SCIENTIFIC ABSTRACT STEPANOV, V. - STEPANOV, V.G.

STEEPANOV, V. (gtantsiya Platenyy Tashlyk Odessko-Kishinevskoy zhelemoy dorogi) Needs of a grain receiving station. Muk.-elev. prom. 30 no.3t 30 Mr 164, (MIRA l7t4) r  BOSMARSKY, K.; STEPANOV, V. Assessment of the C09-content of the microplimate during short periods by means of an interferometer - contribution to methods ~ for microclimate an&lysia. Cask. hyg. 8 no.9:559-563 0 '63, 1. Katedra hygieny deti, dorostu a vyzivv lekaroke fakialty hy- gianicke KU, Praha. ~e  MISHCHENKO, H.M., inzh.; BERDICIIEVSKIYI U.N., inzh.,; TERMINOSYAN, N.S., inzh.; KURILOV, A.I., inzh.; POLYAKOV, N.M., inzh.; VFMIDOVIf,H, Ye.A., inih.; PINDYURIN, N.I., inzh.; Prinimall uchastiyes MALINOVSKIY, V.G.; MOLCHANOV, I.V.; MASHISHINA, M.P.; YOCHENKO, Ye.K.; CHEREDNICHENKO, A.A.L.�T&LAAU,_YA.; SKACHKOV, L.N. ld4ceased]; KOSHMAN, A.I.; SHCHEKLIN, V.V.; CHUBATYUK, Ye.G.; KHITO", Ye.Ye.; KOROBOVA, G.Z.; ROTMISTJOVSKIY, B.H.; VEYSBEVI, A.D. Increasing the efficiency of section tandem mills by the use of repeaters. Stall 23 no.3:236-241 Mr '63. (MIRA 16:5) 1. Yenakiyevskiy metallurgicheskiy zavod. (Rolling mills--Equipment and supplies)  L 1076 57 65 WW/EWF(W)/EPR/,EWP(b) Pa-4 ESD(t)/ASD(M)-3/ASD(f)-2/AMV. -13 ~(mp) -~2ASD (a) -5-4dlJD ACCESSION NR: AP4044928 SY0181/64/006/009/26LO 611 AUTHORSt SttRanovs V. A.1 Kurov,.I.*,Ye.l Sbpeyzman,* V,,-V6. TITLE: Time-to-rupture of metals.subjected to torsion SOURCEt Fizika tvardogo telao ve 6e no, 9. 1964, 2610-2617 TOPIC TAGSs metal breaking, torsions aluminum, copper# zinc.# plan tic deformatione'activation energy_ ABSTRhCTs In an earlier paper (Me 4#'191# 1962) Kurov'and Stepa- nov reported that the dependence of the timo-to-repture'v on the stress a and tenVerature To in the case'of aluminum -copper and zinc subjected to torsion# was where Uof c;, a and y are &nstanta for a-given metal# and R is'the -1/3 CGrd  --L-10767z65 ACCESSION NR: AP4044928 gas constant. Formally Eq. (1) differs from the dependence found by Zhurkov et al. for unia~fal_ tension, only by the stress dependence of the pre-exponential factor. However, the basic dif- ference is that the activation energy of the fracture process# Uoe for torsion is only half the energy for tension. The present work reports further tests carried out between -85 and +100C on Zn and Al + 5.5% Si hollow cylinders (outside diameter 2 m, inside -- 1.5 mm). These tests confirmed that the type of stress affects U . It is suggested' that the change in U0 is due to,a change-in the! ?rac- ture mechanism:.frem fluctuation-type breaking'of interatomic bonds in the case oftension to flow of vacancies to the tip of a growing. crack in the case of torsion. The change in the mechanism is due to a sharp increase in the degree of plastic deformation and the rate of vacancy formation on transition from tension to torvion. Card, ----2/3-.--  t - A  " t I. :, 'I r-,~ -,I 1-.1 .., . If T A C-".tqi ri Fnr,~-r-, tprg Dpte--l ril r.;- tl- rnO ti n- lds~ r rm t- Tr.-4riqmission Min Hii,,ir!r Edtication USSR. qni Electrificatlon of Aerie'altlire imeni V. M. 1.1'Intnv. c ow (Dj-i,~ertqti.in f!)r dovreo- of Cqnliriatp- in 2 J111Y 1055  STIPANOV, V.A., kandtokhn.nauk. ,- Contact wear of tractor transmission gears. Trakt. i sellkhormash. no.1:16-19 Ja 158. (MM 11:4) (Tractors--Transmission devices)  112-57-8-16472D Translation from: Referativnyy zhurnal, Elektrotekhnika, 1957, Nr 8, p 66 (USSR) AUTHOR:- Stepanov, V. A. TITLE: Optimum Load Distribution in Mixed Electric Power Systems Using Computers and Automatic Operators (Naivygodneyaheye raspredeleniye nagruzok v smeshannykh elektro-energeticheskikh sistemakh s primeneniyem schetno-reshayushchikh ustroystv i avtooperatorov) ABSTRACT: Bibliographic entry on the author's dissertation for the degree of Candidate of Technical Sciences, presented to Mosk. energ. in-t (the Moscow Power -Engineering Institute), Moscow, 1956. ASSOCIATION: Moak. energ. in-t (the Moscow Power -Engineering Institute) Card -1 / I ii  STXPALNOVS T.!#~~,_kandidat khImicheskilrh nauke -.1. ~ Nomogram for determining air excess coefficients. TeploeuergetlkA 4 no*3:62-63 Mr '57* (MI&A 1013) 1. Khabarovskiy podagogicheekly institut. (Combustion)  STIPANOV, ... kand. khim. nauk. Calculation of the air ezaess coefficient for gaseous fuels. Isplo- energetUm 4 no.12:86 D 057. (MM 18111) 1. Khabarovskly pedagogichaskly Institut. (Gas--Analysis)  STEPANOV, V.A,, starshly nauchny7 sotrudnik Residual amount of chlorote c3rcline in the meat and by- products of poultry treated with this preservative. Trudy TSVIIPP& 9:24-28 162. (MIRA 16:6) (Poultry-Preservation) (Tetracycline)  STEPANOV, Viktor Aleksandrovich, kand. tekhn. nauk, dots.; VLASOV, Pavel Andreyevich, assistent; RYBAKOV, Dmitriy Yurlyevich, st. prepod.; BANLIKOV, P.,, red.; VO:'=KO'VA.(Ye., tekhn. red. [Some problems in the repair of parts and units of motor vehicles and tractors; generalization of advanced expe- rience and research results] Nekotorye voprosy remonta avtotraktornykh detalei i agregatov; obobshchenie peredo- vogo opyta 1 rezulttatov nauchno-issUdovatel'skikh rabot.Penza,' Penzenskoe knizhnoe Izd-vo, 1963. 86 p. (MIRA 17:4) 1. Kafedra "Remont mashin i tekhnoligiya metallow" PewAn- skogo sellskokhozyaystvennogo instituta (for Stepeww, Vlasov, Rybakov).  J U L 11 NO:- AP4012005 .j Ipopov, V. I.. 0scow);.3tepaikov V A. Travnikova, N. A. (Moscow) TTTL'!',: ProLgrazming program S/048/64/004/001/00*0095 (Messew)j Stishevail A. 0. (Mosoow)i SOTRCE: Zhurnal vy*ohisl. matem. i matem. fiz., v. 4, 110. 10 19649 -78-95 TOPIC TAGS: progranning, programp triple address machineq binary code, uncondi- tiQnal transmission, conditional transmission, manual programming, machine language ABSTITIACT.- A programming program is set up for. a triple-address machine vrith a nine- place binary code of operation and twelve-place addresses. The system of commands for the machine has all the basic arithmetic And logical operations:and operations on commands. There are commands of unconditiMal transmission of control and com- mands of conditional transmission according to the sian worked out by the preceding command. The machine has a large external memory. Programming programs have been in use since October 1962. The time of progrAmming is =all; in the processing of one bit of information the time expenditure corresponds to 1000-2000 machine commands. Programs composed by a programming program are 1.5-2.5 times longer than card 1/3  ACC:ISSIO:Z NO: AP4012005 pro,,7.rams net u-) manually. The solution time fpr problems by prorrqms composed by a pro,--ram-nnin!, proll7rar., in 1.5-5 times greater than by programs composed manually. Th;.S rpllationsh'p df!pendL; stroni-ly on the quantity of cycles and variable addresses in them, and aluo on the quantity of procedures. The author3 discuss the input lan- ,,ua7,e or a pror,-raru!!jnj ptrog-ram, the history of programming programs, and transcoding of inform.-ttion. '2h-,~-y construct a table of boundary of conditional addresses, treat p:-eliminL-ry proces~;intl, of information and its translation into machine lan_~uage, claosil"ination of procedures and formulation of procedure-schemes, and processing of information on blocka and variable addresses. The problem of programming operators is separated into two utages: regulation of the operations and their Dro_g=-qmPin.-. Re,-ulation of operations is reduced to separation of all syntactical units of the lanr,-ja-3e into the sequences necessary for the program. Determination of the length of the pro,,,-ram, con.,ilruction of ncales, and appropriation of true addresses are discussed. There are certain deficiencies in the programming program. It may have uneconomical formation of variable addresses. Now blocks are set up due to which these and other deficiencies are remedied. Included in a programuting program is a block for processing variable addressesp linearly dependent on the parameterv with the help of commands of recovery and transaddress. With new processing of blocks an abstract of blocks is not set up, and the restriction on the quantity of blocks is card __?h  ACCESSION NO: AP40!2005 removed. A clearing of cycles and blocks is done. Clearing of a cycle means carrying out.operations on the cycles which can be accomplished up to the beginning of working of ihe cycle. Clearing of a block means carrying out operations in the preparatory part of a block which can be used in it. The preparatory part of a block is the collection of descriptions and operators from the beginning of the block to the first mark, or to the first operator of the transferg or to the first operator of the cycle. "G. M. Zaikina and S.-A. Toporishcheva took part in various stages of the work on the programming program. The working out of the general scheme of the programming program is due to S. S. Lavrov. The authors express their gratitude to them for the valuable advice and constant interest." Orig. art. has: I table and 4 formulas. ASSM; IAT Toll: none SUBMITTit"D: 22,11ar63 DATE ACQ: 14Feb64 MCL: 00 SUB CODE: CP NO REP SOV: 004 OTHM: 000 card 3/3  _L 22731-66 Evrr(d)/Et4? hyVIRM 1ACC NR: AP6002902 SOURCE CODEt UR/O2i6/65/000/04/6&6/ 'AUTHORSs Pangsiev, V. A.; Stepanov, V. A*.; Shestakov, V. S. ORGt none TITLEt Self-powered boom crane with pile-driver attachment. Class 35# No- 177057 ounced by Novosibirsk Branch of the All-Union Scientific Research Institute for. 4tsportati Uonstruction (Novosibirskiy filial vse9oyuznogo nauc iiseledovatelo'nakogo inatituta po transportnomu stroitellstvu27 SOURCEs Dynileten' isobreteniy i "-..&rrAykh =&akovp no. 249 1965P 66, TOPIC TAGS: cranel loading equipmentp pile driverp transporting equipmfmt ABSTRACT: This Author Certificate presents a self-powered boom crane with pile- driver attachment# including a pile-driver boom with guideways hinged to the crane boom and a brace. The ends of the brace are attached to both boons. To decrease the time required to convert the crane to operating or transporting posit'ions and to permit its use without dismounting the pile-driver boom, the latter J.e assembled from hinged parts operated by a drive mounted on the crane boom (see Fig. 1). The drive oable is attached to the lower part of the pile-driver boon and plLssea over Card-1/2. _UDC-s- -621-875.3!629.11:624--155t-15-J   0 6 046640#00-0# iss,21" Djob A),x)1 oil vu Oro L-J 00 A! a I I u 1111-LA I AA U,j 1 4 A Go 00- ..60 o e lanuesce of the rate at dolonsatitia am the calif buittle. -00 no$$ of Pleat. 1. 1". 1:, Villitall Alld V. A. Stil-ASSAIV. * - ' ' .0 *% . S. S. R.~ 9. lit .dfrAJ% c(. Inc- 44. Phys. it J. 1 00 retling almr.- the clit. tculp. of IwiltIvllC%s tit mell -00 11 1,,r,, I t,. AV. 91-1i11 -itC fa 0) %A- Of lilt- fail 00 janvAnd C)Iitmlrlt) Awl -- V.:. and V1, trill" %huacis). lc,p. Swtc st'"In'l M.r.- Nest; thir i pi-,ttlc at th.- yi, ki I-sm %o% ova-d fnvit .74f Lg mi. ittiss. 1 1.4 to IC: Its .3 SO"i, At 1 :11" Flll~ in, -ul.- r - -00 00 ZA th.- Itisq.. An.1.1 Alld I- "wOo, Illtit-l"litk Mae twu Iwivirria p Avail r VAII IW futind; 0 ITIVIcAU-4 to)' ttdl~', zoo 00 =*o 00 00 lie* - see 00 g w Zee t : ZOO 0.4. ; 300 .00 Go 00 00 00 0- zoo goo V 14 an I sno0 A I ft 41 09 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 9 4 to 0 0 0 0 0  4 : * 0 & 0 & o 0 0-0 a O-UW-wv w to ago a gas as** of****,** I 1 4 1 a I - I I I '1 1. 4 4 11111 bibij bills A11111111611 Lilt Mr. Ul. WI'6 It If *A It (A W It go go. so 00 00 181111"W ed dw rate d dwometlam 4m me Cold ultue, 11141415 40 110". U. F. P. Vittuam &" V. A. Smatum. J. rech. PAYS. (U. S. S. R.) 0. lots & C. .1. 34. (Cis 2%1 w. rt- he"Li if 00 at difeirm f4mviN coll I Ill, ititImit I of w bmhh- -00 km*. The O"WC ctit. It-IIIII. 1 44 11H...4d 1,11til. it. 1- -00 from -79 to 36". aml She hwur 4 fit. truip. bmit I I.', 00 1 to -b". W6016b Spirval V ilk lra~A rfldll GAII I Ill ks 1-00 Illd= , lk in Its r - A - (R; /'I. A smi B In mig , im,t. so Tile i. 1hr lr(m#s4.r IIII, 1111:114F Ou ,.so 00 00 so 00 i roe goo so of goo goo Ale 00 00 S I t aWAL14041CAL LITINSIOt CLA%SWKATICP ISO* 10- 1 4 1--- weip 1 8 Od 0 4 a Or3- 31, JS a x Is 11 Is x11111-3 It 1 24 0 Of 0 * 0 0 0 0 Wo 0 0 4 0 0 0 0 0 IS 0 0 0 0 0 0 0 a 0000 00 0 000 0 " 0 0 0 09 0 0 0 0 g00$ 600 0 a  - - - A ' a 9 0 * 0 ' w 19 0 0 04' J ! 4 1- M. l* V M MR z A I f Z J l -, M M .1 A .1 11 a V .1 1 410 Al "a Aug I. Con!) A."IsIts W1 00 U. *0 o 0 Sere%-Cwtabim Cracking w Mkb-Ch"WAjam %im U" i : M ). (In Russian) L A. Glifitman and V. A S te oiler and rurbin Or Co ti U S 0 z A e n me on f . , hl e S mm 1947. p. 19-21. 00 Dmribea caipes of the failure of bushings an the 00 ;hafta of turbines, Jt is established by experiment 000' hat the failure of the above stewl was caused by trewcorroslon cracking. A mechanism is pro. 09 r-wed for the latter. 00 :1 A! Y 1 4 S a. j L aMCtALLtIVrK4k LITEIATUII CLASSWKATICO S.ICS0 -A- ~' J-t 431AII(so 414411 OK iww . I r-i-- I A 'ho 0 0 v I UP a 9 AD 4 3 1 9 0 A; V zF It 2 a a a 4 a 09 -a re- *see 0 000000 0 0 0 0 * 0 oie 0 0 0 0 zoo see 01  0 3i Ic Is ty to If a Fix to Jill a-LI -i- f , - r~ it P, 4 a 1~ 46 Cc 60 CL.~ A 00 A? 00 go 0* so 00 0 o Kc%WvW son%w% Our* Phising. (in Russian.) L A. :0 an,j V. A. Stepanov, wid Tuplone tnJupkiryl, Swpt.-M-t. 1919. 00 00 00 01 inv"lication .-f the atmove. Analyzt-o mechanism I ,r f(,rniati,)n 1)r swvr sirrpsris. Includes ifiaxtams, 00 '11 0* A o(TAL LUNGK4L MINATURC CL&JUPKII140so IMUSSIOW U Is AV, -0 4%. a Is 0 Ole 0 0 0 0 0 0 0 0 0 40019 0 0 go 0 0 0 * 0 : : : : *1: ::10::: 4#4431 as 0.. &l16 a a 0 -1 Is 0 0 0 a 10, : : 0 # 0 a 0 0 0 0 0 a so -** 1100 1041 P see 0 fee 9  STEPANOV, V. A. Mbr., Lib. Physics of Metal Working. Leningrad Poly-tech. Inst.. -c1949-. Cand. ftyalco- Mathematical Sci. Xbr., Leningrad Metal Plant. im. Stalin, -ol948-c49-. "On the Origin of Residual Stresses of the First Kihd in the Case of Tension." Zhur. Tekh. Fiz.x 16# No. 6s 194-5; "On the Origin of Residual Stresses in the Process of Grinding," Ibid.. No. 7. 1946; uResidual Voltages in Rolling Out Processes,n ibid.. No. 5, 1948; nThe Emerzence of Residual Stresses of the First Class Under Tension', Zhur. Tekh. Fiz., 19, N,). 3, 1949; "The Origin of Residual Volta.-es In Polishing High -Chroralwin. Stainless Steel,' ibid.$ No. 4. 1949.  q ~J 0 1 LJ, q- USS /Physics Metals, Mechanical Properties Card 1/1 Author Vitman, F. F., Zlatin, N. A., Stepanov, V. A. and Shestopalov, L. X. Title Determination of the mechanical properties of metals by means of a small conic indentation and a shallow scratch Periodical Zhur. tekh. fiz. 388-399, mar 1954 Abstract Experiments with a variety of metals are used to show that character- istics such as yield point., tensile strength and actual breaking point may be determined by means of a small conic indentation and a short superficial scratch. Critical review of literature on the subject is included. Institution Submitted October 10, 1953  f. v Z. dt All "ILI t is I- A glynno-z-, ~3 -A- QA A S -- -, --I *.!2 - -1 ly 3. AA Big Aaa VA o it A 3 tat In a 89 d.4 , I s a a s sit All " i ja  flv A ILI 3 old v t I 01 w~; 4.0 g, , F IA. ! 1, 4 " -o r. JS j': 8 21. 1 - V A,3 8.4 -A S.- g .4 to, oil 11- 11 1 11 41 H4 KK V J1 A Ir At 4 Ms o u - -3  86766 s/l2o/6o/ooo/oo6/O43/O45 E032/E314 AUTHOR3 St-I gnay- V.A_ "'ITLEi Gas Valve with a Packing Gland Operating at Pressures up to 6 katm ~,-'HIODICAL4 Pribory i tekhnika eksperimenta, 1960, No. 6, P. 135 TEM The author describes a new design of a needle-type by- pass valve suitable for operation at a gas pressure of up to 6 000 atm (see illustration). The pressure nut 8 hamkAwo safety ports for discharging the gas into the atmosphere in case of a packing failure. The needle screw 1 and the valve body are made cf 4-OX (4OKh) steel (chromium steel), quench- hart~:?ned to Rc = 35-38; the pressure nut is also made of the -a iw~, 30-32. The type of steel but is quench-hardened to Rc = needle 3 is made of Wk.- I; (ShKh-15) steel (bearing steel),~ quench-hardened to R. = 60-62; washers 4 and 5 and a bushing 6 are also made of ShKh-15 type steel, quench- hardened to Rc = 56-58, The packing around the needle consists Card 1/4  86766 S/120/6o/ooo/oo6/o43/045 E032/Z314 Gas Valve with a Packing Gland operating at Pressures Up to 6 katm 4f of six copper packing strips 7 fitted alternately with five teflon strips 9 The thrust nut 2 is made of non- hardened type 14.0>( (4OKh) steel. The valve withstood 100 openings and closings at a pressure of 6 000 atm; it in considered suitable for handling Ar, N2 and CO 2 gases at ~- temperatureSof 260 - 300 OC. In some of the tents the pressure was increased to 7500 atm. As a atop valve it could withstand pressures up to 15000 atm* Card 2/4  86766 S/120/60/ooo/oo6/043/045 E032/E314 Gas Valve with a Packing Gland Operating at Pressures 'Up to IG I,ati.-, There are I figure and 5 references: 1 Ezq)-lisi and 4 Soviet. ASSCCIATICN: Institut fiziki vysokikh davleniy AN SSSR (Institute of High-pressure Physics of the AS USSR) SUBMIT'VED: October 29, 1959 Card 4/4  84659 12.1 jLob W-cl S/02o/6o/135/001/011/030 B006/BO56 AUTHORS: Vereshchagin, L. F., Corresponding Member of the AS USSR, Ryabinin, Yu. N., Preobrazhenskiy, A. Ya., and Stepanov, V. A. TITLE: Growth of Metal Monocrystals Under sure p High Hydrostatic Pres- PERIODICAL: Doklady Akademii nauk SSSR, 1960, Vol. 135, No. 1, pp. 45-47 TEXT: The growth of metal monocrystals at high pressures is of interest above all because, on the basis of thermodynamic considerations, it must be assumed that the higher the pressure, the lower will be the inclination for formincr structural defects. The assumption based on theory that with pressure the regularity of the lattice increases, requires experimental verification, which was the aim of the authors of the present paper. In this, the authors directed their attention also upon the fact that by the action of pressure, the properties of the crystals may undergo an essential change. Al and Zn monocrystals were grown from a melt. The melt Card 1/3  84659 Growth of Metal Monocrystals Under High S/020/60/135/001/011/030 Hydrostatic Pressure B006/BO56 was In a conical graphite container, which was especially well suited, because in it (in the furnace) a temperature gradient of 7 - 10 deg/mm could be well produced. Cooling of the melt was effected by lowering the electric power applied to the furnace. This was arranged in such a manner that the front of the crystallization temperature moved with 0.5 - 0.7 mm/min (at 10,000 atm), by which the rate of crystal growth was determined. First, monucrystals were grown in a vacuum and nitrogen- and argon media (normal pressure), the method being studied and the operation of the furnace watched. These crystals were produced at 0.3 kw (Zn) and 0.8 kw (Al) respectively during a time of 100 and 150 min, respectively. It was found that the electric power used had to be increased approximate- ly linearly with pressure and amounts to 10,000 atm (N 2 or Ar) 1.8 and 3.0 kw, respectively. Under these conditions, the time of growth of a Zn monocrystal is 280 min, and for Al monocrystal 450 min. The experiments were carried out under constant and also notvariable pressure. The authors assume that the crystals grown under variable pressure contain less gas than those grown under constant pressure. Growing under constant pressure required a special compensation of the temperature-dependent pressure change; the deviations from the constant pressure value were about +50 atm. Card 213  84659 Growth of Metal Monocrystals Under High S/020/60/135/001/011/030 Hydrostatic Pressure BOO6/BO56 The crystal structure was subjected to X-ray examination; the results obtained by these examinations are intended to be published in a later paper. There are 2 figures and 20 references: 12 Soviet, 2 German, 4 USt and 2 British. ASSOCIATION: SUBMITTED: Institut fiziki (Institute of Physics of Sciences USSR July 7, 196o vysokikh davleniy Akademii nauk SSSR of High Pressures of the Acade, Card 3/3  S/120/61/000/002/041/042 9113/9135 AUTHORSs Stapanov, V.A., and VereshchaSin, L.F. TITLF,i High temperature resistance heater with graphite spiral heating element for high pressure vessels PERIODICALs Pribory i takhniko skoperinenta, 1961, No.2, pp.194-195 TEXTt The design of the heater for heating the inside of vessels containing high pressure gas is shown in Fig.l. The heating *lament in a spiral (3), turned from a Sraphito rod together with robust and piece*. To increase the electrical contact area threads are cut in the and pieces on which the stainless stool contacts I and 10 are Acrewod. The heating element is surrounded by graphite tube (4) which in electrically insula ted from the spiral by a pyrophyllite bush (6), put on the cylindrical neck of the intruding and piece. On each end the bush is fixed to the heating element by three porcelain pins (7), so that there is no relative movement between the spiral and the end pieces. The pins are in the relatively large uncut parts of the end pieces. The and pieces have small ohmic resistance and are placed sufficiently far away from the spiral so that the pins cannot Card 1/ 4  S/120/61/000/002/041/042 High temperature resistance heater.. E113/EI35 overheat. Around the graphite tube (4), five coiled molybdenum sheet shields, each 0.2 mm thick, art fitted concentrically. The shields are spaced with gaps of 0.1 ma between then, which are maintained by means of two rows of pointed projections along the edges of the shields. The shields are hold together by toothed rings; these create a gap of 2 mm between the inner wall of cover and the outer shield allowing only point contact at the teeth for heat conduction. Into this gap fireproof material in powder form is poured for additional heat insulation (for instance MgO). This gap and the annuli between the shields are closed with pyrophyllite washers (2) and (9). The length of the assembled heater in 120 mm, diameter 30 an, corresponding to the diameter of the operating pipe of the high pressure, vessel. The heater can be easily withdrawn and placed into the high pressure vessel by means of a rod screwed on the threaded part of contact Cl)(Fig.l). Contact (10) sits on the "finger" of the lead which in placed in the middle of the cover closing the high pressure vessel. The other end of the spiral in connected to the wall of the pipe by means of contact (1) and in this way the electrical circuit in closed through the body of the vessel. The maximum working Card 2/4  S/12o/61/000/002/o4l/042 High temperature resistance heater..EI13/EI35 temperature of the heater depends on the material used. Graphite has been chosen an it has the best properties for this application. A heater of given dimensions gave a temperature rise up to 2200 OC at 15 katm. pressure,,with a power consumption of 2.8 kW to 3 kW- The effectiveness of the Ipresent method of heat insulation has been tested experimentally (in Ar, NZ and C02 atmospheres), and it tI was found that at 2200 OC inside the heater and at 15 katm. after one hour of continuous operation, at a point in the wall of th-e high pressure vessel 15 mm from its inner wall, the temperature was 170 OC. The heater withstood satisfactorily several cycles of applying and relieving the pressure. Acknowledgements are expressed to I.Ye. Surkov and V.A. Frolov who assisted in the construction of the heater. (This is an abridged translation). Th(~re are 2 figures and 4 references: 3 Soviet and 1 English. ASSOCIATIONs Institut fiziki bysokikh davleniy AN SSSR (Institute of High Pressure Physics, AS USSR) SUBINUTTED: January 29, 1960 Card-3/4  277-19 OS, -~405 5/12o/6i/000/003/032/041 w0 9073/Z535 AUTHOR: Stepanov TITLE., Unbroken thermocouple connection lead from a high pressure vessel PERIODICAL: Pribory i tekhnika eksperimenta, 1961, No-3, P-179 TEXT: The illustration show* a lead for tungsten and chromel-alumel thermocouples fitted into vessels containing gas (Ar IIN2 and CO2) at pressures up to 15 katm. The bushing 2 has a ho e which in 0.01 to 0.02 mm larger than the diameter of the wire going through it. The conical insulating material 3 is machined from pyrophillite. either in the raw state or annealed to 3oo-4oooc, L.&&e wall thiLckness being 0.3 to 0.5 mm. The insulating material also serves an a seal between the bushing and the body on which it is fitted.By hitting with a hammer the cowl JL through a drift, which has a slot for the conductor, the wire in the nipple is compressed and the entire assembly is reliably sealed. The thus assembled electric connection will fit perfectly without any further fixing operations. The bottom cone has a-i angle of 180 and the top cone an angle of 100. The cowl is maea Card 1/3  27719 Unbroken thermocouple connection ... S/12o/61/000/003/032/o4i Z073/Z535 of' steel LfOX (40Kh) quenched to a hardness of 38-40 Rc. The seal of the electric lead is based on the principle of uncompensated surfaces. The resistance of the wire against being squeezed out 1'rum the bushing in generated by the friction along the wall of the hole which, according to Bridgman, increases exponentially with the length of the hole. The relative length of the hole in the bushing is comparatively large and amounts to 40 diameters of the thermocouple wire. This electric connection operates reliably at elevated temperatures (fusion temperature of pyrophillite at normal pressure is about 1500%). A connection fitted on the obturator was able to withstand 20 cycles without needing any repair. The described connection was built and assembled by 1. Ye. Surkov and V. A. Orolov. There are 1 figure and 9 references: 7 Soviet and 2 non-Soviet. The Znglish-language references read as follows: L. Patrick, Phys. Rev., 1954, 93, No.2, 178; F. 1. Edeskuty, R. H. Chrisman, Rev. Scient. Instrum., 1958, 29, No.2, 178. [Abstractor's Note: Slightly abridged translation) ASSOCIATIONt Institut fiziki vysokikh davleniy AN SSSR Card 2/3 (Institute of High Pressure Physics AS USSR)  4 0 27721 S/120/61/000/003/035/041 E073/2335 AUTHORS: Preobrazhenskiy, A.Ya-. and Stepanov, V.A. TITLE: Graphite Crucible-furnace for Growing Single Crystals PERIODICAL: Pribory i tekhnika eksperimenta, 1961, No- 3, PP. 187 - 188 TEXT: From the point of view of production of crystals with properties approaching those predicted by the solid- state theory, it is interesting to investigate the influence of high hydrostatic pre3sure on the growth and properties of single crystals* A description is given of a furnace for growing single crystals, which was tested at normal pressure and in vaccum and is intended for plaFing into a high-pressure vessel. A sketch of the furnace is shown in Fig. I (I - contact ring made of Steel 3; 2 - contact ring made of graphite; 3 - contact lead made of copper; 4, 5 - screw and washer made of Steel 3; 6 - screen made of graphite; 7 - heating element made of graphite; 8 - bushing made of pyrophilit The heating element is machined from a solid graphitetlock Card 1/~  Graphite Crucible-furnace .... to a configuration as shown in Fig. required temperature gradient of The central conical part of the b)dy is the hot part and serves as the single crystals. By changing the of the heating element, it is possible of the electric resistance and thD thus obtaining the required tempe7ature furnace. The massive head of the electrical contacts. The power slapply between the limits of 0.3 to 1-5 IN conditions required for growing s:.ngle input can be inc-eased to 3 to 4 IN dimensions of tb,a furnace. A co&:ial 27721 S/120/61/000/003/035/o4i E073/E335 2, which ensures the :he furnace during operation. of the heating element ingot mould for producing the dimensions of the middle part to change the distribution temperature of the furnace, distribution in the heater is slotted to receive to the furnace is varied to ensure the temperature crystals. The power without changing the aranhIte scrapn rax+iincr on a pyrophilite :'.naulating buding, located at the base of the heating element, .-'.s used for thermal sulation of the furnace. The screen is fix(I at the top by mea,.*,of a graphite nut, -110 which is screwed-cA to the top of the ting element. The space between the beating element and t graphite screen ms qA' filled with magnes*.,mn oxide, which serves'4s thermal and Card 2/5  .2772 S/12o/ft/000~ 003/035/041 Graphite Crucible-furnace *see 9073/E335 electrical insulation. Due to the conical shape of the heating element the thickness of the MgO layer is variable and averages 2.5 mm. Due to this thermal insulation the temperature of the vexternal wall of the screen does not excbed 250 OC, even at the hottest section of the furnace (point B). The furnace is simple to produce and reliable in operation. The same graphite mould can be used for repeated growing of single crystals. The first sign of damage to the internal walls of the mould is the appearance of black stripes on the surfaces of the specimens. The internal wall of the mould must be cavefully vubbed (smoothed) to eliminate damage. During the experiments the furnace in placed2under the bell of a vacuum system, where a vacuum of about 10 mm Hg is produced or inert gas (Ar or N2) is fed in. The temperature difference between the coldest (A) and the hottest (B) points of the mould exceeds 300 0C before crystallization starts. Cooling of the melt In the ingot mould is achieved by reducing the electric current fed to the mould. The furnace has been used for growing crystals of Zn, Al and Cu and a yield of single Card 3/5  27721 S/120/61/000/003/035/041 Graphite Crucible-furnace 9073/E335 crystals of up to 90% can be obtained. Acknowledgments are expressed to L.F. Vereshchagin for his advice and interest and to I.Ye. Surkov and V.A. Frolov for their assistance in producing the furnace described here. There are 2 figures and 5 Soviet references. ASSOCIATION: SUBMITTED: Institut fiziki vysokikh davleniy AN SSSR (Institute of High-pressure Physics of the AS USSR) July 9, 1960 Card 4/5  33357 S/16 62/004/001/030/052 S1 B104XB102 AUTHORS: Kurov, I. Ye., and Stepanov, V. A. TITLE: Longevity of metals in torsion PERIODICAL: Fizika tverdogo tela, v. 4, no. 1, 1962, 191 - 201 TEXT: The strain effect on the temperature - time characteristics of longevity was studied by torsion tests of Al, Zn, and Cu. The test length of the cylindrical specimens was 12 ms, the diameter was 6 mm. The radius at the junction to the tips of the specimens was 40 mm. Complementary torsion tests were made with specimens having a diameter of 6 mm and a test length of 30 mm. From the experimental results the formula 'r - Z I e xp (-oktm..) exp [(u0 i - ~. . d &r 0 rmax)*9 wh*ro 'e6f P (1 % &P 1 7 21"Sr's' constants depending on temperature and stress, is obtained for the time elapsing until the specimen breaks at constant stress. t max is the maximum tangential stress. This formula differs from that derived by S. N. Zhurkov and T. P. Sanfirova (DAN SSSR, 101, 2, 237, 1955; Vestn. AN SSSR; .1-1, 1957; FTT, 2, 10339 1960) in the dependence of V1 on stress Card 112 0(  3357 . S/181 62/004/001/030/052 Longevity of metals in torsion B104 B102 and temperature. The activation energy of the destruction process caused by torsion is approximately half the sublimation energy determining the potential barrier of the destruction process caused by tensile stress. Hence the absolute longevities of a certain metal at equal normal stresses may differ by some orders of magnitude when determined by torsion or tension tests. The universality of the Jonson number is doubted. The differences in longevity are explained by the different macroscopic nature of the destruction. There are 9 figures, 2 tables, and 18 refer- ences, 14 Soviet and 4 non-Soviet. The four references to English- language publications read as follows: C. Gurney, Z. Borysowski, Proc. Phys, Soo,, 61, 5, 446, 1948; L. F. Kooistra, R. U. Blaser, J. T. Tucker. Trans. ASME, 1A, 7839 1952; A. E. Jonson, N. E. Frost. Engineer, i2_11 4967, 434, 10,51; A. E. Jonson, J. Henderson, V. D. Mathur. Engineerp 102, 5248, 261, 299, 1959. ASSOCIATION: Fiziko-tekhnicheskiy institut im. A. F. Ioffe AN SSSR Leningrad (Physicotechnical Institute imeni A. P. Ioffe AS USSR, Leningrad) SUBMITTED: July 26, 1961 Card 2/2 ty  IVANOV, N.P.; IAGUNOV, V.A.; STEPANOV, VA. Compression strength of plastics at high rates of strain. Plast, massy no,8:4%-53 163. (MIRA 16:8) (Plastics-Testing)  PREOBRAZIIENSKIY, A.Ya.; STEPANOV, V.A. Chemical saw and drill. Prib. i tekh. eksp. 8 no.4tl92-193 Jl-Ag 163. (MMA 16:12) 1. Institut vysokikh davleniy AN SSSR.  y t tM IhA 1 1. Fizlko--tekhni,.-heskly inatitut imeni J,,.ff- W;  Card L 61628_6~ !1iT(d)/_E1;D-2/E;WP(l) Pq_4/Pg_4/rir.-4 ijp(c) BB/GG/GS ACCESSION NR: AT5014714 UR/0000/65/0001000/0082/0090 AUTHOR: Alekseyev, V. H.; Damaskinskaya, N, Ya.; Stepanov, V,_A., TITLE: Ferrite core memory device using ferrite pairs with full current record- ing and reading SOURCE: Operativnyye i postoyannyye zapominayushchiye ustroyetva (Rapid and non. volatile storage); sbornik statey. Leningrad, Izd-vo Energiya# 1965, 82-90 TOPIC TAGS: ferrite pair memory, full current recording, full current reading, ferrite core memory ABSTRAM A memory is described in which the recording and reading of informa- tion is carried out by currents whose limit of variation is unbounAed from above. This was achieved by the use of two coupled, toroidal, ferrite cares for. the registration of a single binary unit of information& One of the cores-serves for the actual storagetof infoilwation, while the second serves for the recording' and reading of the basic core and plays an auxiliary role, In the operative memory developed at the department of automation and telemechanics of the LPT im. M. I. Kalinina, the cores are coupled by a single turn of copper wire. The' 1/2  L .61628-65 ACCESSION NR: ATS014714 length and diameter of the wire determin the magnitude of the ac,,:Lve resis- tance. The article describes In detail ease operation of the unit,, develops the necessary theoretical expressionst and presents data from experimental tests on the quality of operation of ouch ferifte, pairs* Orige art. has: 17 fornslas and 5 figures. ASSOCTATMU: LPI is. M. 1. K&HUIVA SUBMTTRD: 2WAn65 am: 00 w3 COOS: Bp OT 000 RD RN SM: 000 Card M2  L 56651-65 11(bb)-2/ F5-WN'T ( c F-'c-VP-f-4/Ps-4 J DAh~lffv ACCESSION NR: AP5011898 UR/0120/65/000/OOZ/0199/0199 539-893 AUTHOR; Preobrazhens~-IL.. ~-ya.; SteRan&4-X,..A. TITLE: Valve for 20-katm pressure gas SOURCE: Pribory i tekhnika eksperimenta, no. 2, 1965, 199 TOPIC TAGS: high pressure ~Ke- 2 ABSTRACT: An improved design (sketch supplied) of an old Soviet 6-katrn needle valve which now withstands a wor'.King pressure of 10 katm and a closed -position needle pressure of 20 katm, to briefly described. A hydraulic actuator 011 at 1. 5- katm pressure) operates the needle. It is hoped that the improved valve would operate at pressures as high as 12-13 katm. Orig. art. has: I figure. ASSOCIATION: InBtitut fizikivysokikh davleniy AN SSSR (institute of M-01- Pressure Physics, AN SSSR) SUBMITTED, 19Feb64 ENCL: 00 SUB CODE: IE ;NO REF SOY: 00 1 OTHER, 001  L 56650-65 E,%(I(j )/L,-14T(.L)/EWP(e)/LWT(m)/EPF(c)/E'~JP(i)/It~iA(d)/EPR/T/EWP(t)/ EEC-(b)--2/E4P(k)/EWP(b)/F,WA(c) Pf-4/Pr,.-4/F4-4/Pi-4 Ii P~ c) JDAWAIWAIql-ii ACCESSION NR: APS011897 UR/b 120/65/000/00210196/01,-)8 539-893:548-55 AUTHOR., Preobrazhenskiy, A. Ya.il Stepanovi Ve As S TITLE: q_Ky!~tal growing in high-pressure as SOURCE: Pribory i tekhnika eksperimenia, no. Z. 1965, 196-198 TOPIC TAGS: crystal, crystal growing ABSTRACT: An outfit for crystal growing at high graseurp4 was developed for studying the effect of pressure on crystal lattice. Single crystals of Zn, Al, Cu were grown at 10 katm. The outfit can also be used for growing CdS, ZnS, PbS, and other crystals having high vapor pressure at melt temperature. Argon or nitrogen, via a filter, is fed to a compressor and then, via another filter, to a 9plied) 30 mm, diameter, 140 mm height high-pressure chamber (design sketch au which includes a special imraghlte-heateeelectric furnace. Some details are given# .and processihg to described. "The authors wish to thank L. F. Vereshchagin for :his valuable, advice and interest In the work. Orig. art. 9-as: 3 figurees, -'Card 1/2  L 56650-65 'ACCESSION NR: Apsoil897 1ASSOCIATION; Institut fiziki vysoldkh daylenly AN SSSR !Pressure Physics, AN SSSR) I SUBMITTED: 19Feb64 ENCL: 00 SUB CODE: NO REF SOVt oo6 OTHER: 00 1 card__L2  L 35526-65_ EViT(l )/EPA (s)-2/E PF (n)-2/E PH/T-2/E ~A(b~,)-2 Vs-4 ACCESSION NR! AF5008184 S/0286/65/000/(X'5/0060/0060 AU-IHORSI Ma:rtinson ~ .N.; ~L~cktv vg Vo As B. piglmimnc: TITLE: Working liquid for vacuum PUMPS2- Class 27o No. 168840 SOURCE: Byulleten' izobreteniy i tovarnykh znakovp no.6 5. 1965, 60 TOPIC TAGSi vacuum pump.,.coolant, lWdrocarbonj aryohydrate ABSTRACT: This Author Certificate presents the application of cryohydrates as working liquids for vacuum pumps (au-.h as mechanical or steam-jet pw,w) for the purpose of providing hydrocarbon-free evacuation. ASSOCIATIONt none SUBMITTED: 13Nov63 NO REF SOVj 000 ENCL: 00 SU13 CODE: OTHM: 000 Card 1A 77777777.   L 16793-66 FdT(d)/EW?(1) IJP(c) BB/GG ACC NR: AT6005082 SOURCE CODE: UR/2563/65/000/256/0129/0133 AUTHOR: DamaskinskMa, N. Ya.; Nosyrev, 1. K ;Ste 9anov V. A. ?RG: TITLE: Optimum choice of parameters of the operative memory using ferrite pairs SOURCE: Leningrad. Politekhniclieskly Institut. rudy, no. 256, 1965. Tsifrovyye izmeritell nyye I upravlyayushchiye ustroystva (Digital measuring and control devices), 129-133 TOPIC tAGS: ferrite core memory, computer memory ABSTRACT: The operative memory made of ferrite core pairs can operate reliably without temperature controls. The Introduction and retrieval of Information are carried out by current pulses the amplitude of which is not limited from above, and this results in a temperature independent operation. The principles of operations of ferrite pair units is discussed on a matrix example shown in Fig. 1. The ferrite pair memorizes a single binary unit. The article presents all the pertinent relations and quotes theoretical results which Indicate that normalized ferrite core pairs should secure reliable memory Card 1/3  L 16793-66 ACC NR.- AT6005082 1 class 2 class output 4 output, Fig. 1. Operative memory matrix made of zero reset ferrite pairs. 1 address R add additional entry-4 Inverted code -P outpup zero reset 2 address add Card 2/3  ~rfful L 16793-66 ACC NR: AT6005082 operation within the -60 to +60C range. The retrieval time is of the order of 10 p sec for cycling current pulses not exceeding 1. 5 A. Orig. art. has: 9 formulas and 1 figure. SUB CODE: 09 SUBM DATE: none Card 3/3 ,5 jr)  L 26625-66 EWT(m)/EWPQ)/T/ETC(n)--6 IJP(c) WW/RM ACC NR: AP5025373 SOURCE CODEt UR/0181/65/007/010/2962/2968 AUTHOR: ~~eschsnskaya,'N. N. Stepanov, V. A. 45 ORG: Physico-technical Institute im. A. F. loffe, AN SSSR, Leningradl ~Fiziko- tekhnicheskiy inatitut AN SSSR) TITLE: Strength and deformation ~f polymers at--low temperatures SOURCE: Fizika tverdogo tela, v. 7, no. 10, 1965, 2962-2968 TOPIC TAYS: polymer, material deformation. cryogenic effect ABSTRAM"'Ve properties of solid polymers, e.g.# strength and deformabilLtyp were investigated during constant velocity stress (stress changing in the process of examination). The question to examined of temperature variation of. strength and deformation, accumulated at yield point under the influence bf constants at times of stress. Experiments were conducted on non-oriented linoar polymers below vitrification temperatures.- Dqring investigations of polymethylmethacrylateland a number of polyvinylacetalaQ it was established that there are severallcharacteristic temperatures duriqg-which the con jstants Card 1/2   ~'-ACC NRa AP6030162 SOURCE CODE: UR/0120/66/000/004/0217/0218 :AUTHOR: Preobrazhenskiy, A. Ya.; Stepanov, V. A. 1ORG: Institute of Physics of High Pressures, AN SSSR, Moscow (Institut fiziki vyso- I ikikh davleniy AN SSSR) ;TITLE: Combined lead of large cross section for feeding electrical energy and Sasso !into high pressure vessels iSOURCE: Pribory i tekhnika eksperimenta, no. 4, 1966, 217-216 ITOPIC TAGS: high pressure chamber, high temperature instrument, electric power transmission ABSTRACT: Two engineering drawings for combined leads used to feed electrical energy and gases into high pressure vessels are resented and discussed. The leads have a large cross section (approximately 500 mm3) and were tested at a pressure of approxi- imately 15 kilobar and a temperature of approximately 25000C inside the high pressure ivessel. The combined lead incorporates a tbemocouple and is insulated from the high pressure vessel case by means of pyrophylite packing, by a thin layer Of Fe203 paste iapplied to the threaded connection and by an additional conic packing. Up to 8 in- Idependent wire leads can be used. An insulated nut is used to produce the initial pressure in the packing. Cooling liquid may be used in the lead to program the pro- Card 1/2 UDC: 539.89 I  ACC NR: AP6030162 I Iper growth of crystals inside the high pressure vessel and to maintain a constant lead temperature as the density of the electrical current passing through the lead is varied. Other combinations of the basic elements described in the article have been used experimentally for a variety of applications. Orig. art, has: 2 fiswes. ~ SUB CODE: 20,14,09/ SUBM DATEs 05Aug65/ ORIG REF: 009/ OTH REF: 005  STEPA310VO V*A. EStepanov, V.0.1 Field studies on the motion of a vessel at supercritical speeds in a canal. Dop.AN UM no.9:1180-1184 16o. (MIRA 13:10) 1. Institut gidrologil i gidrotekhniki AN USSR. Pfedstavleno- akademikom AN USSR G.I.Sukhomelom. (Ship resistance)  PAVLENKO, Georgiy Yevstaf Iyevich;.-MAOVv Viktor Alekseyevich; DUDCONKO, Oleg Grigurlyevich; -IkZ4-A-P;---KATnTCHUK, A.I., tekbn. red. [Determining ship elements for propulsion on canals at superckitical speeds] Opredelenie elementov sudov dlia. dvizbeniii na. kanalakh so sverkhkritichookimi skorostiami. Kievv Izd-vo Akad. nauk USSR9 1961. 28 p. i (MIRA 14:8) (Inlav# naviptlon) (Ship propulsion) * 1;  sIr-21TOll~ V.11t. (z;tepallov... V-0 I (Idycv) Dete-naining, critical apeads for the motion of a zhip in a canaf. Frykl.mokh. 7 no.4:432-441 161. (MIRA 14: 91) 1. IiLotitut gidi-ologii i gidrotekhniki All USSR. (Irlarid, rlavigatic,11)  STEPAVOVO V.A. [Stepanov, VoOe) Making use of irrigation canals for transportation purposes. Vioti-., Inst, hidrol. i hidro AN URSR 19:91-98 #61. (KIRA 15:7) (Irrigation canals and f1mem) (Inland water transportation)  p-, STEPAIIOV,, V.-'.. (stapanov, V.,*.] I Small test basin of the Institute of Rydrologjr and Hydraulic Xngineering in the Academy of Sciences of the Mcrainian SeS.R., Visti Inst. hidrol. I hidr. AN URSR 19:99-302 162. (MIRA 15:7) (Ukrdne--Ship models-Testing)  STEPANOV, V.A. (Stepanov, V.0.] (Kiyev); STEPANYUK, V.V. (Kiyev) Determining minim- speed for supercritical conditions of ship movement in canals. Prykl.mekh. 8 no.5:534-540 162. (MIRA 15:9) 1. Inatitut gidrologii i gidrotekhniki AN UkrSSR, (Canals) (Inland navigation)  I I" - PANCHINKOV, A.N. ~Naj~-henkov, A.A. (r;yey), I'- ~'ANOVP V.A. [Stepanc--I, V.,).] (Klyev) Cal,jil",~tti,ng J,c)a~.j uleng the submerged hydra on A f spwi. I yl. mekh. 10 (MIRA 17r7) 1. Ins, "; t..- ~ raekhnxi ik.1 AN  STEPANOV, V.A. [Stepanov, V.0.1 Interaction of oblique waves with the canal walls and the hull of a ship moving at a supercritical speed. Vi 11 ti Inst. h1drol. i hidr. AN URSR 22s86-101 163. (MIRA 18t11)  L 14164-66 EWPkj)/E'.-1TW/ETGW-6/T Id4lIeN ACC NR- AP6603937 SOURCE CODE--: - ----- 6 i_/ _0j77 -4/ 6 5 / d 6 676-6-~-/ 6o- Y47_0 0 3 8 AUTHOR: Ivanov. N. P. (Leningrad); Stepanov. V. A. (Leningrad) ORG: none TITLE: Measuring the strengt of plastics by high speed compressLon SOURCE: Mekhanika. polimerov, no. 5, 1965, 34-38 TOPIC TAGS: he *1 SaNx, reinforced plastic, dynamic stress,-Wow- .algM=t, high speed photography~.AU41t-,, UV4,~~f~_ 7 , 15M. 15 ABSTRAdT; The strength of two reinforced plastiesi and of two pure resins at temperatures from minus 19 to plus 150C was determined by high speed photography, The strength of plastics at an elevated tem- perature was sensitive. The difference in the static and dynamic properties at minus 196C was insignificant. Authors thank N. G. Maza- -yevy senior laboratory technician, for his great help in carrying out the tests. OrLg. art. has: 5 figures. [Based on author's abstract). SUB CODE: 1l/ SUBM DATE: 24M&y65/ ORIG REF: 007 Card I / 1 -it UDC: 678:539.4.019  14 .5. r,per~itjrjrL, maintenance and repatt-I lclezii~.' t.;~.elilno- 2124  STEPANOV, v.A., J11zh. (Loningi-nd) Repair and preparation of cars for express trains. Zhel.dor.transp. 46 no.12:71-73 D t64. (MIRA lgsl) 1. Zamestitell nachallnika vagonnogo depo stantsii Leningrad- Moskovskly-Passazhirskiy Oktyabrlskoy zheleznoy dorogi.  25817 C? S/l42/6O/OO3/oo6/oO7/Oi6 C E033/E135 AUTHORS: Gubernatorov, 0.1., and Stepanov, V.B. TITLEt Experimental investigation of the frequency-locking process in the reflection klystron PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Radiotekhnika, 196o, Vol-3, No.6, pp. 605-612 TEXT: The results of an experimental investigation into the operation of a reflection klystron synchronised by an external e.m.f. having a frequency near to the self-oscillation frequency of the klystron are given. The synchronisation bandwidth and the optimum electrode voltages for synchronisation are determined. Data on the time to establish the phaseof the synchronised oscillations are produced. From theoretical considerations, it is deduced thatt 1) the synchronisation process is fundamentally analogous to the synchronisation process in LC oscillators; 2) the time to establish the phase of the oscillation and the synchronisation bandwidth are determined not only by the ratio of the amplitudes of the induced and free oscillations, but also by the operational conditions of the klystron, Card 1/3  25817 Experimental Investigation of the ... S/142/60/003/006/007/Oi6 E033/E135 3) the synchronization bandwidth in a Btatisti--al time function, depending on the values and stability of the electrode voltages, the smoothness cf the supply voltage, the constancy of the ambient temperature and the constancy of the load impedance value. The aimsof the experiment wer,s. 1) to find how the synchronisation bandwidth depends on the power induced In the resonator of the synchronised klystronj 2) to evaluate the probability of synchronisation within the band for a given level of external e.m.f. and a specific supply stabilityT 3) to determine the optimum operational regime of a synchronised oscillator In different oscillation zones; 4) to determine the time of establishment of the phaseof the synchronized oscillations. Two types of 3 cm wavelength reflection klystrons were investigated. The experimental details are described, It was found thatj 1) the variation in frequency conformed to the normal distribution law; 2) the stability of the reflector voltage was the most important factor affecting the instability of the oscillations; 3) the power level of the synchronized oscillations was determined by the stability of the free oscillation frequency; 4) to ensure frequency synchronisation, the ratio of the power of the free and Card 2/3  258 L7 Experimental investigation of the S/142/60/003/oo6/007/016 E033/E1135 induced oscillations must be in the limits (102 - lo3) for relative instability of the frequency of the oscillations of the klystron not worse than lo--3, e) the minimum power of the synchron.ised signal is determined by the cons7ant voltage on the resonator and by the number of the oscillation zonel 6) there is a value of resonator voltage which is optimum relative to the power, and for the investigated klystrons this value was between 280 and 300 voltz) 7) the time of establishment of the phase reduces with increasing power of the induced os:illattons and tends to a zonstant value, equal to 1.5 - 2 mi!~rose:,onds. This time ex--eeds the time of establishment of amplitud!~L (0.07 - 0.1 microse--onds) by an order of magnitule, 8) the time of establishment of the phase for constan power depends on the resonator and refle-.-cT voltages. There are 8 fl&.ires an.1 7 Soviet references. ASSOCIATIONt Kafedra radicapparatury, Khar-kovskogo politekhniches- kogo instituta im. V.I. Lenina (Department of Radio Apparatus of the Khar-ko7 Polyte:hni,-al Institute imeni V. I. Lenin) SUBMITTEDi September 21 1959, and after re-,-ision, March 25 1960. Card 3/3  GUL'IVIAMEDOV, Kh,; ~TEPANW, Y.6 - Total number of meteors according to observations made in Ashkhabad. Izv. AN Turk. SSR. Ser. fiz.-ti-kh., khim. i geol.nauk no.5.-129 161. (MIRA 14:11) 1. Fiziko-tekhnicheskiy institut AN Turkmenskoy SSR. (meteors)  GULOMOVAI A,,A.; -- ST-EPANOV, V~B. R,--sult's of photographic observationi5 of the Persaid metcor stream in Ashkhabad: Auguet 1961,, Izv. AN"TL-1k. SSR. Se~-. fiz.-tekh.:, khIm. i geol. nauk no.6.122 "j.L. (14IRA 35,,,3) ~, Fizikc,- takhniLheskiy instIltut AN 'Turkmenekoy SSR. kmetaorap:  KARZHAVIN, Yu*A.; GHUVILO, I.V.; KIRILOV, S.S.; INKIN, V.D.; GOLUTVIN, I.A.; NEUSTROYEV, V.D.; S-Tp7PANOV, V.D.; TULAUV, B.F.; KOLESOV, I.V.; AWZOV, V.Ya.; P:iOKOFIYFV, Yu.P.; SHINAGL, I. Device for automatic measurement of the coordinates of ebarged particle tracks recorded on bubble chamber photographs. Prib. I tekh. eksp. 8 no-5:54-6o s-o 163. (MIM 16:12) 1. Obl'yedinennyy institat yadernykh issledovaniy.  V4 inilc - r, cattc r.,.-. 1so ar ~.,-nct to r s Ir om the na L, or 7-- Jeope, scattc.,. -Ml cz os cc p c- jra ~;,=sor based oz tha diff--- IM'f un, a da*a-D:,occs;;- coz;rol, :ui-z -,a vt*ta a rta-, - caa e nz z. reversible counz,~r, n-:1 Z. lkeyboal-d &-'0r addi.  --unctional _S permi-L ~,mes cuicker -a processing. Th,! iaLitrurne:,i~ n- '962; -ts output agrecs with ;he aw~ation, since March, - outnut to within "-he authors wii;,-, to thank V. C~Uv- -oz hi m-mer Ec by him during the o-' ts ~d c ~n nt!; rrz- I gures. ya_..;rny*kh iasladovaniy (join7; I 4,Mar, 3 DATZAC_-- ENCL: 3 1 0 COD_'~--. INS NIO A= S27.-_,!V: 002 OTHER: 001  STIPANOV.V.F.. inthener Water cooling of journal bearings of a cesent still. TSment 21 no.5:25 S-0 155. (KLIA 9: 1) (Cesent In&strios)  pp a &I u u a are a :1 Q w is w 0 0 ajda ISHMA'all LIU ids au x r 9 4 1 1'. AA 0 V. 99 Kim .1 1 1 b .1 6 V= fawr" Of XUPdM MOM MG& im RUNWO In IM A. D. ftnav~ .0.1 URANOW. j . 0. BAVBL*SV MW M. V. I&ONSM. puU. pid W prsk"j" jt"Mis wil 21-31(n"ik- caftaft fteds Wtft fumism" with vwyiag qmatkws i Rik d THIMM-'ab-bed by Y-io- Wuol tht wed w~umew&d. a" -60 k- -re iuveaipted. RIMS. we dtimeribed in &W. 00 0 too Zoo 00 1"oo 0o go* -00 Fir 00 00 !!pOl .10 04. Q-t basil ad *~i -411, loo p q . -a- I - -V *w 0 1, 4-0; _ge; lop 0p 0 000 0 0 0 0 0 a 0 60 0 go  -D T- C":- p 0) t~ k, ~ V , V i-- (-, /I '. t,.Sp .rate$; ow lir" orw A .W.7". .31. 94 . , ~  STEPANTOV_, V. 1". "Serosol Machines," a section of the book, Aerosols, Their Application by A. M. Nikiforov, Moscow, 1954. SO: U-3,054,664  IUNOVA. Z. : STUANOV, V.; SOSICDOVp N.; PWWN, I. Using AG-T-6 aerosol generators for the fumigation of eqpty grain storages. Muk.-elav.prou. 25 no.6!27-28 Jo 159. (MIDA 12:9) 1. Monk-ovsl*a stant"tya Tsesoyusnogo institute, sashchity rastonly (for Ivannva, Stopanow). 2. TnesoruxrW nauchno-Inslodoratel8skly Inatttut serna I produk-tov yoggo p#9rnrabotkl (for Sonodov, Freywan). (11bMigntlon) (Granarles)  YEROSHXNKO, T.; MULINOV, A.; STTKAITOV, V. At the Gullkevichl Corn Processing Plant. Muk.-elev. prow. 25 n0.8:8-9 Ag 159- (MIRA 12:1) 1. Gullkavicheskly sayod po obrabotke gibridT%vkh i sortovykh semyon kuktirusy. (Gullkavichi-Corn(Maise))  STEFANOV, V.1'...dotsent; ZFUCHKOV, A.P., starshiy prepodavatel' Vibratory dryer. Izv.vys.ucheb.zav.; mashinastr. no.8:52-55 '61. (YJRA 15:1) 1. Novocherkasskiy yolitekhnicheskiy institut. (Drying apparatus)  STEPANOV -II.F. I I -. --I I Hydraulic coal mining at the Polysaevo-Severnaya mine. Ugol, 39 no.5:49-51 My 164. (MIRA 17:8) 1. Glavnyy inzh. shakhty *Polvsayevskaya-Severnaya".  STKPAITOY, V.G. (stantsi5ra Fletenyy Tashlyk). -Protecting plantations from posts. ftt' i put. khoz. no-5:35 14Y 15 8. (MIRA 13:3) (Forest insects) (Railroads-Snow protection and removal)  ANUCITKIII, U.N., inzhener; BOGOMOWV, S.P., InzhenerLMIT YJL V4G., laureat Stalinskoy premii, The SM-301 press for molst pressing bricks. Mekh.stroi. 11 no-12:32- 34 D '54. (MM 8:1) (Brickmaking machinery)  STIPANOV, V.G. (Btantsiya Pletonyy Tashlyk Odonakoy dorogi) - ~' --- Imorove the quality of hydraulic jacks. Put' i put.khoz. no. 8:42 Ag 158. (HIRA ll:q) (Hydraulic jacks)  STEMOV, V.M. New data on carbonate springs in Transbaikalia. Sov. geol. 4 no.8:113-115 Ag 161. (MRA 16:7) 1. Ministerstvo geologii i okhrany nedr SSSR. (Tranabaikalia--Miner&l waters)  MAKHONIN, V.A.; STF,.r',AN,:)V, V.G. Me*.hod for studying cognition u-ilng nol.eptan-ce hwnpering. Problo pered. infcm. no.15:75-~7fi, 163% (MTRA 17a8)  , :y - i:.ov ~ :li; V.G. , :- A. FLY!:- I ~ I 1 11 cold ro.'I fcrr,-.ilig of 1 ; I ~%, " .; t I , vi~-virtinll,,- kholo,inogo profillr~jvanlia dnv-~:.r.'~-am de~rl ~ ---- f,[IsI14 n. zi p. i " .,. 71 ~ ~'.. _,. F , ;, )  ACC NR, Ai,60365-17o 5GURC& AWMOR: Ginzlmrg, Yoo L,.; Postova, Vo Ae; Stopanov, V~ Go; Shcherbak'3va, Ve It'. O:!G: none TITU I '~, Rocoiv-big and processing norwal and condonsod transrdssions j,"apor presented 1, at tho Conference on Problems of Space Madicino hold in Noucoir frorl 24 to 27 may iq(W. So'JaC.;: Konforontsiya po problor.= kosrLichoskoy moditsiny, 1966. Pro)lorV kosr"'xchoS_j,! koy -xxUts!rq. (Probloms of space rodi.cino); materialy konforontsii, moscoir, 1966, i j 120-1.21 TOPIC TAGS: !;pace comnunications, bloastronautics, space zwdicino, nan nachine vyato~, ABsTrPCT-.Opei*ator working efficiency in a man-machine system depends on the method of presenting information to him. One type of information is the test report (ernergency, informative, preventive, etc. , ) issued by computer. To assure accuracy and speed of reception and processing, it is necessary that reports be as brief as possible. This requirement is necessitated by a search for means of increasing operator reliability as well as by the limited memory volume of a machine. Therefore, finding optimum means for linquistically truncating reports and their subsequent algorithmization is most essential for solving a number of information langu.age problems. Card 1/3- i  ACC PIR: Th e aim of the present study was to find, formulate, arid formalize specifications for truncating command- information 'texts. On the basis .of a preliminary linquistic analysis, the possib lity of exploiting two truncation algorithms was revealed. A check of the perception efficiency of texts truncated by one of these algorithms was conducted in experiments. Normal and truncated texts were presented to a subject on a television screen. E'xposuve duration of the presentation was 3 sec. The subject' s mission was to demonstrate )low accurately and quickly lie could reproduce the prenentud text. A rating of perception and reproduction consisted Of noting tilt-2 ~ICCLIVIICY and duration cirnission acconiplishnient. Five nion participated in the experiments. Several prolonged experiments were conducted oil each of them at various times in the day. Results of the experiments showed that in the majority of cases, truncated text was reproduced more accurately than normal text and with a shorter latent period of completion. An increased latent period of truncated text reproduction occurred in 3310 of the cases and war, attributed to not having used one of the truncation algorithms. - The duration of normal and truncated texts became more stable at the end of the experiment as a result of training. Card 2/3  ACC NR, AT6o36530 Another approach involved the truncation of texts by the subjects themselves. In reproducing truncation of texts, it was noted that the subjects used linquistically significant material assuring the integrity of semantically essential components in the text. The authors analyzed text reproduction errors made by the subjects (omission of individual words, displacement of words in presentations, use of synonyms and antonyms etc. ). It is suggested that i number of errors of the above type would.bave been eliminated by exploiting a second truncation algorithrn. . Besides the above, during the errant reproduction of truncated and normp.1 texts, words functipning as cliches were noted. Their use was characteristic of texts which caused perceptual and memory diffiCulties. The results of the experiment permit hypothesizing that the algorithm under question renects.some.. mechanisms of internal speech. formation. Aw. A. No* 22; ATD Report. 66-3.167 suB corr, o6, 17 sax DATs t - ooma66 Card 3/3  56-2-36/51 AET,01(3: ',itopanov, V. G. , Zakhe cbenko I V. F. Bezel I, V. S. Rotatini-- Plasma (c vrashchayus!,cheysya plazme) PERICT)ICAL: ZInurnal Ekipor~mcntal'noy i leoretid-e3kOY PiZiki, 1958, Ur 2, n- ~~ 1 1) 1(U3 'R A ')'.'"j'T FLA 1,`2: Jtartin~; froi:i ~.jic esjentiz~l ch;--racteristics of fre,2zin- ma- ..etic lin(23 of fos:co in a plasma it is not difficult to draw conclusicrij on the pos~;ibility of i:.ip:~rtinj rot~iting motionj to v. plasma bj -,:,.eans of a rotatin(; .ia,-netic field. In the experimental apparatus of the authors the plasma ,vas stiaulated in a glass flask (380 mm hei~;ht and 60 am dia- meter). ne tantalum anode was in the tiT):,er part of the flask Lind liquid mercury served as cathode. '2h--~ rotatini; ;.la-netic fiald was originated by t,.-to pairs of coils with iron cores -it ri,-Iht a!-,-les to each other. The mean f4-old 3tren,-th in the flask was 325 Orsted. First the followin!, was found: With tile riiagnetic field applied and no discharge present thc rotatin~,~ wheel within the flask remained without motion. Card 1 /3 With d~ocliar-e present and no magnetic field applied the I u  Ro t:t t i n ,111,a j!li Y)/5 1 rotating; wheel also remained motionless. The switc:iin.j on 0, - the rotatinr, .3a,,7rs tic field with diochar,;O preoerit in the flask set the rotatinZ, wheel in motion. With increaoin.- "ressure the riaximum velocity of rotation of the rotatin, wheel was reached ,,iithin shorter periods. A chan,3c of th e direction of magnetic field caused an intensive do,wn of the rotatint-, whool with subsequent acceleration to maxinum speed. In these experiments the current flowinr, t:irou-h the flask was kept constant at 12 A. By meana of otroboscopic measurements the authors could deternim that t'ic velocity of rot!~'tion of the rotatinC wheel. whicli !;ad bOC0130 steady was about 50 revolutions per second, the -,.Ia~;- retic field rotatin,-, -a-it'i about 50 fevolutions per 3econd. results obtained mnt%e it possible to estiniate "-.at force w'dch was exercised by the ionized Gns in the rotat- field on the rotation wheel. Aie nomcnt of frictional forges can be neglected here. A ~;is with -- densi- of about 101f ij in interaction with the rotatin:; wheel; den3ity ij about equal to that of .-,ercury v--pors. C-I.d 211" 5 references, 3 of which are Slavic.  56-2-36/51 Rotatini- Plasma Ij !SSOCIA-1101i: Ural Polytechnical Institute (Ural'skij politekhnicheskiy institut) 31: "..11ITTED: .!ovember 4, 1957 AVAILABLE: Librnry of Con-ress ti 1. Plasma-Motion 2. Kagnetic fieldsAotion Card 3/3  24.?1L_,')C~, 2,11.6720 AUTHORS: S t __e TII'LL; On the lossibility High Concentration J j_,,R11C,1j1CAL Izvest,iya Vysshikh Nr `~, 1)1, 36-36 (US3R) 65706 SOV/139-59-2-5/30 Dezel V. S. of' Producing an Electron ilasma of Using Radioactive Isotopes uchebnykh zavedeniy, Fizika, 1959, A','iSTRACT~ It is well-knoi,~-ri that, as a result of the interaction of ionising radiation emitted by radioactive substances with the atoms of a medium, all the energy of the radiation is lost in exciting and ionising the atonis of the mediums, The specific ionisation depends not only on the ertergy of the ionising particle but also on the type of radiation. a-larticles are the must strongly The ionisat.ion along an electron track is smaller tiian along an a-particle track and the specific ionisation of y-rays is smaller still. 4n order to obtain a Flasnia state, activities up to 10 or more curies per gram of the isotope are necessary. The most suitable isotopes are P-emitting isotopes, such as strontium-90~ yttr.tum-91, ruthenium-l(j6, cerium-104 etc, All these isotopes are by-products of uranium-235. The isoLope Card 1/3 discussed is yttriuni,-91, whose half-life is ul days arid