 Tbp- .,Ve&. . ne& for ir~ trl Q lasma r e e "' 0 tal ' the SYMZC Mpollents ~As 9,r e s jollj- th lociw c' as a M all& uat"O 1S.S 'A a.V e e a Ve . ,jed. zo- 'boa -rojoll eq b0am-? 7,e the terTRIT , 110 tron tron t~~'Jj v 'at 0 (-,he ajej) elec Jim 'tj1' GIL -a 0, ti~oj%S I!Ma. 0011b or e(I tem 0.9 the is ije e. & vl," ste'M the Sys Mallof equa lines. ea all The el. SI cis e a b beaml ' Stelt r, T015 V f tb R'11 lk - the 7,- S . al 51 re(l, rOlls 0 an a OnG oleo t-rjo gJ11 Cc 115-1&C aad. ecot comy011 of the ecte6 ar the iolris the & i. S e t Poll ~rL Of tjo-A Of "tir- f the Go func Is$ 'aag%%U 0 9ej,.eO'k bt ai. tiOT15 is 0 C a,& 1/5 S/185/62/007/003/001/015 Interaction of an electron beam D299/D301 fields. In the case under consideration, the slow wr.vea can be only F,waves. These are described by the equationG Wit- (26) FP I jaEt+1a"11'-0' a, a~Wjly-labExj sions involving the LarmOr n by expres where the coefficients OL are give vector X3 0 1 the frequency R e of electrons, the projection Of the wav 0 boundary cOndi the velocity Components. Making Use Of the as a Z-axis, and btains the dispersion equation which determineo k3 tions, One 0 ers of the System plasma function Of the frequencyt with given parame.t -beam, viz-t + .~K~ Cb) (I. (-b) R, (,a) - 10 (ca) K0 (.b)]) (37) - 1, (ab) K, (ca)] k"310 (aa) (ej~Ko C%b) [1, (aa) K, (ab) (.-b) 110 (ab) K, (,,a)+ 1, (oa) 1 4; in this case Eq. (39) becomes q + k~'O 3 ' 2 (w k,v 10) L (53) where Y(k3) 2) k b 3 The instability condition is > I + 3 [~~, In W2 2w Tk.a~ (k3) en eo Eq. (40) is also considered in 2 limiting cases. In the firut case, the, instability condition is - . 2 In b W-20 I)IM,2 V k , , to 00 1 \56). Fron Eq. (58), one obtains the limiting wavelenCthi I 3 b 0" - (59) Card .4/5 2  5/1,35/62/007/003/001 /0 15 Interaction of an electron beam ... D299/D301 ~ (58) it follows that all the waves which are longer than the From E q . W lir.itin& wavelength, are strengthened. There are 2 references: 1 Soviet -bloc and 1 non-Soviet-bloc. The reference to the Eno:rlish-lan&uage pub- lication reads as follows: P.A. Sturrock, Phys. Rev., 117, 1426, igloo. ASSOCIATION: Fizyko-tekhnichnyy instytut AK URSR (Physicotechnical Institute of the AS UkrRSR), Kharkiv SUBIMITTED; June 20, 1961 JA Card 5/5  G 0 .1 Interaction between an electron beam and a pl"ma. Zhuritekhfiz. 33 jio.2.-173.-176 F 163. (MIRA ~l6s5) 1e Fiziko-tekhnicheakiy institut AN UkrSSR, Kharikov. (Electron beamo) (Plasma (Ionized *sea))  GORBATENKO, M.F. Interaction of an electron beam with a plasma in a magnetic fie34. Zhur. tekh. fiz. 33 no.9t1070-1079 S 163. 1 (MIRA 16:11) 1. Fiziko-tekhnicheskiy institut AN UkrSSR, Khartkov.  ACCESSION NR: AP4040324 8/0057/64/034/006/1136/1138 AUTHOR: Gorbatenko, M.P.; Kurilko, V.I. T'rZLE- Contribution to the kinetic theory of surface waves in a plasma (Letter to i the editor) SOURCE: Zhurnal tekhnicheskoy fiziki, v.34, no.,6, 1964, 1136-1138 TOPIC TAGS: plasma, surface wave,, plasma physics, plasma wave propagation ABSTRACT; The dispersion equation Is derived for the propagation of surface waves at the boundary between a plasma and the vacuum, for the case that the electron tem 1perature is small but not zero. Maxwellts equations and the kinetic equation for small deviations of the electron distribution function from the Maxwellian form arei subjected to a Laplace transformation with respect to the coordinate perpendicular to the plasma-vacuum a'urface. The collision integral and the kinetic pressure of the electrons are neglected. The impedance of the plasma is calculated and the dia-;..-- 1persion equation is derived by equating this to the impedance of the vacuum. The Iresulting dispersion equation reduces to that dincussed by Ya.B.Faynberg and M.F. lGorbatonko (ZhTF 29,546t,1959) for vanishing elactron. temperature. The damping cons-1---- Card 1/2  7 'ACCESSION NR: AP4040324 itant is found'to be proportional to the thermal velocity of the electrons. This !damping is said to be a result of Cherenkov absorption of the energy of the waves ~by the thermal electrons of the plasma, and the slower waves, with which the elec- trane can interact, are said to represent the short wavelength Fourier components i lot the field of the surface waves In the plasma. "In conclusion we take the occa- Ision -vo express our sincere gratitude to Ya.D.Faynberg for suggesting the topic and for valuable diaoussionso" Origlartehast 12 foxmulao. 'ASSOCIATION: ione SUBMI i 03Juu63 DATE ACQ: lWun64 RNCL,. 00. SUB CODRz IM NR 1W SOV: 004 OTHER:000 LCard2/2  -L 4242-66 WT (1)/1*1T-(ra)/KC/-EPF (n) -21WG (th)/gpA (P. -2 1jf ACCESSION NR: ATS007973 0SAT/in, S/0000/64/000/006/1023/102V~/~0631: .. ;Berezina,. AUTHOR: Berezin, A.,6 G P B019"i - - ~Grov JN -cu-tsenkoi Y ek % 0 Kurilko V. I I . .11, a orodnovi- o U-Tornii V,-B L Yu. Pedenko, N. S.; Kharchenko I.J.; Sh4~iro iaypkalo, evcben ot V. I.; Faynberg, Ya. B. TITIX: Acceleration' of charged particles with the aid of longitudinal waves in 1 and plasma waveguides _R~.asma SOURCE: International Coyaference on nergy Accelerators. Dubna High E izdat 1964,~ :Trudy* M6scow, Atom TOPIC TAGS: high energy accelerator, electron beam, plasma accelerator, plasma iwaveguide 'ABSTRACT: Plasma waveguides and noncompensated electron and ion beams can be uti-, 1 -lized as a(melerating systems in linear accelerators,(Faynberg Ya. B., Symposium CERN 1 841956); Atamanay enexVi-y-a6-, -431-T1-95-9-)Y-Mn such s;stems, slow elec- it-romagnetic waves v 5 c are propatated, which are necessary for particle accelera-11 !tion. TIM waveguide properties of restrained plasma and noncompensated beams axe in the case of waves.in the meter and centimeter range even for com- Card 1/5  L 4242-66 ACCESSION NR: AT5007973 -3). Under these conditions~; paratively small plasma densities around 109 to 1013 cm the high-frequency energy losses during wave propagation, which are due to the col-' i - density of electrons in metals (about lisions of plasma particles, are small. The 23 10 ) is many orders greater than is-necessary for ensuring waveguide'properties lin the 'microwave range. This leads to great losses of high-frequency power during wave propagation in metallic conductors. For plasma densities around 109 to 1013 cm the plasma, which are pro-' the energy losses during particle transist through -6 ev/cm. This to plasra density, are insignificant, from 10 5 to 10 portional hat plasma waveguides are "transparent" for accelerated -;means t particle&. Accord-. ling to the conditions of acceleration the particles are divided into individual' !bunches, Thus the loss of particles moving in the plasma can increase greatly be- Icause of the occurrence of coherent deceleration representing the inverse of the [effect of coherent acceleration, which was established by V. I. Veksler (Symposium 1CERN 1, 80 (1956)). However$ even for accelerated particle fluxes of the order of !tens of amperes, these losses are all insignificant. Because waveguide properties !are determined by the plasma, the metal surfaces can be remote from regions with jarge field strengths or eliminated altogether, which permits a significant in- ocrease in the permissible voltages of the accelerating fields and a substantial de-' 'Card 2/5