SCIENTIFIC ABSTRACT OBUKHOV, V.M. - OBUKHOV-DENISOV, V.V.

C ~~TT-wLir- -,- -4- I , W-1- J ) . 11. Cuttinc Machines 0 "Cutting machine." 3tek. i ktr. 9 no. 7, 1952. 9. Monthly List Lf Russian Accessions, Library of Congress, Cetober 195j, Uncl. 2   OF', x H 0 v7.--: K. 61ass'T)roduction M�~3&sgineering Pub 104,_ 12/12 t:- ,. ObukhoI it cu q omat o'cont rnace f0 emper ngglass of r t i A t ~,-Ti6tiodfta t 14,66k i,'.: iker.-Il i 30,4 32v.J 1154 powered equipment or~automatically con-, D t led~description i a givdn. of f a ai. . :' Lro 1iIngIa turnaceI during the- h automatication be-- teripering.of glass., sue ing considered essential to'the prevention.of losses in glass materials. 'Prawingsj:graph- v  OEMOV,V.H* Simplified method of automatic pressure control in glass furnaces. Stek. I ker. 12 no.?:23-25 Jl '55. (MIRA 8:10) 1. StekolInyy zavod imeni Dzerzhinskogo (Glass manufacture) (Automatic control)  CBMMOV.V.M.; MAKHNOVSTSKIY,A.S. ".- Misthod of continuous surface temperature measurement and recording on ShS-500 conveyers. Stek. J ker. 12 no.9:28-29 S155. (nn 8:12) 1. Gusevskoy stekollnyy %avod (Glass manufacture) (Thermometry)  OBUKHOV, T..M.; KAKMOMSJUY, A.S. ~ OUTOP, T.G., nauchnyy redaktor; ..-- ". lrdiiDYSHIVA, S.A., redaktor; LTUDKOVSKAYA, N. I., takhnicheskiy redaktor [Automatization and has% control in class production; work practies of the DzershinskIt glass factory in Gusev] Avtonatizatelia i teplovoi kontroll v proizvodstva stakla; it opyta,raboty %se"kogo stakolluago sayodm inent Dzershinskogo. Kosl3m, Goo. izd-vo lit-ry po stroit. materialan. 1956. 99 p. (KLM 9:12) (Oupiev-Glass sanufacture) (Automatic control)  ODUKHOV, V.K. "-- Automatic control of heat processes In a glass furnace. Stsk.i ker. 13 no-1:30-32 Ja 156. (KLRA 9:3) 1. Machallnik tookha kontrollao-izmaritellnykh priboroy Gusevskogo stakollnogo savoda isent Dzerchinskogo. (Glass manufacture) (Automatic control)  - ---- .. &,-V% - .. - -1. -QBMOV, V.M. Automatic moisture control of the blast under the gas producers grate. Stek.i ker. 13 zta.5:26-27 Ky 156. (NLRA 9:8) (Gus-khrustalny--Glass manufacture) (Automatic control)  M, AUTHOR: Obukhov, V.M. 7": -2- 10/?C TITLE- Temperature Control in the Channels of Machines and in Gla-ss Melting Kettles (Kontrol' temperatury v mashinrxykh kanalakh i basseyne pechi). PMZIODICAL: Steklo i Keramika, 1958, Nr 2, pp. 27-28 (USSR) ABSTRACT: The temperature in machine channels in the vertical system of glass stretching should be maintained rrith an accuracY of + 50. In the mjority of glassworks temperature control is carrie5 out every hour by means of a transportable optic pyrometer of the type OTrT1 M P -45, orOTIW-09, and it is difficult to measure temperature fluctuations of from 5 to 100. At present multipoint-alectron-potentiometers of the type,371P-09 are being used at the Gusev glassworks imeni Dzerzhinskiy) in order to increase the sensitivity of the radiation pyrometer, the existing shunt of 175�~ was removed. The pyrometer is switched on to the potentiometer. The characteristic of the pyrometer before and after its improvement may be seen from table 1; by chang.- ing the scale from 900-18000 to 1000-12500 a measuring accuracy of 2-30 was attained. Fig. 1 shows the building in of the radiation pyrometer, which is described. The recordings obtained from the firm- CaW 1/2 1y built-in pyrometers are controlled once a day, and at some points  Temperature Control in the Channels of Machines and 7 2-42 -10/ 20 in Glass Melting Kettles twice a week by means of an optical control pyrometer. In order to increase the reliability of the potentiometers, they are switched on only periodically for some minutes every hour. Some months ago such a plant was built in according to the same principle for the purpose of measuring temperatures of furnace basins, and thus it was possible to measure temperatures Yrith an accuracy of up to 10. Table 2 shows the characteristic of the pyrometer before and after reconstruction. The temperature curves before and after the exchange of scales may be 3een in figs. 2 and 3. Thus, the conditions for the introduction of an automatic temperature control in glass smelt- ing furnaces have been created. There are 3 figures and ? tables. ASSOCIATICh. Gus' - M=ustallwjY Glass Works Ireni Dzer7hinskiy (Ousevskoy fftekollwy zavod 1meni Dzenhinskogo). AVAILABLE: Library of Congress Card 2,/2  AUTHOR: ~b 72-58-5-14/18 TITLE: Signalling Device for Bulk Level (Signalizator urovnya Sypuchikh materialov) PERIODICAL: Steklo i Keramika, 1950, Ur 40 (USM) ABSTRACT: Laborers of the department for control-instruments of the Gusev imeni Dzerzhinskiy Glass Factory USM developed this signalling device and also produced it (see figure). It has on the one side the diaphrajm (1), which is compressed by two disks (2). Through their center passes a bolt (3) which pushes against the microcontact. The signalling device is lowered into the bunker by a rope or a tube so that the diaphragm is in horizontal position. As soon as the bulk covers the diaphragm the latter Gives way and the bolt presses the contact and closes the circuit. When the level of the bulk goes down the spiral spring (5) pushes back the diaphragm and the circuit is interrupted. The diaphragm is limited in its mobility by three thrust bolts. When two signalling devices are mounted within the bunker (one up Card 1/2 and one lower) signals are obtained on the level of the bulk.  Signalling Device for Bulk Level -58 -1 ASSOCIATION: Gusevskoy stekollnyy zavod imeni Dzerzhinskogo (Gus'-Khrustallnyy Glass Factory imeni Dzerzhinskiy) AVAILABLE: Library of Congress 1. Glass--Production 2. ConLrol systemB--Instrumentation Card 2/2  OBUKHOV, T.M. - . - , , Temperature control In machine ports and furnace tanks. Stek. I ker. 15 no.2:27-28 F 158. (MIRA 11:3) 1. Gusevskly stakollnyy zavod im. Dsorzhinakogo (GlAss manufacture) (Potentiometer)  1~(~) U. "i ~011 ii: hubLnin, V. L V 7 2 rldC'! L~ 0 L a urnace P--i'l~)I)ICAL. Stoklo j '-~oramika, I- PP ~L-77 I i e Gusevskoy Mm Factw -cuo technical LI y plate cjass for oto,.- aprJi,lAicoo, riurrors ?-.nd Photo;-r;Ir)'I.Ac -,Jl~lte- pl-.rccl on it are very hi[:hj tr-,--refore .1 attention ic dcvc,---~d -11C) quality in the mentiuned factory.,.s far as stability of quality and the utilization coefficicnt ot' the, glass mass aro concerned, this factory occupiec -- leading position in the plate glass industry of the Soviet '.rdon. Figures 1 and 2 sliow the glass melting furnace of' the factory. The temperature curve of the furnace mai be seen from fi.,7ure 3. Since 1956 the basir, and the channel walls are made of fire clay beams of a format and high density. k'igrureo 4, 5 and 6 show the nature of destruction undorgrono by thoon beamri. The basin .vallq of the tank furnacc are intensively cooled by blowinp. Aie fuvrjacc worked for 24 months and 10 days vithout need for repairs, Card 1/3 which circumstance led to a high efficiency and to saving in 0  !1iGh '."'orking Index Figures of a Glass 'aeltinS S011/72-59-~`-11/19 Furnace repair costs. The fi;rnace temperatures are very conscientiously prepared and maintained, thus permitting standstills to be cut to a minimum. The individual furnace sections are continuously controlled 1by maaons keeping watch. Every month the conditions of all furnace parts are checked by assistants of the chief technician and the results are recorded (Table 1). The deviation in the composition of the ravt materials used for a char-le in 1958 may be seen from table 2. To secure a stable production, only 6 out of 9 machines are operated at a time. The remaining machine is ready for operation at any event. The mass level in the furnace is automatically maintained .;ithin an accuracy of � 0.25 mm and the furnace pressure within occillations of' a ma~.imun 10.05 mm of the water column. Thc, furnace temperatures are Controlled by 18 stationary radiation pyrometers, which are cori,,octed to 4 self-recordine electronic potentiometers of the type (V. M. Obukhov, Ref 1). The radiation pyrometers are controlleu once for each shift by m~4an2 of an optical pyromcter of the OPPIR-0,9 type. Table 3 rivo.: the technical and oconomic Card 213 in4ex figures of furnace ~,erl`ormance in the last yearc.  4:i lids - y u 1111"~c In conc Li-ir -;!-)n t~ic- rm 11.,~o -in to l';tet~)riez; wmill, p1-,t:! for the country. and 1 Soviet reference. 1. T'j- -.~t f! r S tt e Ut I),, ;-i;xit.-L'uned factory -Lil additional great :tmount of !guru are 6 fii-ures, 3 tables, Cusevskoy stekoltnyy zavod imeni Dzerzhinskogo (Gusevskoylu'lasq ',actory imeni ~-,Pr-,~.inskiy) Card 5/3  Oammv, T. M.. Controlling temperature in glass-melting furnaces. Stek.1 ker. 17 no.7.-41-42 Jl 160. (MIRA 13-'7) (Gaaev--Glass furnaces) (ThermDcouples)  OBUKHOVV V.M.; ZRUNOV, B.V. Automatic pressure regulation inside a glass-malting furnace. Stek. i ker. IS no. 3:27-29 Mr 161. (MnA 14:5) (Glass furnaces)  OBUKHOVII~IL- Are protective floaters necessary in pot furnaces? Stek. i ker. 19 no.606-41 Je 162. (MIRA 15:7) (Glass furnaces)  OBUKHOV4 V.M.11 ZHBANOV, B.V. Induction thickness gauge. Stek. i ker. 10/ no.7:35-37 J1 062o (MIRA 15:7) (Calipers)  - OBUKHOV, V.M. Simplified diagram for the reversal of flame direction. Stek. i ker. 21 no.10:36-38 0 164. (MIRA 18:11)  C:BljKj f C-3 ,f air , I - 3"--38 tr,o Illa'sorl"y Q  OBWOVI V.N. Stomach cancer at a young age. Khirurgiia no.8:65-73 Ag 162. (MIRA 15:8) 1. Iz kafedry fakulltetsko khirurgii (zav. - zasluzhennyy deyatell I nauki prof. UJI. Yelanskiy~ I Moskovskogo ordena Lenina meditsinskogo instituta imeni I.M. Sechenova. (STOMACH-CAITER)  OBMOV, V. P. The introduction of automatic control is an indispensable condition for the Improvement of tank furnace operations. Stek. I ker. 14 no.9:13 S 157. (MIRA 10-10) I.Gusevskoy stekoltnyy zavod im. Dzerrhinskogo. (Glass furnaces) (Automatic control)  Q13UKHOV, Me U&Chelyabinsk) Track alignment after heaving with contiguous bmps. put$ i put. khoa, 5 no.3:12-13 Mr 161, (11MA 14:3) (Railroads-Track)  AM AMMY, Alsks&ndr Petrovich; LAZARN. Dmitriy Ifilippovic4;., OBUKHOT, Tladlair VU -dinlrovich; KOLMOTA. M.P., red.; HBROU.'Ii.T., [Collection of important laws concerning labor protection and 9&fety engineering In transportation construction) Sbornik veshnsishikh materialov po okhrano truda I takhalke besopeonosti no transportnom stroitellet". Moskva, Goo. transp, thel-dor. izd-vo. 1958. 1233 P. (KIRA 12:2) 1. Russia (1923- U.S.S.R.) Laws, statutes, etc. (Railroads--Safety measures) (Railroad law)  OBUKHOW, V.Ya., inzh. Problem of evaluating the accuracy of the calculation of the volume of material removed. Izv.vys.uchebazav.; gor.zhur. no.4: 75-80 t6o. (MM 14t4) 1. Movocherkasskiy orden Trudovogo Krasnogo Znamani politekhnicheskiy institut imeni SXrdzhonikidze. Rekamendovana kafedroy markshey- derskogo dela. (Mine surveying)   ZMT# T-M-* doteent, k%nd.tqkhn.A&uk;-OB=OT. S&MTLTG&, M. 2. Accuracy of survey control in opew-pit mines. Ugoll Ukr. 4 no.5tlS-20 * 160. OUVA 13: 8) 1. lovocherbasokly politekbulcheskiy institut (for Zubov, Obukhov). 2. GlavzWy marksheyder tresta Aleksandriyaugoll (for Swwtugft). (Strip minlag) (Mine surveying)  OBUKHOVF V.ye. Input converter for electr-)nic cor.Tut,~,-2 -:s~-ig par-amf-~r-,ns. Avtom. i prib. no.h32-34 Ja--Mr 165. (MTRA lpjg)  L~ 6,4! 2 34, Z- 5MR 1-4AED-2/EE0-2/PWT (d) GGE$510N -NR-. AP5016091 UR/0302/65/0001002/0043/0045 6al.376.ZZ3 '.AUTHOR: Obukhov, Vi Ye.; Mikhaylenko, A. F. TITLE: Moduliator.for a three-cycle pararnetron exciter without a d-c voltage ource SOURCE: Avtomatika i priborostroyeniye, no. 2, 1965, 43-45 TOPIC TAGS: parametron, parazynetron exciter, parametron exciter modulator A i ABSTRACT: A -simple original 1 circuit (Author's Certificate no. 163214) of a 3--qdf~' parametron-excitatioa modulator (see Enclosure 1) is described. The t tranei4tor bases are excited by three 1200 -shifted negative trigger drops, which 0 results in producing 120 -shifted r-f output pulses at windings W,. Excitation A by- 1-phase, sinusoidal voltages is also possible but, in this case, the transistor turri--~offsi~ft, *--ill necdo'sarily be longer than the transiotor turn-on, state,# Orig. i art. has., 3 figures and 4 formulas. ~13   ACUSSION, NR:APr1016091 9 LOSURE Sqli"e 120 -shif ted OW waves pulsqs 1~ ---------- rp W, 4. Modulator for a 3-cycle parmetron exciter Card 3r3 ,   I Card 2/3  I I p -.- -., -I-,- '' .- I -. L- i - I . 1 1- ~. i I  L 3179-66 ETC(Q) KN 'ACCESSION MR.- AP5015353 UR/0286/63/wo/oo9/oo96/oo99 681.14 AUTHOR: Qtaka;q~(.AL-1-, Xu1xar-.,1-G Krmik turosbalchako.-Al-K-.; 4 -F 0 , ozv M. Ye. , eyfets, say. A. S-Mirnov -A. 'Wrg IgL Mo;-Dubro, G. B!'Alilpov, A. N."" ,TITLE: Electronic instrument for measuring velocity, distance traversed, and tim.; Class 42. No. lT07i6 m SOURCE: Byulleten' izobreteniy I tovarnykh znakov, no. 9, 1965, 98-99 TOPIC TAGS: tellurometer, radio rangefinder. geodetic instrument I j "Vi. 5 ~ ABSTRACT; An Author Certificate, issued for a device vhich measures velocity, distance traversed, and time, combines a high-precision tellurometer, a phase recorder equipped vith,a unit for converting sinuvoidal signals to pulsed signals, and a unit for measuring phase differences. Readings spz* made vlsiall*. Tho circuit connections of the OvIce, tonsisiting of a siries of computee-type modules. are described In detail. (8P) ASSOCIATIONs none cfftd 112  '17 L 3179-66 ACCESSION XR.' AP5015-35-3- summm OhKu63 ENCL: 00 SM Cola: M, EC NO RE? GOVI 000 oml 000 ATD PFM- 4025 ell, cw4 2/2  -It C, TOV, ; ; fj,(17, 5. yc". , band. tok I in. nauk; fli~li:,~f; " -" * i 0 . ) . J', of atripirif., or, thn otat,O Mid IP )III!UT-0 -X lh(' i'"'Fillkl'Urldil bods. Vost. A.11 Fazakh. SSR 20 no.12:5~.-60 D li-4 (! , .~,, 1 1.-, :-, ) I'$ I - o 1-rov, t 2.311 (fur Slkt-in~ v)e : ~;" (.,,t -I 1-wirldolit Al'; Kaz  '2j, 2-1 AUTHORS: Kotov, V. I., Obukhov, Yu. L. and Pushtarik, V.A. TITLE: On the Theory of a Cy clic Phasotron with Radial Sectors PERIODICAL: Pribory i tekhnika eksperimenta, 1959, Nr 5, pp 19-22 (USSR) ABSTRACT: An analysis is given of the free oscillations in a cyclic phasotron with radial sectors in the ideal case. The analysis is an extens ion and a generalization of the theory given by Cole, Hoxby et al. (Ref 4) and Symon, Kerst et al. (Ref 6). Formulae are derived which may be used to calculate the geometric parameters of an accelerator (angular apertures of the sectors, frequencies of free oscillations etc.) and also to determine the permissible range of values for the mean field exponent k. The magnetic field in a cyclic phasetron is determined by the function given by Eq (1) which is taken from the paper by Symon et al. (Ref 6). The equations of free oscillations in such a field are of the form given by Eq (3) which are take n from the pappr by Kotov et al. (Ref 7). Eqs (3) are solved assuming that ti,e instantaneous orbit consists of a c ircular orbit of radius e, in the , Cardl/2 . 11'  663,49 SOV/120-59-5-2/46 On the Theory of a Cyclic Phasotron with Radial Sectors positive and P2 in the negative sectors, while in the interval between them it is a straight line (Fig 1), It is also assumed in the solutions of Eq (3) that the local field exponent on the orbit remains constant within each sector and is equal to the mean value of the exponent (along the orbit) for the given sector. Under these assumptions the equations of motion are of the form given by Eq (13). It is shown that a change in the mean field exponent has a much stronger influence on the frequency of radial oscillations than on the frequency of vertical oscillations. There are I figure and 9 references, 3 of which are Soviet, I German and 5 English. ASSOCIATIONt Ob"yedinennyy institut yadernykh issledovaniy (Joint Institute for Nuclear Studies) Lkl-' SUBMITTED: September 2, 1958 Card2/2  3/0 01009/006/007/011 DI ~ .12 Al Up 0 kvrVOBS' Pttkha,, 1. k., Gabso.t., I., Zhurselstv, A. A.. UEM in M, Qbkhov, I.. I., T:!r:k: T Bond&, F., pukatka. T., 1ITLI. ?be stdol of the ring proton synchrotron PIRIODICkLe &tosmaja wnerglys., v. 9. ac. 6, 1960, 491-495 TZU& Us rind proton synchrotron hich to a poserful focusing accelerator elth a magnetic field acnatant with respect to time, how been suggested In 1953 by A. A. Colazonekly, V. I. Potakhov, and U.3.Rablazvich and. independently of than, 1. 1955 by Sloan a8, If$.' (1955 the now device a..- to be able to produce very lat.n.L- a ... 1.r.tod- particle beams. k model of this ring synchrotron (with radial sectors) CLAS been a Ir4o I;d.In Cb tastitut yadtraykh La.ldov,niy .:dlawamyy (Join iltuts a u Rrch). The cocmtste of eight slonants arranged periodically, each of which has a direct And an Iaverse seaterl it also has two straight sections. The Aalouthal card 1/3 22447 3/089/60/009/006/007/01 The model of the ri.d... B10213212 Alm."lon of thhdir..t sioot.r, htch focuses the boso, La radial direatiam, in 2 2)0', god q.t of the inverse seator, ohich brLags about the vertical focusing. is 7 501. The inverse sector. cause the orbital perimeter *C lh:'ruiag m,7mcbratroa to be btgSer than that of a azandard 'r. Ugly f...I cools rotor. Th. ratio of the xzzizum radius of ;he *rbit to the &into= radius of curvatur. 1. appzrozl~ately equal to . Th. :all: go :,rt,1.4, 1ho field are arranged such that the :g..tl. field I.- re *6 1th.r&di- of the rbit a .... dlla to H (ILIB.)4, I..., or:*&*, from 41.0* 1. 54Qt*:.m1j2 P59. he ssXz.% 1.1, tthe hA ran rist~ sp hot, to oI In the J'an.L proport ion to he gap r&Ai= . Tb.reforo vertical d of the I I also change f am 2a 4 ca. The J..r me. of sor= area wt I rt a .11 ia&l dimensions of the a ator. &ad the c..Stancy ~f the f old 14 Index of ths'nodol to equal to 4) bring shoutia (its.fI. dy"ala aiatlari%y of the orblta. and the frequency of the free o.ailla- tons :illoalso b: coaa!.m%r.aThP,auabr vad I .. a t nd IW b ,,ri, STh a t h 2.5 %a a the I II ad. 6 . 1. 4. for card 1/5 4/009/60/009/006/007/01 1 the model of th. rind--- 31021B212 %lestroo.n..larsti.al the injection (of 20-40 k. v may 1, ly or In a Pm2s&d =er.vaft .. 11 ..! "' 0N."a"to ca 20 , Pa. .- lots.. t ,It 0 ataaa .1dbe 1.6 - Ir "A a trq ... 47 of 450-500 Pa. Th. fir.% to*& result. obtained f~.. this wait showed t hetI 'Ll"Ory a ."I11'. ith red." to the accuracy of salleallask 4.4 th. llityff th r%A.Ap:l.zog . . :.p Thor* are 2 figures .4 1 r r a5 3 al t- The Iss refer-Dows t .Zodl J:b It. 2720a. Vby*.As- 2_A, 1152 (1955), Ohl,---. Soo (1950). OMMITTUs my 26, 1960 caft J/3  ZHURAVLEV, A.A.; IVAVOV, I.U.; KAJIMASID, M.; KOTOV, V.I.; WAE, E.A.; OBOZNYY, V.A. ; OBUKHOV, Yu.L.; PKUKROV, V.A. Notion of particles in an annular oynchro-cyclotron] Issledovanie dvizheniia chastits v kolltse-,om fazotrone. Dubna, Ob"edinennyi in-t iadernykh issl., 1961. 24 P. (MIRA 14:12) (Synchrotron)  C4 Z/o3 61/000/OG4/005/005 11,3100 1D f. D2 36YD '105 AUTHORSs Petukhov, V.A., 11abanec, J., Zhuravlav, A.A.. Karmaoin, M., Kotov, V.J., Myao, E.A., Obukhov, J.L., Sochor, V., Cirbk, .-7 - _71- T. lionda, F., Dobilig, J , &YeT, , FukkYD, T., Svetov,L. V. TITLE3 A modtil of an annular cyclotron FiRIDDICAL, Jndern& energie, no. 4, ig6i, 136 - 137 TEXTs This Is a tranalation of an Rus3lan article entitled kol'toevoco fazotrona" (111odel of an Annular Cyclotron) oriCinallj pablirh~d in the Soviet puriodionl "Atomnaya onorgiya"_q, (1960), no. 12, pp 491-493- 1t deals with the model of an annular cyclotron which is a fixed-field, al- teriLating-Uadient accelerator, built by Soviet and Czechoolovadc phyaiciato at the United Inatituto of Nuclear Research In Dubna. The proposal for an annular cyclotron was oade for the first time in 1953 by A.A. Kolomenskiy, V.A. Petukhov and M.S. 11abinovich (Ref Is Nekotoryye voprosy tooriyi taikli- chookikh uskoriteley(Some Problems of the Theory of Cyclic Accelerators), AN SSSR, 19551 Fribovy I technika experiment& (1956), no. 2. p. 26). The elec- Card 1/ 2  268% Z/038/61/000/004/()05/005 A model of an nnnular '!Y'qotron D2.58/D505 tromagnot of tho c,nnlato of eight similar, alternatply rea,!ryed parts , each of wit J At b-i two a,,ctorn ith opposite orientation of thl~ marnat- ic field, and twtw stritight n-tiono. The accelerator is urea for c-Loctron acceleration. Moclr( nii with ~lnerrltia of 20-40 key can be injected either continuously or in piln-tn. UnIng ft combiliation of eddy and radio-fropiency fields, a bonm 011,11-gy 111) to MeN can be obtained with this model. Prolimina- ry reaultn olitliinst-l (birITqT tent rxxnn hnvo nhown the high accuracy of the ma- chino anti tho gr4tat stability of Its principal marnetio charaoteria tier. Al- Bo, in agrenment with Lho thenry, a number of various resonances wan obaer- ved which have a oubrititntinI influonoo on the Intenaity of the acoel~rated beam. There arn 2 (linireis and 7 references% 4 Uovit-t--bloc and 3 non-lloviat- bloc. The refnroncon to the Engliah-language publications read as followas it. Symon, Phyn. [toy. 90 (1952), 1152; T. Okhawa, Rev. Scient. InAtrum. 29, (1956), 106- Card 2/2  10 26780 S/05 611031101010131015 BI I 1YBI 12 AUTHURSt Benda, F., Gabanats, I., Dobiaah, I., ZhuXAxlAx+-A--A., Karmasin, It., Kotov, V. I., Varok, M., MyFte, Z. A., Obukhc7 Yu. L., Petukhov, V. A., Svetov# L. V., Sakhar, V., +.T-a~t.. -T'.,and Tairak, Yu. TITLEt Annular proton synchrotron with radial sectors PERIODICALs Zhurnal tekhnicheskoy fiziki, v. 31, no. 10, 1961, 1253-1261 TEM This article describes the model of an annular proton aynchrotron with radial sectorap built and put into operation at the ObVyedinannyy institut yadernykh issladcvaniy (Joint Institute of Nuclear Research). Technical datas Number of periodicity elements 8 Azimuthal dimensions of a direct sector 22050t Azimuthal dimensions of an inverse sector 70301 Azimuthal dimensions of the gap 70501 amplification factor 'v 3 Initial radius 35 cm v~ Card I1