SCIENTIFIC ABSTRACT ONISHCHENKO, E.G. - ONISHCHENKO, N.P.

1--L-AA $I CL 14 U44 4 4 Rout 11MU N ""too '11"'I 1 f -106 uchod b RjAry ofifer IOI&Arkspe by molins a o wbeet Ij fill th 00 e tb# ow of C,-f4 Iraj 4,OJ oil, 1, H s % 21. sm-mliwil (Iwnlus) Timma ir-te-ni uf wtual fluu, thr quaJitirs 4 IAkj,tg 11--j, bv i -a, 1 -00 tnj favocably upon thr p-trin ta-s alh-,-Ird I,V th, j: 11ratitiff unStuund v,h,at J*V.' 00 00 $L A jit 11 Ai I- !-,!!, . I lk I*n*ai ;, I --,; I E A An I 00 t v 1w C.-.-  00 00 00 00 Ve es 00 &Ole so= mat am Ole 0 a 0:0 WWWWO 010 leall 00409609406969606 0 0.0 0 0 C. 0 0 0 0 0 0 0 'too 00 goo %* goo 800 000 tsOID  qrp 4 00000000000000000 * 9 0 41111, a *1 - Tr I "O's MOO *0 e 00 0 0 0 a 0 a 0 0~ " I 1 0 j 4 1 0 - ~ .. u ., -, 's 's I'd "PiPgoJon , 1 0 --&-A --A- -L 1. a h p upI I u v -0, -A I I m " (.T IV 91 00 Wllv~ .c, - -'0q -00 4p 994 Imp"am"I by themw u"bWal of gTDJA And floor 009 stumbW by wb"l beiii. R. G-On6bcbtWw B-Aw- q hpmd-Aokms (U. IL & R.). 1942. Nw 3. WO W. f ('. A. SY. OW.-Orain altimmirkird try heat twit van 000 In- tvwkw4 awlt" Illa bomd-ussithis by th"nuil in -%Avalkift W the PrIAMAYsir eftlysur. ih, 'fu 0*4 1in* to im,hitt"div t"thir lilt) rvnwo t,,j4 09 thets Pa-ine lmokitil, 190 hm 10 unn I"I I man.; I each csw On temp ul thi, pank 1- 1-,.% W~' %fternsts" nwiliodscansim it) ,niiiiiins Obv ginni in JI,i i ai K:"W6 * :- 3 41 m U~inj ~i I I.n., &I. Im Ivest"I as SIN.Ve. ml Onr -It- 1- -1, 00 a It V 0 0 Al 0 0 oto 0 0 0 0 0 0 0 0 0 0 0 0 0 -00 le 4, 00 00 00 00 00 00 00 4n Tw.. 0 0 O'o 0 0 0 0 0 0 0 0 0 a 0 0 a  FF, pl ff- f br"4 -baking properties of wheat v& , o inem of thernile Ireatihot-And imetbtid4 of iiv~ is -hydr y ' ~ cheniLs - tirkipAtIoxv of IN amylolytitf actlvlty~_ R; 0. Onimb d 1. 'A' Pomd1ch Qit-buol. 1111ti treat. mWnt of wAmt grain mmiked y'zvdupies Ille'im a d this allows At% t tivily, vtiltrAlih of ihls Vminjor the prepts, ot'grade flouri * Tfie nctivity-of i~t- and 04thylimes.~..:L . decirras" comWerablilmore aft~g hydt otheraile tStaflu(~11t ' _ jjOnL Omd by tbetink, ir :The nnIc treutnitat' b pirllallyL dushig thr. reversible. . Comparative :stud k% --:of niethods-of:&III. awylolytic actNity Ind"ted that, un4--t pmc tl IIIAlits g., OV coddItions, the tn~tlicA of ProsliaryAk and KoWiej ~jdkiwa 4 CA . 36, 500P ).Is pmItnible. lit cuses whemAl , t of Starch to the Sa"IPICZ.1i dt-Imble. 7  opera on-ou-the deylcei~' the, authors conolUdelhat them W Aelay, line meniory' ar knd outpu bf- inform tionAl a lhe~. 16istb 3~ lnpu~.  ccm A-75014723 0/0" t1% V- W~ ldo. Biro  CODE: , T~n4 ,4, .24 t7  aif  L -4497-66 1/f-*A(h) -PINTO AUTHOR: Gorbsn' SH.212.45 TITLE% Mopetostriction doles Hw BOURCE: AviamatikalpagxWostrogy v. &o. 3. 1965, 35-37 TOP"C TAGS: m eiradt delay line. for c material, delay circuit romagum ABSTRACT: Magastostriction delsy lines are based on the fact that ferromagnetic roaterWo trmnomit ultrasoud with a mpad which Is lower thsa the speed of electrical sigulsthroughconventionsleircults. Tbelu**4 lawalftiGosudarstvennogokomitetapo Pr6orostmyenlyu. aredtavam avicenstizataff 1 isintemam iprawlenlya pri Gooplane SM of Autatusuoul ante Caummes for 69 Deshm d eang of :0~ ft"MM auseg" to dviveloped three ouch delay lines wN delay times of so. 440, Md 2M pisec, respecOvely. 7U block diagram of the devices to Abown in Fig. I of the ftelowav. The sound con&wtor in zoade of ark 'IN-1, hard" nickel alloy wire 0.7 mm In dimeter. - Us Y~x xwddam is WMut 21, 000 - 23, 000 kg/MM2, speaffle deaft in S. 9 X/00, - uWasonad Ydooft Is 4,750 - 6, 050 peso, and the aMMUM d dW* to 1.4-104 per &C. TM wMe Presents the Pertinut draft nd a ddWW desa*Um d thi 4dq The oWadon. OrIg. aft. bu: I fWMh Md 4 f%ww.   L 4497-66 ACC NRIAP5023274 output T,OSjJRP,~-- -01'- Figure 1. Block diagram of the magnetostriction delay line I - Input signal shaper; 2 - muffler; 3 - trawmitter mapetoBtriction converter; 4 - permanent magnets; 5 - sound duct; 6 - receiver magaetostriction converter; 7 - output signal amplifier; 8 - pulse spreader. 3 3 Cwd  AM Nis AP5MS509 SDIPJZ COM WM86 /65/ODD/020/OD95/OD95 91~1, ~75- r 5-' //5// 3 5- A IBM: Sulthwdiucv, M. M,; PeUremko, W. I.; F M. Rol OnIshchemko. E. Lot V -v~pvtsk Shikalolve VO-Sp; Gw1=19 At M.; SAMP-tM V. ON f-V,. 'F- r- OAO I ODUP 7-11 TIM: A vmwry device with magnstostrictive del" 11nes.2.5'Class 42, No. 175740 Announced br-11ustituts or Automation of the State Committee on InAtrument Manufac- mytomatiki gosudarotwennogo komiteta pD ibarostroyenlyu I. sredetvm svtomatiki I sistemes upravlenlys pri gasplane SSSR)l SOWM ByWaoten' isobratenty I tovarrIM snakov,, no. 20s, 19651, 95 70PIC TAWs aUctromagnetic wwry,, circuit delay line,, storage device AWTRACTs Mis Author Certificate presents a memory device using magnetostrictive delay lines, The device contains Input and output converters, regeneration circuits, and a synd4wonizing generator. Tn order to increase rellability,, one of the digital colvow of the device is used an the synchronizer. Its regeneration circuit has two input converters spaced at a distance equal to a prim wavelength nuzber (axe Ing two) (see Fig. 1). The distance between the Input and output converters is not a m1tiple of the distance between the Input converters. UDC: 681.142:621.37,4.5  L 9797-66 ACC NRt AP502S509 Fig. 1. 1 - Hapetostrictive line; 2 and 3 - input converters; 4 - output converter; 5 - readim w0lifier; 6 - shaper; 7 - circuit of a siMle start-up* =3 ~ .1 Orig. art. has: I figurs. SUB COM, og/ SYJBM DATEt 29Sep64 16) Cj  1, U04U5-01 UAJ ACC NR, AT6029231 SOURCE CODE: UR/0000/66/000/00/0i43/0152 AU-,IiOR: Sukh omlinov, M. M.; Ferenets, N.-K.; Onishchenko, E.-,L.; Pelipenko, N. I.; Shikalov, V. S'.; Kholmskaya, Ye_._V-_;_Simtyan, G. M. ORG: none TITLE: Digital-analog computer system'using magnetostrictive delay line SOURCE: V-5esQyAlzriayA-Kgnferentsiya-semin-ar-po teorii i metodam matematicheskopo !modelirovaniya. 4th,__Ki v, 964. Vychislitel'naya tekhnika v upravlenii (Computer 7-technoiogy in control engineering); trudy konferentsii. Moscow, Izd-vo Nauka, 1966, ~143-152 TOPIC 7AGS: diZital differential analyzer, circuit delay line, magnetostriction, com- 'puter control system !ABSTRACT: The authors describe the design and perforTnance of a 'G'igital ~Iiffereptial analyzer using magnetostrictive delay lines as memory elements. The authors claim ,that such a memory has the advantages of a high speed ferrite core memory and the econ- lomiy of a magnetic drum. The digital differential analyzer has the following parameters'-- 32 integrators, binary operational code, 20 bit words, 250 KHz cycle rate, 400 opera- tions per second, and error not exceeding 0.01%. The operational program and the ini- tia.'L conditions are entered manually through switches on a control console. The data entry can be manual, using decimal or binary codes, or automatic. The digitai C-!d  L 06405-67 ACC NR- A-16029231 ,differential analyzer consists of a memory, computational unit, control unit, input and output equipment, contmi console and code converters. Of particular interr-:~t IF the design and pe 1'1'o 11MI lice ot till, mell'ory. Tho Invillory vight clvlw" lines, shown didgramiotical1v in fig. 1. The iines circulate the initial con(~Atlolls data, the program, the increments, the intermediate results, and other inform~itiori. The electrica-1 pulses ar,,-- c,)iivorted into accustical signals tit ilizing the magnetostric- tive phenomenon. The acou:;tic Tiwterial sho%ild he a nirkel-iron-titanium alloy, which reduces the temperature _~ffccts oil the deiay time--) in the absence of sijch mat-rial, T, ckel wire of mediuja hapdDess caj 6e used. 1 1,Cdianor~tcr of the wire is ver-y impor--ant. it ,'etermine~, -,ne -osolution of t:.(- delay Jrie and the magnitude of the output sik-nal. i;jt: thinner the wive, the oetter tt,e resolution and the lower tne out,-,-T signai. A~-, op,,imum diameter for a 250-1000 K~iz signal rate is O.S-0.8 an. To reduce the reEcc- t1on coefficient and physical dimensions, the delay iine is formed into a flat Archimedes spiral housed in a flat cylindrical ~~nclosure. The performance siwcifir~'l- tions for the ultrasonic delay line am, as follows: operating frequency 50-1000 delay time 800-3000 microseconds, resolution 0.5-2 microseconds, signal-to-noise ratio greater than 4, and power consumption 1.5 w. The other functional units of the digita-L differential analyzer are described in detail. Block diagrams and performance data ard given. Orig. art. has: 1 table, 6 formulas, 4 figures.  L 06405-67 ACC NR, AT6029231 7 7 T 1 1, j 4' 4 ~ Al Of Fig. 1. A block diagram of the memory unit 1 - ultrasonic delay line; 2 - the electro-acoustic transducer; 3 - receiving coil.; 4 - the input driver; 5 - output amplifier; 6 - dampers; 7 - permanent magnets; 8 - pulse stretcher; B, and B2 signal gates. 'SUB CODE: 09/ SUBM DAM 12Feb66/ ORIG REF: 005/ OTH REF: 000 r-i i /,i  AVKSENTI YEV. G.A.. inzh. ; CRIISHCHNIIKO, G.A., insh.; YAKOVEUKO. I.M.. HIROSHNICMIKO.V.V. Collective reSDonsibility fo7- the onforcement of safooty r-ales. Bezop. truds v prom. 2 no. 6:427-29 Je 158. (MIRA 11:11) 1. Prerisedatel' shakhtkoms shakhty No. 32(for Yakovenko). 2. Predsedatel' kominali okhrany truda(for Mf.roshnichenko). (Donets Basin--Coal mines and mining--Safety measures)  _~/ 19u/62/00G/000/o I E' 1911/L I-) If AUT;IURS YUn ' 110,V, ~:- 6. Url"UCItlenj~Qj and Zverev, A TiTLL ~niiii~-tri,jl StUL11CS of' rect.1lier-invertor fed in(luction Imitor dt-lve I-Li?10i)ICAL: 'eferativriyy zhurnal, Lloktrotekhnika i energutlka, ali~.trac t 6 KII Ve s t n. Plel,troproit-sLi, riu.10, 196A, T ~-. XT ~ubu It., ill-c 1~, I Vt-.11 of t (.. 'S t sin service (ill 'All a. 1,I(JULtion motor cirive contrulled by rectil ier-invertor chain used to 6rive centrilugal coi.-.pressors of the gas pipeilrie between ~)tavrop(_)J ' and ~Josco%lr. Ill this systetzi the sliced of the It5u(j R~,' wound-rutur intiuction miotor with a r- ed speed of I~t()U r. li.n.. can be chai,ged sriocl illy in th(! range .1 )0-70'~, of' rated slicuu, t1lus allowing the gas com,,,ressor rating to be varied bt_~twevjl WU', 11IG 3 5, .The rectiiier-invertor circuit uses a slip frequericy convertor with an explic-it d.c. circuit. The uncontrolled rectifier valves convert the rotor slip frequency current to d.c. and the invertor converts the d.c. into power frequency k50 c/s) a.c. The invertor valves are grid controlled so that the Card l/ 3  n -~u!, t r i A L s tu~-i ie b ,I r , c t i , i r - L I irlvv r to r z:.. f . c,% n hc c L, r t 1-o i e-, f rum t tie re c t -1 1 1 e L, r r v, t U e thus tile rutur ct'l-rent , tor(,iie. Liod riititor specLits. Tile r~,Lur %;iu 111vc1-tor va Ives arc, 111"I'CUFN -,ti,c I-,. C t i I I t, I _-i t N. pe 10~%V- louti x 0 .Kith tho- rcct -11 ier-cunvertor c ircu i t t. h e utilization of th,: motor is not linpa ired so that Its rat Ing can be criosen by the usuii if,etho,15. The rectifier-convc-rtor circuit has higii el-I ic iency , ria 1,..e I y , (j, 66 within the t~,Iveli spci-d control range. A d-isadv,ilitage o I the rect.11 ivr-coiiv(:rtor C117CUIL 1.9 Lille low power factor which 1-s (j.67 at niciXimum speed and (;.-'13 at 76L, rat2d speed. Experimental curves are given for power fa c t or i)f tile va Ives and thi' :T,) tOr And ii I-SU curves of the Ch,-All~t',es In reac t ive 1,,~Wer cullski~::l't ion of Ln~lividu.il parti; (~l t ; i v ,, y -, t e as funct ion of slip. T ests s!iowed th:xt the rectil ier-irivertur circuit operates well ano ias good control characterist icb, tile mutor and valves operate rciiahly, current waveform (listortion ilt the supply lined, to the rectifier is slicht, no infiuence of- hi,~her harmonics on the operation of other equipment was observed. Further improvement in the asynchronous rectli ier-irivertor circuit presupposeb the use of rotor valves controlled by siij) frequency Card 2/3  I ndustr i a i b t116 I Cs C) I rec L I, 1(.r- . . . S/ i9b/b2/bC,(,/0C;o/Ci3/u -, E 19VE 15 It and iuq.)rovenejit in t!ie power factor. 14 liter.1ture references. Abstractor's noLe: Complete transiation.t i Card 3/3  ONiSHMENKOF G.B., kand. tekhn. nauk (Voskva); SAWER, M.L., inzh. tMoskva) Principal trends in the development of automated electric drives I'n the chemical Industry. Elaktricheetvo no.7t49-52 Jl 165. (MIRA 18,7)  otv 16*1-c I-11- iv P, ZKACHKO7SK1Y, B.P.: ONISHCHRMO, G.K. i;ases of foreign bodies of the pancreas. Knirurgiia no.1:78-79 Ar '54. MLELA 7: .5 I. Iz 2-y Belotserkovskoy bol-nitsy Klyevskoy oblasti. (PANCRIMS, foreign bodies, JORBIGN BODIES, $in child) *pancreas, in child)  ONISHCHENKO, G.N.-; KHOROLISKIY, I.S. Cooperation of the State Testing laboratory and the State Inspection of Quality and Commerce. Standartizataiia 26 no.8:44-45 Ag 162. (KRA 15:8) (Standardization)  ONISHCHFNEO, ';.N. Drdeper Economic Council violates a state standard. Standartizatsiia 2~4 no. 1:60 Js- '~- 5. 1m :RA is 14 )  TARANTAYEV. T.M.; TOKAR', S.Kh.; rUll'%"IMJIKOV, S.M.; ZIU-BOTk, Ye.Kh.; MINEY-EVA, R.G.; ONISHCIHMO, G.P. Seroprophylaxis of Botk-in's disease. Zhur.mikrobiol.,epid.i immun. -i--) no.11:11-15 N 159. (MIR~k ll~-.!) 1. Iz Kirgivskogo instituta epideniologii, mikrobiologli i gigiyeV i kafedry organizateli zdravookhraneniya Kirgizakopo moditsinskogo insti- tuta. (IINFATI-13, lWi4CTIOUS prfiv. & coritr~l) (qAMMA GLOBULIN thnr.)  CNISHCHENKO, G. V. Cand Tech Sci - ""Study of the possibility ard of using asynchronous valve cascade for the drive of mine eieva- tors." Moscow, 19bl. 20 pp; (Ministry of Hitzher and 6'econdarv Specialist Education RSFSR, Sverdlovsk Mining Inst imeni V. V. Vakhrushev), 200 cories; price not given; (KL, 6-61 sur, "C-Y.)   oNISHCHRIKO, I.I. [Onyshchenko. I.I.] Gummosis and changes caused by it in tissues of the plum Gubfamil7. Mzr. bot. zhur. 17 no-5:93-96 6o. (MIRA 13:12) 1. Umaniskiy pedagogicheakiv institut, kafedra botaniki. (Gummosis) (Plum--DiseaseB and pesta)  ONISIIGHENKO 1 1.1 . -, D11,ST(TV it, L. ;. Concerning the book "Mftterlals and parts for constructing mining enterprises." Shakht. stroi. I rio. 1G: 32 0 '63. (MIRA 16:10) 1. Glavnyy inLh. tresta AgloBtroy, Krivoy Rog (for Onishchanko). 2. Direktor Krivorozh!jkoj7.o "i linln Yuzkinol7o niAtichno-tsgli)(iovittoll.'Iko,,o instituta pr, .- , itellstva (for Tolstova).  USSR / Human and Animal Physiology. Physiology of Work T and Sport. Abs Jourt Ref Zhur-olcil., No 22, 19;J8, 102336. Author Onishchenko, I. M. Inst Title The Peculiarities of Development of Motor Sensa- tions In Those Engaged In Gymnastic Sports. Orig Pub: Teoriya I praktika fiz. kulltury, 1-957, '-,0, No 6o6-61o. A,gtract: In athletes and certain other groups of sportsi-iler, the exactness of reproduction of the assIgned body position, effort and duration of the movt:,,n,--,,,t was investigated. The athletes of the 1st and 2nd Sport categories fulfilled these tasks w1th Creater exactne3s than light-weight athletes and sk er-, of the 3ame categories. This testifies that spcrt Card 1/2  ACCESSION NR: AT4025305 S/0000/63/000/000/0154/0162 AUTHORS: Konovalov, I. I.; Krupnik, L. I.j Onishchenko, 1. 11~; Shulika, N. G. TITLE: Use of mass spectrograph to obtain quantitative data dn the composition of plasmoids SOURCE: Diagnostika plazmy* (Plasma diagnostics); sb. statey. Mos- cow, Gosatomizdat, 1963, 154-162 TOPIC TAGS: plasmoid, plasma source, mass spectrograph, ionized plasma, plasma research, magnetic mirror ABSTRACT: In order to prevent the polarization of a slow pla.sma an6 other effects from distorting the results of mass-spectrographic analysis of the plasma, an instrument is proposed in which the ion beaz,, is jrawn out from the analyzed plasma and is simultaneously aCCeleraLed to 20 keV in the gap of the mass spectragraph. 1he ener- Cord 1/5  ACCESSION NR: AT4025305 gy spectrum olf the plasma ions appears as a corresponding spread over this constant level. The construction of the mass spectrograph is describe6 briefly. 'nie ions were registered with thin-layer emulsions which could be moved in and out of the mass spectrcpgraph without breaking the vacuum. Individual experiments were made to study the density of the image produced on the emulsion as a function of the number of H 14 H21 H3' He 4' C12' N141 and 016 positive ions with energies from 10 to 20 keV. The apparatus used to calibrate the photographic emulsions is described. Much space is devoted in the article to the various factors influencing the emulsionltiensity. The method described was used to obtain the mass-spectrosCOP:Lc and energy characteristics of conical and coaxial plasma sources. It is concluded that the described method can be used to extract a great variety of information on the properties and behavior of the plasma. Orig. art. hass 9-figures and 1 table. ASSOCIATION: None Card 2/5  ACCESSION NR: AT4025305 SUMITTEDs 190ct63 SUB CODE: ME DATE ACQs 16Apr64 NR REF 60Vj 001 ENCLs 02 OTECERi 003 Card 3/5  .ACCESSIC),'; Nil,: AT4025305 ENCLOSURE: 01 Q2 '\I on Holl I 1 11; lip. etc i 53 1.5117 11 5 3,7 5 Percentage content of ions In a plasmoid from a conical source card 4/5  0 ACCESSION.NR: AT4025305 7 ~K ?4 wne keV ENCLOSURE: 02 Dependence of the number of ions on the energy 1~-j a plasmoid obtained from a coaxial plasma gun 0 - 15 keV, 20 keV Cora 5/5  ACCESSION Wfit AP40134115 5/0057/64/034/602/0290/0207 AMMOR: Voytaenya , V. Be; Borbanyuk,A. G. ; 'Onishchenko , 1. N. ; Saf ronov,B. 0. TITIX: Motion of dense plasma bursts In the magnetic field of a toroidal solenoid 50 URCE; Zhurnal tekhn.11m., vo34, no.2, 1964, 2SO-287 TOPIC TAGS: plasma, plasma burst, plasma burst purification, toroidal solenoid, to- roidal magnetic field, hydrogen Ion, oxygen Ion, carbon ion ABSTRACT: Because of the technical Importance of toroidal magnetic fields as means of purifying plasma bursts (B.G.Safronov, V.S.Voytsenya, I.I.Kcnovalov,ZhTF.32,No.6, 678,1962) and In order to test the theory developed by N.A.Xh12hnyak (Sb.dokladov III konferentall po, fialke plasny*,FTI AN USSR. Izd.AN UBSR,Xiev,1963), the motion of dense plasma bursts In a toroidal magnetic field was Investigated experimentally. The plasma bursts were produced by a conical plasma gun; they Lad densities exceed- Jr' Ing 1013 ca-3 and velocities of the order of 107 ca/sec. 7be 6 cm diameter glass drift tube formed a quarter of a torus having a radium of curvature of 60 cia. A no- .:Ienoid about the drift tube produced a magnetic field of up to 10D0 09 In the tube. At the end of the drift tube the composition of the plasma burtits was detentined by. 1/3 Card  ACcwmw no - 04013415 a mass spectrometer. The electric polarization field was also me2sured, and the den- sity was determined by microwave absorption. The initial conposition of the bursts was determined. For comparison, the composition of bursts was determined after they had traversed a straight drift tube identical In all other zvspects with the toroi- dal tube. The plasma bursts originally contained about 20% hydrogen tons, with the remainder consisting mostly of 0 It 0 11, C It C 119 C 111, and C XV. After travers- ing the straight drift tube with a 1000 Oe magnetic field the bursts still contained about 20% hydrogen; with smaller magnetic fields the hydrogm content was less. Af- ter traversing the toroidal drift tube a burst contained as a whole about 80% hydro- gen. The heavy Ions traviersing the toroidal field, mostly C 1, were concentrated In the "tall" of the burst, and the forward 60% of the burst contained only 2% hea- vy ions. Electric polarization fields due to centrifugal drift were found to be ab- sent or small except at the foremost portion of the burst where the densil is small. The reason for the short duration of the polarizatinn field is not understood. It is'concluded that Khizhnyak's theory (11 cit.supra) gives a correct qualitative description of the purification procens~,~-. that the plasma bursts cannot reach the wall of the chamber, and that very pure plasma bursts can )Do obtained with the aid of atorolqP magnetic field provided only the forward p Lft urst is ac- V, uVion acepted. In conclusion we consider It our essant du y o AS A-Sinollnikov Card 2/3,  ACMMION KR:AP4o1Va5 and N.A.Khi7.hnyak for constant interest in tho work and for valuable discussions." Orlg.art.has: 2 formulas and 8 figures. ASSOCIATION: none SUBMITTED: 03Dec62 SUB CODE: PH DATE AOQ: 2GFeb64 NR SOV. REF: 004 3/3 Card ENCL: 00 OTHICH: 002      ACC '~lR. ATIG020409 S6URCL CODE : UR/0000/65/000/00)/O',!,,/(-),2,i S., G. 0 ri i ij h cl iv i i K o Sa f rur, r)v , B. S ORG none s, asinoit".f~ j old -)T toroi j 7 TLE :Motior, of the fa 1) da, S( "Onoil SOLikC11 Ball P't-'y 4 Kiev, 'Na4ova duraka, 196'.., il'j-129 - I , , -j 7 2 1 - J-.Ta Y ciStro jI C S ;)IaSKICid, !,C-I':.~.; t I on ,lyiterterometer , mass 3v i-jg wit- s~ve:,a, ,.v ener,-'; was AB S T RA -T ne behavior Df a smog' e I I . I -r; -. ,, , o,-N,',er ',c determine its up~~,r :f, i-j s i t I t it n r-_ignetic fields , 7~_'s WCX~ ~1-1: :ticrF, KhiLhnyak ('_'nTF, 1965, 3S , ~~.,47) who t:~,o 1 u, F'.; i o rl r c u !,,, of- poi,~r: ' v t: f.:'eiUs ~Iy electron currents rather S i t 1! f- a t t a .' I;,) b I P.1 a ~'~M C: e).perir-i.ental apparatus is U'escribe(. a r, e j7, J5 Preceded I;,/ 'i StT 1:j7M, t'-.On Cor'necting with the p.asma in)(- 11"'t . Div W;M'Jid. Propert ien wei , studie~~ W a mass spectrograph, time-of-flight iajss i."r--rowive interferrWT)eter dn~~ '21 tric and thermocouple probes. In the experiments with low density plasma, the in-~ ~1~- Card- 1/. 2  L 41066-66 ACC NR: AT6020409 tribution was found to be consideraLiy distorted'.. At jo 1 2-3 denslitv, long cm energy tails appear. In higher density experiments, the mean ion enprgy was founl- tc be 3 to 5 kev, with an impurity content of 40%. A study of the solenoidal guidinp field indicates that plasma densities higher than 1013 ions/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: IlNov65/ ORIG REF: 007/ OTH REr: 002 Card 2/2  7ZACiEN, V.V.; LRYCHRMO, I.Ta.; OGANESOV, V.N.; ONISHCHMO, I.S.; NILIDDV, V.A.; SERVACIM, O.V.; BOGIN, A.-M. Using separator mills in making cements of various erpecific surface areas. TSement 26 no.2:13-20 Hr-Ap 160. (MIRA 13:6) (Cement) (Milling machinery)  ONISHCHBNM,_I.T., inzh.; VISIDaMTSKIT. Ye.A., inzh.; GROKHOLISKIT. M.M., - inzh.; IANEVSKIY. V.A., inzh. (Kharlkov) Speeding up locomotive circulation at the Kharkov terminal. Zhel. dor. tranBp. 40 no.6:80-81 Je '58. (min il:6) (Kharkov--I,ocomotives)  RYLEYEV, G.S.; YJIYUGE~',, F.K.; i''AZ;,K~-V, %1.1:.; VILIKE'VIC", 13.1. Pri- nimal uchastiye BELEIN'KP, FEE-DOTOV, 1.1., kar-,~. tekhn. nauk., retsenzent; LUGDI'l;, II.G., kan,".. llelrhr.. nau.~, retsenzent; CHEBYKIN, V.N., kand. tekhr- nauk, retsenzent [decetised]; Ol'IAiGF2iKQ I T kand. tekhn. nauk., retsenzent;"~ inzh., retsenzent; ISIKOV, 'Ye.N., inzh., retsenzenti; RGZIIDE,*I'l;ENSElY, A.")., inzh., retsenzent; !;EDVEDEVA, M,.A., tekhn. red. [Management and oper,-tiori of ciesel locw:oti%esj ',ej.-iiovo2.- noe kY~ozjaistvo. lzd.2., perer. ~ dup. [Byl G.,'.hyleev i dr. Moskva, Trans zhe Ido ri zdat, I'-)t-,3. 290 p. (F.D.A 17: 3)  ZHAR(T~, 'I. T., k an ~. tfzlk~ir ; ~ F-1 . , ; K11SHC"i, !~,M. , ina,..; CHERTORYZHc-IKl Y, v. K. , Aii+,(-ma+.i on of p,-oprirm ' i n o" moldi nr ~3mn-,. In mil "in F, ma-~,: n'..s. Mashinos, roeri., ne. ,DI "I N-T) '(, 3. (M.!-~~A 1,,-L-)  ONISHCHEN10, L. F. "Investigation of Rectifier Systems With a Leading Angle of Regulation and Control by Inductance Coils." Cand Tech Set. Kie,r Order of Lenin Polytechnic Inat, 28 Doe 54. (PU, 1? Dec -54) Survey of Soientific and Technical Dissertations Defended at USSR Higher B&i, ational Institutions (12) S09 SUN No. 556, 24 Jun 55  GHIZHANKO, I.H.;,-ONISHGHIRIKO. L.F ;-- 7 - Sow mthod for contr?l of current converters having switching d-evicem. Izv. YTI 22:337-351 57. (MIRA 11:3) (31foctric current converters)  ONISHCHENKO, L. The biological method helps. Zashch. rast. ot vred. I Inol. 10 no.5:22 165. OCRA 18,6) 1. Zaveduyushchaya oblastnoy biologicheskoy laboratoriyey, Zastavna, Chernovitskoy ablasti.  ONISHCHRITKO, L.I. Formation of green plastiis. '~r. bot. zli-,-:--. I- no.-:25-2E '6-J. (MIRA 13:9) 1. Belotserkovskjy sellakoktici~;,,ztl,'13tVoilnyy inStitUt. Kaf0dra botaniki. ( Chl oropKy I I )  ONT,SH_CHEA9,_L._I. [Onytihchenko, .1.1 Effect of soil wisture on the development of chlor9phyll-bearing, organs in the sugar boet. Ukr.oot.zhur. 18 no.4:22-29 5~1. (AU 14:8) 1. Belotserkovnyy sellsk6khozyaystvennyy institut, ksfedra~ botaniki i fiziologii rasteniy. (Sugar beets-Water requirements)  MIOYMEI~'KC~, A.I., doktorselli,f.cz. ~,MSHCHENKO, L.I., red.; N "EMIC' MAO, I.Ye., tekhn. red. (Fr-uit cultuxe with dwa,,.' rlot3to.:k' Flodc)vodatvc, nE kar- I-"kovykh podvoiakh. Kiev, uosael'kLozizdat USSR, IQb3. ,.3 ; - (1-11 ~iA 17: 3)  MENISROV, V.V., kanc,,. saat!choz. nau-k3 fA ~! SdC HK,:K`, L-1 ~ re'l. [Experience in '% I-P-rorn I-e-c. OT,,yt peresamd vzr-r---khl~..odovykhd-rt--/Iev. ~le-,,, Urozhai, 1q64. 12', p. I,V I ?~A ~ F! 1~ ;  ALIY-I'. Eduard Arki:d Iv,:vich; D,-, ),I v%, yu-i,,, Akse: t 'yevich; LA'7 :1 KC s 7.'F' s ev ~ c h; AL I v 7 or .0 nwak red. CHU.""C , L. I red. [Soilless growing of vekyetables 'In greenhouses] Vyras~,chi- vanie ovoshchei v '(-plitsakh .)e,-. ochvy, I:i,?v, 7,osroll I- .ozizdat U.~S: 196/.. l./. I p   t . " . . -) . i --.. , : I . I I I- :: , -I L"--7n 1. .. . -. I * . ; -t k -. . ~ I ~ I . I  ONISHCHENKO, L.I. [Onyshchenko, L.1.1 - I Amount of chlcroplastB as the prorilictiv, ty ' r7dr- i ' - ,! -. bot. zhur. 22 no.2!20-23 165. 1 . Be 1 o tse r k ov 9k i y se I I sk okh o zy a ys tve n n ~-j , r7 ~i t * t,,' , 'K i ~ -,I -r -, : - ',, - ~ i  W13AR I CH p A.I.[ Baruarych, A. 1. p kand. bio InauJi; BHADIS,Ye.VI. , do~.tor hiol. naul,; VISYULINA, C.D., uoktGr biol. nallk.; VOLCOLCIMIM0, V.S.; DOLRCCHAYEEVA, D.M., kand,. oiol. nauk; KL~VAUKH, Ye.D.; KATINIA, Z.F., kand. biol. nauk; KOMV, VI.I., doktor biol. nauk; KUZI:ETSOVA, G.O.[Kuznetsova, H.O.), kand. bial. nauk; OLYAbITSKOVA, L.G.[Olianitslka, L.H.]; OMELICHUY, T.Ya., kand. t,iol. nauk; FOYARKOVA, C.M.; PROKUDII,', Yu.M., doktor biol. nauk; P11LOTOPOPOVA, V.V.; SIXUSARENKO, L.N.; tZ-IOLKO, S.S.; KIM11001VSKIY, V.G. [Khrzhanc)vslk,yi, V.H.1, doktor biol. nauk; ZEROV, D.K. akadeEik, otv. red., 0111SHCHENK0,J.1., red. [Key for the identification o!' 11ants in the Ukraine] Vyz- nachriyk roslyn Ukrainy. Vyd.2., vypr. i dop. Kyiv, Urozhai, 1965. 876 P. (MIRA 18:9) 1. Akademiya nauk URSR, Kiev. Instytut botaniky. 2. 0 Ukr.SI;R (for Zerov). 3. Moskovska~--. sell skokho-7aystvennaya akaderiiya iir.. K.A.Tdi.,.iryaze-v% (for Khrzhanovskiy).  ACC NRs AP6025316 SOURCE CODE: UR/0433/66/000/oic'),/00'1'5/OOL"~ AUTHOR: Kiselek, Ye. (Junior research associate), Onishchenko, L. (Heid biological laboratory, Zastavna) ----------- ORG: none TITLE: Use of entobacterin SOURCE: Zashchita rasteniy, no. 6, 1966, 25 TOPIC TAGS: insecticide, entobacterin, haphygma. exigna, acrolis seget-.1m, chlorides, obsoleta, syonetia clerkella, pieris rapFu- ABSTRACT: .The use of entobacterin in combating Laphygma exigua, Agrolis segetum, and Chlorides obsoleta was studied. At 300C, the mortality of Ch. obsoleta increased from 33.3% with the application of a 0.1% entobacterin solution to 91.6% with a 2% solution. The effectiveness of entobacterin decreased with temperatures, at 15 -180C the mortality was only 5%. .Entobacterin was more effective than the B. cereus Var. galleriase .63-3 and 128 strain. The use of entobacLerin against Lyonetia clerkella .0.) and.Pieris rapae (L) was also studied. At 23-30*C, a 1% solution Card 1/2 UDC; 632.937.1  ACC NRi AP6025316 of entobacterin in amounts of 1000 1/ha was 98% effective against L. clerkella and in a concentration of 0.152 in amounts of 400 I/ha it was 63.3% effective against P. rapae. JW.A; 50; CBE No. 10] SUB CODE: 06/ SUBM DATE: none/ 212  L. -~i C. . I , - . ... ~, .. - ; ~ I - .. . "I I .. , - - . - I ... I - E e, v ,! '. 1. : .- r. f,., ; - ~-. .. : - , I . - I . . ~j : -1 , . - - 9. Month! List of Pussian Accessions. Litrary of Congress, _ --- - . -, - - .  GLAZOV, A.A.; KOCHRIV, V.A.; OIJISHCHEI&O I , L.M.; SHVABE, E. High frequency system for proton accelerators built as cavit7 resonators. Nukleonika 8 no.2:P9-100 163. 1. ObDyeaire.- inotitut yadernykh issledovaniy, Dubna.  GLLZOVP A.A.; DZHELEPCYV, V.P.; DMTRIYEVSKIY, V.P.; ZAMLODCHIKOV, B.I.; YDL'GA, V.V.; KPOPIE, A.A.; ONISHCHENYL, L.M.; SHVAM, Ye. Effect of a space charge on the frequency of free oscillations of particles in an Isochronous cyclotron. Atom. energ. 15 no.3t2O5-209 S t63. (MIRA 16:10) (Cyclotron) (Oscillations)  ACCESSION NR: AP4018359 s/0120/64/0001001/003-4/0037 AUTHOR: Glazov, A. A.; Kuzmyak, M.; Novikov, D. L.; Onishcheriko, L. M. TITLE: Ion source for a 1-Mev proton accelerator SOURCE: Pribory* i tekhnika eksperimenta, no. 1, 1964, 34-37 TOPIC TAGS: proton accelerator, I Mev proton accelerator, ion source, impulse ion source, Penning discharge, ion beam focusing ABSTRACT: A Penning -discharge impulse -*on source in which a cold aluminum cavity-type cathode is used is described. The source is intended for mounting in the hollow projection of a torus-type resonator-accelerator. The anti-cathode aperture towards the ion escape is 1200, the drawinrf-eler-trode angle is 900. 7he souxce is Eupplied by'an electronic device which develops 50 -micros cc -Iona ignition pulses and 20 -rrdcrosec -long ion-drawing pulses. It was experimentally found that a system of different -potential clectrodes with grids ensures the best Card 1/2  ACCESSION NR: AP4018359 focusing. The effects of the size of the emission aperture in the anti-cathode and of the drawing voltage upon the extraction current were cxperimentally deter- rnined (curves supplied). It was found that the source is capable of producing a current of 20-40 n-ia (pv-lse) at 20-25 kv, and a focusiln't, 01 10 rrm. The cold cathode ensures the constancy of characterist.-cs during lona periods of operation. The source is used in a linear accel,~-rator that e-,nploys a high frequency ol 1. Z Mv and a pu-Ise intensity of 10 rna. Crig. art. has: 5 figures. ASSOCIA TTON: Ob"yedinenny*y institut yaderny!',Ikh i:;sledovaniy (Joint Nuclear Researc'n Institute) SUBM-17TED: OlFeb63 DATZAGQ: 'LS.VLar64 ENCL: 00 SUB COD."---: PH, NS NO REY SOV: 004 OTHER: 005 Ccrd 21Z  ACCES'SION IN-R: AP4033120 S/01201641000/002/0100/0104 .-%.UTh'OR: Glazov, A. A.; Onishchcnko, L. M. TITLE: Device for reproducing current-pulse shape SOURCE: Pribory* i tekhnika eksparimenta, no. 2. 1964, 100-104 TOPIC TAGS: current pulse, pulse shape, pulse shape reproduction, Rogovsky belt. toroidal transformer ABSTRACT: A simple device is described which is based on the principle of a toroidal transformer (Rogovsky's belt) and can serve for measuring the shape of a current pulse passing a conductor or of a charged -particle cluster. The transiormer -secondary signal is integrated by an electron-tube circuit as it was' suggcstcd by V. Elmor and M. Sandfi in their book, "Electronica in Nuclear Phyzics. " The present article supplies elements of the theory involved and briefly reports an experiments with a ferrite toroid (OD - IZI mm; ID a a5 mm; Card 1/2  ACCESSION XR: AP40331?0 thickness, 10 rnm) wound with an insulated 0.65-mm wire. Its \/-LC 5 microsec; optimum resistance, 23 kohms; sensitivity, -140 x 10-r- vla/sec. Three oscillograms illustrate the degree of true reproduction of the current- pulse shape. Orig. art. has: 6 figures and 12 formuias. ASSOCIJk TION: Ob"yedinenny*y institut yaderny*kh issledovaaiy (Joint Nuclear Research institute) SUB.\,1117 TED: 270ct62 DATE ACQ: IlMay64 ENCL: 00 SUB CC DE: GE, NS NO REF SOV: 002 OTHER: 001 Card Z/ I  -ML L 22' -66 ACCLSilON NRi ATS007943 Eril/bOW/6's/000/000/0611/061S t2-; a~ AUTHORI Glazov, A. A.; Dzhelepov, V. P.; Dmitriyevokly. V. P.; &~spolo4ch1kov,_B.;-Yq I.; Kropin, A. A.; Ofilshchenko, L. H.; Shy-abe- Yu. 1. TITLE: Effect of space charge on i%e free oscillation frequency of particles in an isochronoua cyclotron GOURCEi Intqrnational Conference on ~Jigh Lnergy Accelerators. Dubna, 1963. Trudy, PlEs-cow Atoalzdat, 1�64,-611-4134 TOPIC TAM high energy accelerator. space charge, cyclotron ABSTRAM Theoretical studies of the effect of space charge an the motion of par- ticles In accelerators have been carried out in a number of works: berestetakly, .V. V. ; Gol 'din, L. L. ; Ko3hkarev, D. T. Pribory i tekhnika eksperimenta, 3, 26 (1956); Dmitriyevskiy. V. P.; Zazolodchikov, B. I.; Kollga, V. v. Doktad no konfe- rentaii po tsikLotronam ('eport on the Cyclotron Conference), Gracow, 1960-, Kolo- menskly, A. A.; Gebadev, A. N. Atmmya ener1jiya, 7, 549 (1959). To create strong- :current accelerators it is important to verify the theoretical conclusions with so-', tual operating Installations. The present work is concerned with the dependence of ithe frequeacy of arlal oscillations upon the density of the space charge of the so-  L 227L-66 I ~ACCESSION NR: AT5007943 'calerated particles. Pertinent mea3urement3 were carried out on a cyclotron with ~spiral tragnetic field for the specific case of molecular hydrogen ions accelerated ,up to the energy of 12 Mov (VaBilevakaya, D. P., et. al.. Atomnaya enarViya 189 (1960)). The results of the present work shows that the effect of the ;P:;. ;charge does not prevent beam intensities of the order of several milliamperes in rej, lativistic cyclotrons. A result of this space charge is the displacement of the izonea of resonant interaction of tae oscillations. Expressions are obtained which :describe the effect of the space charge on the basis of linear equations for the 'free oscillations, taking account of the electromagnetic field of the accelerated particles. It is assumed that the particles in a condensed bunch a" uniformly ~distributed along the azimuth and that the vertical size of the bunch Is much small-' er than the azimuthal extension. The main topics discussed arst (1) the density of ;the charged particles in a relativistic cyclotron and Its Influence upon th iquency of the axial oscillations; (2) measurement of the azimthal extensio: !"f;h* -bunch; (3) measurement of the frequency of the axial free oscillations; and (4) the, limiting iasnsit:7 of the intemal boas in a relativistic cyclotron. OAS. art. hast 6 figures, 8 foruulas. jASSOCIATIOVt Ob"yodirwmyy instiftt yadernykh issledovaMy, DubrA Opint-Imstitutel iot Nuclear Research) ISMAMEVe HyQyo ENCLs 00 RM ODDS a SP ND IMIr GOV 1004 OYMS, 002 2/2  L 42~0-66 PS..- ACCESSION WR: ATS007967 S/0000/64/000/000/0946/0949 ~AMHDR: Glazov, A. A.; K chkin, V. A.; Onishchmu-s-luz Royfe, 1. M.., S emenov9, M. M.; Tuzov, 1. V.; Shvabe,_Ye BY-1 TITLX: High-frequency system of the 700-Hev cyclotron SOURCE: International Conference on High Energy Accelerators. Dubna, 1963. Trudy. Moscow, AtMlzdat, l964,-V1;b-949 TOPIC TAGS: high energy accelerator, cyclotron, proton accelerator ABSTRACT: The accelerating system of the 700-Nev cyclotron must ensure a regime of continuous proton acceleration for a current at maximum radius up to 1 milli- ampere. It is necessary here to bave the maximum possible collection of energy of the accelerated protons per revolution, with the restriction that the power of the high-frequency supply to' the accelerating electrodes be technically possible and economically admissible. The configuration and structure of the region where the 1particle acceleratlon occurs and the design of the accelerator electromagnet are -1the determining factors in the selection of the scheme for the accelerating system.! The small height of the acceleration region, the absence of gap variation accord- Itard 1/3  L 4230-66 ACCESSION NR# ATS007967 ing to azimuth, and insignificant variation according to radius (2h 146 mm, min. 2h =220.4 mm) with maximum gap in the middle radii are the special features of max the accelerator under consideration; namely. a high-field machine with small varia-; tion of the magnetic field strength and large'spiral. A similar structure for the operating zone excludes the use of simple bulk resonators as accelerating systems even during operation at multiple frequencies of considerable multiplicity, be cause the vertical dimension of the resonator must amount to about one half of the wavelength of the accelerating voltage, and the period of revolution of a proton in the cyclotron field is 83.3 nanosecond (f = 11T = 12 megahertz). It is also practically impossible to use a multi-electrode (three or more) accelerating system operating at multiple frequencies in the case of an effectively structured region where the acceleration of the protons occur. Even for operations at a frequency equal to twice the frequency of proton revolution, the radius of the. accelerator turns out to be greater than a quarter of the wavelength of the accelerating volt- age. MoreoVer it is hardly technically feasible to create a cantilever design more .!than three meters with supporting elements arranged In'the small interpole gap, 1with rigid requirements upon the constancy and magnitude of the gap between the ac-: celerating electrode and the chamber. A two-dee accelerating system with dees in Card 2/3  j,_ 423"6 ACCESSION NR: AT5007967 which the proton flight angle Is close to 1800 can be realized b~ various meth So Vof The Joint'lustitute of Nuclear..Research and the Scientific Research Institute 3odi- Electrophysical Apparatus ha,,e investigated theoretically and experimentally n fications of the accelerating system with semicircular does, which are closed in a small part of the arch near the axis of symmetry, does that are part of the Ihomogeneous rectangular line. and dees that are part of the rectangular line with variable wave resistance. Of all the considered possibilities of accelerating sys-, .,Item design, the accel-rating system in the form of the rectangular line with in- creased wave resistance outside the gap of the electromagnet possesses the optimum 1 characteristics from the viewpoint of the magnitude of the losses, excitation, and 11 realization of the design. The accelerated systen. chosen is shown in the present report to satisfy the requirements imposed upon it. The radib-engineering and mechanical designs carried out at the mentioned two institutes and the modelling of the various accelerating system elements point to the possibility of realizing its design and construction and to the expediency of selecting the indicated scheme and principal parameters. Orig. art. has: 3 figures. ASSOCIATION: Ob"yedinennyy institut yadernykh issledovaniy, Dubna (Joint. Insti- We of _N, rch) mclear Resea SUBMITTED: .26May64 E14CL: 00 SUB CODE: NP NP IREF SOV:,-ODD OTHER: 000 Card 3/3  ACCBSSION*NR.- AP4042004 B/0057/64/034/007/1272/1284 AIMIOR-Glazov,A.A.; Kochkin,V.A.; Novikov,D.L.; Onishchertko,L.AL TITLE: A high frequency re Isonant cavity.for accelerating protons to I MOT SOURCE: Zhurnal tekhnicheskoy fiziki, v.34, no.7, 1964, 1272-1284 TOPIC TAGS: particle accelerator, proton accelerator, injector ABSTRACT- A re-entrant resonant cavity is described which, when operated as a sin- gle stage proton accelerator, produces 20 microsec 10 mA pulses of approximately 1 11eV protons at a repetition rate of 50 sec-1. The accelerator was developed during the years 1960 to 1962 at the Joint Institute for Nuclear Research as an'injector for the phasotron described elsewhere by D.P.Vasilevskaya and 13 other authors (Pre- print OlYal 11-930,Dubna,1962; Nucl.Instr.21,85,1963). The accelerator consisted of a I m dinmoter I m Iong steel cylinder with 30 cm diameter copper cylinders project- ing radlally Inwarxi Irc_)m ouch end to within 2 cm of the center. One of those cylin- ders was rKjvablo in tho axial direction for adjustment of the 4 cis accelerating gap, and the other contained the cold cathode Penning discharge ion source. The Interior of the cavity was covored with polished copper; a Q of 14 000 was thereby achieved. Cord 1/3  ACCESSION NR: AP4042(~01 The cavity wa~~ AAtt-el by a self-excited grounded grid oscillator of which the cavi- ty was the frequency detemining element. Difficulty was experienced with resonant reflex discharge in the accelerating gap at an amplitude of about 1000 V. The cavi- ty was therefore pre-excited at each pulse by a separately excited osefl'lator, and the self-excited oscillator took over only after the resonant discharge region was past. When the instrument was operating under presumably typical conditions, the beam was 3 cm in diameter ajW contained protons with energies from 0.7 to 1.1 MeV with half the protons in the eaergy range from 0.83 to 0.95 MeV. The possibility of employing a buncher between the ion source and the accelerator to obtain a more nearly monoenergetic beam is discussed, and it is concluded that this would be 'fea- sible. It is pointed out that although the 4ccelerator was designed as an injector for a phasotron, it would be suitable as a primary accelerator for low energy nucl- ear research. For this purpose It has over electrostatic accelerators the advan- tages of compactness, low cost, and high pulse current. "In conclusion, the authors thank V.P.Dmitriyevskly for valuable advice In planning the work and for discussing the results, Ye.Shvabe and M.Kuzmyqk for assistance in developing certain critical parts of the accelerator, and also comrades V.V.Kudryushov, V.A.Akkuratov, P.T.Ryo- bakov and M.G.Akimov for participating in the assembly of the electronic accessor Iles and the construction of.the accelerator." Orig.art.hast 17 formulas and 8 9i- Card 2/3.  VASIL'YEXSYAYA, D.F.; SLAZ(-Y, A.A.; DEll"ll-kV, Yu.l,-, A.A.; RY~iALKC,, '~.S.; Sk-,~IgYk-, L.A.; SI:%k,,E, Ye.; tek,hn. red. [Theor-i and the rocelinC of a c4li-c;.la;- s~.rxiiro-c-, clotro, th a ;pirr I rz-f~-: ~e,, ~ci .-os, 'rcrii i u(-)L.elirov,-i. Ai-. tscvo[;o -."-zotrcj -o st 1.--allnol sti- kturnoi D-u na, C,'D"-,. -I -t iwiOry.ykh issl. , 1c 62. 7 ~-J A I ncl.;-otror.)  P -~, _. . .7 . . I - . I Is, I p0rv-n ' vp ~-, %-vwv" :I ,,, s 11"I.)] -- t u -) r ~~ v I y! 1.%-a q." m 1 1 T,. P-., 1 v.~1:-~ -~ ., . *~iov. 101,.' . '--, S. f, I I ~z .!.. (A-vo fvs,? ~. O`rlzov~4:-~ ,v-I S SR. Kiovq~,A ,v n"lit-`:IT". I. _1_ ,Caf-m'r~ t-r.1r. 1-,tr. ILI" 4.1-. .~ . 1, . - ( r. - L ; 11 -. I;  ONISHCHENKOP M. [Onyahchenko, M..", inzi.. Foot gear for a.;tomobiles. N5 Ats i 1,1 no.-'C.-23 !i (MIRA 16:11- 1. Insti~ut "Ukrndlplastmash."  a , A .?I . , ?,rind. * (:!,. hi. . ri a ii~ ; 'j; 1 -1 i, I. T~'ry. , :? zj- . - " --Il, - , - . , . 11 "*Z~ It)' 'I h nw-m~'l ~- .. . , %'~' :' ~~! I " I " d e i -* ~- *. ' ." -. -J- : - ' - du r ir. ! t ~- - ~ I - 4. f - -.. T ~ ~ - ~ -j" - "." I Ls . [ " !-I. ~' " 'V " " ' -'71~ - ':~ - " 0 1 , " 1 .1 1 1 1 . i I - )~ - .  OhI54R4Rkq'4 Mikhail 11ri;jOvich, stalevar; POMITUB, Grigorly Konstantinovich. stalevar; Nikolay Alakeandrovich. stalevar; VMTELINIK, I.V., inzhener. rodAirtor; ISIANIM. T.F.. redairtor isdatelletva; ISLINTIYEVA, IP.G.. takhnichookiy redaktor [Our experience with a rapid oxygen steel mairing process] Nash opyt skoroetnogo stalevareniia a primemaniem kisloroda. Moskva, Izd-vo 02nanie.0 1953. 23 p. (Vaesotuznoe obshchestvo po rasprostraneniiu politicheakikh i nauchnykh znanit. Ser. 4 no.6) (NLRA 9:7) [Kicrofilml 1. Ordena Lenina, zavod OZaporozhatal" (for Onishchanko. Pometun. Stapanonko) (Steel--Motallurgy)  POMFr". G., stolevar; ONISHCHRMO, M.. stolevar; STEPANENKO, N., stolevar. Carrying out the directives of the Congress. llauka I zhizn' 23 nn.6:17-19 Je 156. (~MRA 9:9) 1. Ordena Lenina zavoda "Zaporozhotall." (Zaporozhye--Steel Industry)  LIVSHITS, Ya.D.; ONISHCHENKC, M,14. (Kiyev) Design of reinforced concrete slabs taking into account crack formation and creep. Stroi. mekh. i reach. soor. 4 n(-.6:6-11 162. (AURA 16-1) (Goncrete slabs)  ON -. -- F C ~-' NK C , M. . Y. , k. -~ 1: . , r -: I .'. a ,u f I .a! cLL!at-' rif- m~ilnforced cr)ncre*,e siabs supported aL-)np the i r c on fou r and tx- a r4. nf7 a p i-)l on,7f~, (I ac '.-' :,,7 1 o ad . S'-ro; . Konq *.r. no. 1: 14L"l-L.5 16". ( ,, - -'j, l , : i )/ I. Klyt~vsi,."., nv*-odoruzl,,iyy in-,;'.i .,ut.. I  ONISRCHZNKO, Mikhail Nesterovich, kand.peda(--o,g.nauk-, TASHANIN, I.G., zasluzhenn.vy uchitel' shkoly RSFSR, red.; GARANINA, L.P., red.; BRULIKOVIZATA, H.,;., tek?m.red. CSquivalence of equations, their solution and amalysiBj Ekvivalentnost' jravnenii, ikh reshenie i issledovanie. Pod red. I.G.Us~.anina. 4or'kil, Gor'kovskoe knizhnoe izd-vo, 195?. 121 p. (MIHA 1 J: 2) (Eqiiations)  M-F, A, I I -Ur I :r. Pr inc n ' I ~ I' ~ - - - - - , .,.Tr , - - : -I - .,, n- - ( , ~.ruc , . ~;n , rtilm, p r "al. I - 7-,- ~ , r, . 1 ~l i_, ~n Mr (AURA 1814)  ~4 1. 2DO EWT (n) / S.4P (w)] EWA (d) / T/ alP (t) / 94P (k JD/Hd -4=N R AP6010136 SOPPCE CODE: UP/0133/66/000/003/0248/0250 Al T1WR: Rii~foj V. S.(Cand!date of technical sciences); A-Jfer-ov-a, N. S. (Doctor of tcrimical sciences)- MlinaTich B. A. (Engineer)i Bo ' =_ g#anova, T. M. 'Engineer); 0 C. M. (EnRine- ~e~ nichenko, 1. F. (Enpineer-); Klrvalid2,, N. S. (Engineers ~ndnkov er ~, Furllenko, V. Kh. (Engineer); Ishchenkc, (J.nqJneer5 none 11ILE: Production of tubes from OKh2ON5T qtaln)eRs 9tvp SOURCE: Stal', no. 3, 1966, 248-250 TOPIC TACS: stainless steel, low nickel steel, stainless steel tube, tube rolling, hot rolling / Okh2ON5T steel, EP299 steel ABSTRACT: Technological properties of _FP2979 (0Fh20N5T) stainless steel and the condi- tions for tube rolling this steel have beer. syldled. The steel, annealed at 1050C for 15 min and air cooled, has a tensile strengthtof 101 kg/mm2, a yield strength of 34 kglmm2, an elongation of 46.6%, and a reduction of area of 62.1%. Corresponding 2 figures for test temperature at 350C are 52 kg/mm , 39.02 and 69.7%. The steel is very sensitive to the cooling rate: slow cooling sharply reduces the elongation and impact strength. The plasticity of EP299 steel does not change in the 1100-1250C range, but Increases sharply with further increases in temperature and rapidly Increasing content of a-phase. Up to 1250C the plasticity of EP299 steel is much 1/2 uDc: 621.744.35  L w6oi_66 ACC NR. AP6010136 lower, but at 1~75C and over much higher, than that of KhIBNIOT and EI-811 steels. The hot workingl6f EP299 steel must be done at temperatures over 1250--C. -The stell howeWr-,-Fi-asa-tendency to stick to guide bars. With guide bars made from G18-Aec I (1.4-1.8% C, 16-19% Mn) and piercing done at 1275-13QOC, the tendency to stick was greatly reduced. The mechanical properties and surface quality of hot-rolled and heat- treated EP299 tubes were satisfactory, and the tubes were suitable for cold rolling and cold drawing. Orig, art. has: 2 figures. JAZI SUB CODE: 11, 13/ SUBM DATEt none/ 'PRIG REFs 003/ ATD PRESS:  MONZOV, A.S.;  RWT L65 )AWN) JD)k4:- v AClC=TO?l.MV4P5bl5a5 0 - AU chkin, Rs- Hirvalidze.9 3~-) xor6b6 *(zngineer)j zu lxcfi~~ (a i ser) * Dergach, A,TA (Mgineer) I Onishchenko~ M.P.(Bnjineer)y.SamoYlanko, V.Di (Eng-Ineer) asing the' pro~ducttv#y-of an automatic jnstaLUtionlor ro23 g TITLE*., Incre In NIOT MUF4E-.. Stalls. no. 32p :2964 v 3=7,i413$- PIC TAGS,: pifie., ~'vtlbvlj ineta.1, rol2ing TO -Abst t I he piei-ceab rac T ilit~f o;r lail8illof -t -i a eel. a uharply lh~~d by :~crba6ing wi -oaches, 0,=drel slope up to 110, (critical 'reduction'here i 13% what a, a, slopi~ l 90--Onl~r around 10%)' wNr a of.. taboratory and industrial experiments sh6,,r;; that the &-vidre'l 15. (in the xarx~e.of~,70-~JW rpra. rpm ava.;Uttle 'effect"6n: the Pierce- ~,~abiUty of thin, stee:t Increasih& -the nun er,ofrpmle of the ar r- b r= 0 Imade it poDsibla to inueas,o productivity by *1~% Xbr: hirrh-gua2i~Z id 7   UICSSR/Physical Che.-::istry. ~>ys tals. Abs jour: Ref Z"ur-Khimlya, 'No -', lK7, 145,52 Author ',:. Ya. Onishcnenko Inst Riyev Tiniversity Title On the Problem of Artificial Preparation oll CrY3'&IS from Aqueous Solutions Orig Pub: Stud. nault. pratsI, kilv' sk. un-tu, 1301C, z1,, 19, Abstract: The structure and principle of the action of a j,lanetar-I type crystallizer were examined. A theoretical study was made of the influence of conditions of crowth on habit of the crystal. The results of the computations were checked experimentally on crystals of K2SC.I--AI2 (S04)3-24 F~20- Card 1/1  KOSH ITS, Yu. I.; VELIKA, Z. R. [Velyka, Z.R. 1; RAYKO, V.I. [Raiko, V.I. 1; -ONISHC-HI~NKC., M. Yu. (Onyshchenko, M. 1U. 1; BUTSENKO, ~L A. ; KRAVCHENKO, V.Ya., red.; SLYNIKO, B.I., red.; GRISHRO, T.I. (Hryshk-o, T.I.], tekhn. red. [Buildings on livestock farms] Budi,4i tvarynny-talkykh fem; budivellna i proektna praktyka. Za red. V.IA.Kravehenka. Ky-'-v, Derzhbudvydav URSR, 1962. 89 p. (MIRA 16:5) 1. Akademiya budivnytstva I arkhitektury UFV)R. Naukovo- doslidnyi instytut arkhitektury sporud. (Farm buildings-Design and construction)   v  A 7 'I'll h -1 0 z 1; u'r-.'-. , V . *.' -I . , - I . -- .,.; 7 c r, 0 Tl T L:--' An Attr-t t~, e !,rc of ek-~" 'I- t'it Gi i 0l t i ko-avll!~7t Z~-lv !,,-;I *_-! 1 or r iy'l In t! I _-, t a i 1 o t u,-. ~ t r t:. t rm ~tdor of t--.e -~, CO-, -nl If_ -on' , i:- r r. e ro T". u . , . r e r rk,- ~~7 fl nw re~-iil il, so I ion to ti., f c r -.- a ri B )th the unit an! t:~e ur ~erl,-: i:.-I de~- -T-i Id (ROf 1 1 t wa "a L c s ro n o t c e r r, r b'l Tl m-'.fic-ition ,f u., 0 u t t-.e loll C r 0 - I f - r H !n ir 1. r to incr-i;i,- t!.~ i, f 2 '  It ti t e uni t 'F~ z r -s ~i -I b:.- o- :c r e A z 0 v x r T e re u t Z, of t'. ve., t! t p r t(~ t :.e 'I ~7 cl;:. t I ,I r  A n A t t 'ire f i v e t S s IIA 1, 1: N -Z -, v f, t t C:,,rd ', ~  ONISHCFMrKO, 11. Pedal driven paint feeder. Strcitell no.4:lP Ap `,r. (MIPA I!: ~ I'. (Painting, Induatrial-Equipment and supplies)  25(l), 2P(1,2) AUT"ORS: T(Dz!iA1,.h, V.Ya., TITLE: A Device f )r Remote C~ini rol -,f Di- 14A.-,nce~, PERIODICAL: Izzneritvlln~~)-. t(. ' ni!, S,) ABSTRACT- Tlif~ d -. fr,r tr-If-rie' rin,,r rn(l rocording S'lifts of t1(, I:].'ir tor i,i-.1 ;I ~dlro )f - bi, I no )r ireirrh- ing co',,~ ~'rirg(.s F-)r 1)1~tst fu-riri. VK-7,-Ttq I)alnnc(,s of the )lant "i-eni Sta-),itina" au,-- us,d. 'h(- erv-) -;vsti- ~.,;--Is built b) . the in (oo,:crittion K.G. T'nrimov, A.V. Doro%hin and Yu.V. Do'~achev . It consiiz-~ of tin automatic bi idg, MIS111 , sel- syns DD-404A, BS-1,04A and EPP-09 and EPP-120- A simplified '~inerirtic di grruii f-)r 'Aie refiote .-r)nt--)l of dial ba- 1-.nc(?s is sh.-wri in fi,(,r.l. The trRnsmitter selsyn is installed on the indicator n(,(,dl(, shaft of the balance. Thr. receiver selsyn iL installed in the hridgo r,nd its stator winfling is con- nected to fin fimpli f ior inioit. T'iP Principle eloctri(:- I ci rcuits 'ire sit -nrn in fig .4 . Se I f-rr,e ir(lors EPP-'~g and EPP-121 ;,,iv be used for rocor Anar t1,.(, i-ei,!1A 0' the c-i%e ch;~rges in c~Lrs for rard 112 feeding the hlost furnri( no tochnical speci fic tions of