SCIENTIFIC ABSTRACT ZHIGULEV, V.N. - ZHIGUR, YE.

z I I T~ . I" - ; - -   idp.4 &az :La the ed casej doiji-f a szamfkr~-! `Z, Qrder mber '7119 sult the _thomdYMAC GqUOLtiONO IA, t 4 0488 Of a =all &-'U(L 'at' rlu ;rs' 3-w- w-so ag n ripl 171m Ner " r"', 1 numtvir for. mr, Tr     ~lj~ AA -W WUARM. J.~1.4 AW%&&179 4..&-  ff ffff WR3 I i llitilill 1~ 11-1 If ifill W i I to I T Tall,   aoi. ij- 99 MEN     A U TH Ok 2, ti I g U I e S K TITI-F J- r tie t, 4 1 1 L 1n t, ei C-?, i.' t Iv PLRTODiCAL: 1 nzh e n e r 171 Y Y ZrIU F r. TEXT. In contemporary physical aero Ely aa-, -1!- tz, i arises whether phenomena in which fafst and Filow processen interac,- can be described by self-contained systems of differential equations of motion for a particuiar set of characteristic quantities. This problem AriL;ps acuteiv when 9LudY;,-ig batinaitry layer flows. The Froblem of oi~tai:iir.4 nY-1rO'N'1iifl IC f- ;L,i(IOnt, ir, tile casqE! of gas Motion Witri an "s- ''i'lo, , Mil" .1 ~;,% , I '. 1r. relaxation is considered. It 1K ahown. a I hydrodynamic equations will r t- P 4n-A, I ~1,1 tie t.t.-.t r- differential equations. Asa If_.A V-1 .16 ~r.f phenomena under consideration are governed not only E)y ~i.e Conventional energy equation k.ut 21 seconcl. Pneri-y eq~ikhtiDn ,,,rhXc:i is derived. The lirs% ar,-, ~(t: r,4 hydrodynamic sytiteia of equftLi r- ~tr-t I-jurid. Card 1/2  On the equations of physical ... 5/258/63/001/0C E 19 I./E 1 15 for the first time no limitationa have been imposed on the difference between the temperature of the translationa; degrees of freedom and the temperature of' the oAcillatory quanta. Ln a similar manner, systems of diff*erentiaL OqllatLOnS :an tc- set up for the motion of a dissociated gas, an ionized g&.� anc ott-,er conditions. SUBIMITTLL); December 25, 19b2  'M , -Pi Wl~ -W! L k F14 AUT-Hm. Zia-, Epiev V. N. T=, The probLem of the flow of aon-eqp& Ub iUU a -017 cae rj4v or weexiy., w. i6iMbrim (B), The structural te= for a O~k WaM~~ Cd' t s it- iota li~ eixp~Ui cit form for the rela,,4~tian of o3aLllaatory desrees of freadom. Further the oscillatory relan.-m-tion in case (3) 111 used as the exam:~ale for investigatinE the. problem of dj-, -11ing systems of dil"ereuitial eq,,!--tians L I - from a system of integrall differential equations when the lenj~LL, of tLe free path is smill in co=parison with characteftra-tic length. -L'. is foui~~, tiiat t~,e e-tructural term cam be ootaized in tae form of a smaU with 't.3 t~e or&-fnary shock wave -,41ilch has a .hLcImess of the of the 3f tr-,-nulatilomll degrees of fraedr,,%, i. a., is as3u7---d aql"! tc, Lcr.~. i-'Icre is i ASSOCIATIQU: TsentralInyy aerogidrodJza-micLesidy -Institut im. N. ye. Z'aukovskogo (Central AenZydrodyaumic institute immi N. Ye. Zhukovskiy 9UZ!,'-r'.=- mareja 6j. 1962 Card 1/1 lqr, - 1113 MEMO PIN NAM 4101,131, ~ t MOP, 71 M~j 1 wil, .1 Mwl ff-, . Wall       v Ir6o/n~wl) ACC NRt AP502006 W, Institute, im. as To. Zhukovokiy.~Tsantrallr4y  FwaramoMmmm L 121%-66 IFACC NR, A  .. '1.~ ~;~ I I i i . I 'I I, ". ,l I: " 11 r I iv.: 'I Iff ~hl F , i - I : 1 7  "W (2) SOY/91-59-4-1/28 AUTHOR: Zhigulevap N&,M..Engineer TITLE: The Experience With the Voltage Regulation in Cable Networks (Opyt iaboty'.po,regulirovaniyu napryazheniya v kabellno seti) PFMODICAL: Energetik, 1959P Nr:4P Pp 1 5 (USSR) ABSTRAM The voltage of electric powernaiworks must not exceed f the established upper and lower limits. Fluctuations 0 the voltage are caused: a) by voltage changes at the bus bars of power,distribution centers; b). by changing voltage losses in the power network between thebuses of distributioncenters'and the consumers. Voltage control, is divided into two,phases: a) the voltages required at the buses of power-distribution centers are determined graphically; b) the measures are determined for maintain- inga.e.onstant voltage level by means of the Voltage 'graphs.at the buses, The permissible voltage limits are determined by two extreme consumer voltages havingthe Card 1/2 maximum and minimum' voltage losses. According to the  BOY/91-59-4-1/28 1ho Experiende With the Voltage Regulation in Cable Networks established.voltige drop characteristic, a) operational measures.And b) conatiuational measures are taken. The .~.Operational measures, consist ofbalancing the loads on individual eircuitep switching of cable lines, transformorep capaoitorop etof- ::Constructional measures consist of re- ducin.g voltage losses In transformers~ replacing trans- formerspAnstalling-of static capacitors at industrial installations or voltagecontrol transformers# When planning power linest expected voltage variations may be reduced or eliminated by installing the proper equipment. 'One"of the mosteffective measures for eliminating voltage changes in the low-.voltage network Is the conversion of the network from 120 to 220 volts. There are two sets of graphs. Cara,2/2 ~'4  J'Mal 11 IV, '1 1 , 4 0 0 0 0 0 0 0 0 0 0 0 0 a 6 0 0 1 4 it _q 1.) 4 11 m ty "Minn Bus jlvmjv;u v 2 a m a a v a a 4 a a a a dt* l'a 00 6"i" ow; i 400 TALLUNSICA& LITINATWC CLA WICAMP- A .I ~Lml L l-&nwwz,,n - - stop Milli" w"ifiv lk M /--144011 Ittr 42" oil U x T 0 IA A I I Od 0 0 2 1 9 W 0 A 4 3 go 0 0 0 ell 0 C 0 00 00 0 0 0" 0 6 0--0a 0 0 0 9 go 00 0 0 a  ! 41 I I ,  t  OY/IIZ-59-4-6464 S 1=:0 d Excitation of Electromagngtic Oscillations in a Paraboloid of . . . . M tic current with a constant amplitude 0 ; such a ring of ~~pasees a magne magnetic current is equivalent to an electric dipole that has a moment r115r P02 0 P0 The Alectromagnetic field of the above system can be c determined from the Maxwell. equations with these boundary conditions: (1) the tangential component of the electric field vanishes on the ccnductor's surface; -(2) the solution is regular at infinity and represente a wave traveling toward infinity. A possibility of integral representatica of the 2-dimensional Green function through the one-dimensional Wittaker functions is sased In. the e solution. If the paraboloid degenerates into a Berni-infinite coliductor and if th elementary -dipole source is.placed. very. closely to the conductor's end, then the following will take place:. (1) at great radial distancea from the conductor, the field will wane slowl (2) the Reld near the wire at a long distance from y the end is described by a propagating compound electromagnetic wave which Card 2/3 W.   - I f", 1;;    137-58-6-11692 Translation from: Referativnyy zhurnal, Metallurgiya, 1958, Nr 6, p 68 (USSR) AUTHOR: Zhigulin, V.I~- TITLE: meltn f Kill d Carbon Steel Without Prior Deoxidation T e I o e Fur in ~thenate (VypIavka spokoynoy uglerodistoy stali bez pred- ~varitellnogo rask~sleniya metalla v pechi) PERIODICAL: Tr. Nauchno-tekhn. o-va chernoy metallurgii, 1957, Vol 18, pp 450-453 ~ABSTRACT: in An experiment in the. pour' g of killed low-carbon steel without prior a deoxid don (P) was'conducted in 250 and 80-t open-hearth furnaces itthe im. Petrovskiy plant. The furnaces are operated on the s'crap-and-ore process and are heated by a mixture, of coke oven and blast-furnace gases. Work on the pouring of steel withou-t P has been conducted since 1953. Ex- perimental heais showed'tbat.the tapping of steel without P,in :the fu'rnace reduces the.heat time by, approximately 516, Elim- ination of P of mild tube steel makes it possible to reduce de- oxidizer consumption, providing a saving of Rubles 8.31 per ton of steel. The quality of the metal poured with and without Card 1/2 P is virtually identical. Contamination of the metal by   ZHIGULIN, Vj.; KMMOV Iol.., Geroy Sotsialistichookogo Truda, laureat pr;,Iai Petrovskii Fl=t.i -il.Uurg 7 no.5:4,.-7 Hy 162. 75 years-old. Not OGRA 15:5) rektor,metallurgichaskogo zavoda imeni Petrovokogo Di  z - P. :1 1 i ~ I I I ~ Ivo I 1, i im, - 1.141.1; 5 K H 1, 11, - I I ~ ~ 1" l - 1. i  tfl : i  KCWIXVv A.Z.; BLINOVO S.TO; IUSIMSO I.Ael KCBUMrAYX70 1,9,; TUJW IM, A.L*; VASIL17NO *To; CHRUMMI, M#A#; BIWO I I,V.; THLISOVi S#A#; TMM]ITSKOVI KAO* MOMYBWO Th.A.; SLAMOSHTIM, V.T.-, PAUNTO _va.; xmocmax,-,z.x,; 7M)A Ov 0 A.X,-, BILIKOVg IC.N.; SABIMffq M.P.; GARBUZj G*A.;~ PCWCRBTSKIY, A.A.; AUJMOV9 X.Se; NOVOLM)SKIT, ?.I.; MCRCZOT, Aa*; VASILIIW. A.H.; MARAnOMIT, I.Se; KAIAlff, A.V.; VZMHOTTSW, 3j.; AGAPOV, To7e; VICUR, N.Ae; PASTUKHOT, A*I.; BORODULINg AOL; VAMMHTBYN9 0.7ho; PIWLIIj_ V.L; DZSHTZN, Ye,l,; -~gxvm=ir, N.V.; KLIKAS3XKOj L.S.; KOTIN, A.S.; MOLMZOVS IWOAO; ZHIMSKIY, -D.P.; HIKHLYLBTS9 1.8o; SL7JKAMIV, PWe; ZAVODCHIMV, X.G,;'Gumcm YeAss, HAZAROV, P~Xe; SLVOSIXIN, Me.; NIMLYRT. A.S* Reports (brief. tatio Y. nul. TSXII= rzo.18/1906-39 157. anno nz 1 Magnitogorokly metallargicheekly kombinat (for Xorole-s.Bellkov Agnpov;, Dik6teyn). 2* b2inetsicly iietallurgichookly komb!'.nat (for Blinov, Usil 'rev, Aast B=64%aiz, ritmasenko), 3. Ghelyatinekiy met=kcheskiy zarod (for 4. Zarod im. Zavod "Uporomhotal"I (for Dzh ogo (for roliurnevor). 5. - %ribiner.' xmxo+,~ Podgoretokiy', Marakhovskly, Savoslkin). 60 . IkJw;~mskly,*etallurgiche skly caTod (for Vasil Iyev, S. V. , Zhicietskly. AlIferov).' 7. Stall roye Walkov, p kt (for Chernenko, Zhdanov,, Zavoddhikov)o 8. VNIIT (for Belov). 9. Stalinskly metal. lurgicheskiy xavod (for Teleocivs MWAdt). (Continued on next card) tjaijo, Ip 11 it J~Jljn T   Cj- KHMAKOVSKIT#.V.V.; YZFD(OTp T.AO, kand, tekhn, nauk, starshiy nauchn" raotn1k; KOSMXO#,P.U kud tekhzi, nauk; KAZAKNICH# SoSf; LAPITSKIT,'Vvlo; prd.#:,doktor tAJm. n~uk; FILIPITST, O&T.;' 1.q'1mzid;'Aekhn. =k dote.; DXKIDOVICH, A.V. STRWANOV, A 0: 33ORNATSKITO.I.I.i.kand ~t ekhn.,nauk;.KOZH1BOZHSK1T, X,Ta' doto,; JCOCHO, V*S*,, prof.j doktor takhme' nauk; RYNIXOV"T.1.1 LCWIN,, L*K,, mUdohiy nauphW sotrudulk; KOUW* Ms,, dote.; ILYUMON, A 4-F P'. IPLYUSHO -Yo*'A.; Uw4mffs Ye.A. j k"d, tekhn. nauk, dots,; KOBAZA* Lle~,'=do~"itikhn, nauk, nauohM7 sotrwbik; SHIROKOV9 ~URRMIN, F.V., prof;, doktor takhn, Aauk; IMMVA, 1,10; Am"10-1 V&X.; MCROKOT' P.X.- NIKOV, A*Ye., prof.. doktor takhn. nauk, wavarshiV nauchny7 ootrudnik; T~UMSOV# W.Sd, A NIKCTAYBVl, '.G. DismMsions. Miul, TSNIIOBM zLo;18/19:40-66 157. (MIM.11W StarshiyAnz6ner G3A-vspetOAa-U Kinisterstva chernoy metalltw- gUSSSR (for.K6dakovskly)* 2. Institut gaza (for Yefimov). 3. D1- rektbr Dae~iodzerxhihskogo.metalliireehooko~o instituta (for, Kbaenko).'.46 -Nachallzdk laboratorli Leningradskogo instituta ogne- uporoy (for Mazelievich). 50 Z&vedWwhchiy kafedroy metallurgii stali Daepropetrovskago metallurgIcheskogo instituta (for lspita]dy). 6. lachdlnik laboratorit Giprostall (for.7111 $rev). 70 Welyabin- skiy politekhnicheskly Institut (for Stroga='. B. NachallrAk teplotekhnichaskoy,2aboratorii Saverskogo metallurgiche*ogo sayoda Jfor Damidovich)o 94, Zamestitall nwhalinika Mutrallnoy zawdskov laboratorii Nakeye*okogo metallurgiahaskogo savoda (for Bornatskiy)' (CoutinAwd on next card)  I.HMAKOVSCITO T.V.- (cont.imwd) Card 2. 10' Sibirskly motallurgichankI7 Irmt1tut (for Kefthiboabsk1y), ll~,-Zaveduyushohly.kafedroy metallurgii stali riyovskogo pollt cheskogo Instituta (for Kocho). 12:Iqpolnyayuhahiy obyaza=ostj glaimogo,luzhenera Beloretskogo metallurgichookogo kombinata, (for Rynlkov).' 13. Veesoymzny~,nauebuo-iseledovatellskiy institut metal- lurgichookor toplotakhniki (for LomWdu). 14. Urallekly politekhni- cheskiy., institut (for XDkarev). 15. Zamestitel. 11 nachal InIka teplo- teMmicheskoy laboratorii Nishne-Tagillskogo metallurgioheekogo kombluata (for Mvuaherov)., 16. &ohallnik teplotakhnicheskoy labo- ratoril Uentralln6y savodi3koy.laboratoril zavoda Im. Voroshilora (for Fl~ushcheigw) 0 17. Zhdanovskiv metallurgicheakiy institut -(forAmpustin). 180 InstitiA metallurgii Im. lkqkova AN SSSR (for Ubeza). 1~. liachallnlk laboratorii martenovelcikh peche7 Vnesoyu- nogo umdhno-issledovatellskogo institrute. metallurgicheskoy tople- tekhniki (for Shirokov), 2 . Zaveftushohiy kafedroy metallurgii 0 stall Urallskogo politeldinicheakogo instituta (for Umrikhiu)*, 210,Yachalinik.metallurgichookoy laboratorii TSentralluoy xavodskoV lab.oratoril Zakavkasftgo-metallurgiahaskogo'savoda (for lez6va,). 221. Zamestitell glaynogo inzhenera zavoda im, Patrovokogo (for Zhigdiin). 2,3. Nachallnik martenovskogo teekha r=uetskogo meta- lurgicheskogo kombluata, (for Karokov). 2.4f rustitut metallurgu in. Raftova AN SSSR.(for.Mlebnikor), 25, Glavnyy in2hener Petrovsk- Zabaykal'skogo metall=gicheskogo tayods, (for TaraBoy). 26. &ehait.- nik tsekha Kagnitogorskogo metallu=icheakogo, kombinats (for Nikolayev). ften-hearth, process)      0- --- - - -     III     s/1q3/62/ooo/bo4/bo1/ooV Steel production in oxygen converters Aoc4/nol. steel at the beginning of the process,aocelerateu the transfer of lime into.the slag solution, makes the slag sufficiently ba3ioduring the first 5 minutes of blowing and eliminates the necessity of draining intermediate slag. The service life of the lining increased from 135 heats in 1959 to 200 in 1960 and 1961. The refraotory.consumption was cut from 16-18 to 10-12 kg/Lon ingot. After the oxygen blowing the steel is reduced and alloyed in the ladle. The new converter process ensures an output of 88% quality ingots and makes it possible to smelt steel of many grades. The author Presents tables showing comparative data of the chemical and mechanical properties of various converter and open-hearth steel grades, notch toughness of specimens depending on the temperature and after agingo and the gas content of the different steel grades. It can. be seen from the tables that, in regard to Mechanical properties and chemical composition': ,from/ open-hearth steel and meets all the new converter~steel does-not differ ;k requirements of , rOCT (GOST) 380-60, whild its notch tougimess in considerably greater than that,of open.-hearth'steel. As from 1961, GOST 9543-60 in being applied to ordinary converter carbon steel, while all demands made by GOST 380-60 on the open-hearth steel grades of groups A,and B(V) *have also been extended to e convertersteel are 4 tables. the sam groups., There ard-2/  r. 34-551-65 W(mi)lw(w)li~F(n)-21OIA(d)ITIW~t)IUP(k)IW - MR bIWI40 , . c ACCESSION NR. AP5006851 B/OL33/65/000/002/0160/0162 AUTHORtj, D2brusidna, Sh jjAffj_0. T.; Zadoroz aya. U K. 1 Iflis. A. Ye TITLE: Low-altoy mank2no a steel with niobiumilsmelted in an oMen SOURCE: Otall, no. 2, 1965,- 160-162 TOPIC TAGS: steel smelling, oxygen converter. low alloy ate man ese steel. nioblur'n steel.' sted rolling /steel mechanical prop tFUG=Oeal, 0902a al, MSt. 3 spol ABSTRACT; Alloying of K10G2B steel, containing 0. 0". 06% Nb, raises its strength characteristics: as compared to.0902 steel by 10-12 kg/mm2 (98-117 Mnlm~, or 20-25%,' permitting an appreciable reduction In the weight of the structures. Roiled products mado'of 213 steel are characterized -by high tensile strength, plasticity and air tion resistance rAjnxG~'thor important advantageof the now sted Is a higher vibra joints then that of other low-alloy sleds or even Mgt. 1 3 steel. The making of loW-affoy Manguese sleds In oxygen converters is very effective, since their deoxidation aW SUo*g thus requires smaller, quantities of expensive forroalloys Containing Mangan- thin in the 0"~ of OUM gtGdMsjjdq processeue., 110.1. Lifohlts, P. Ya. Rythkor, card i/2 -Y       , 1, - ;, ~ . " P. - .. I ., %i.l~ i , , ~ . il 'l, I I' I It ill..,~ I ~' 'I'llt I'll"I" .~. ; J,~ 1 5 i . I.I. i f -, 110. ~ I , *  .1 1 1.' . i " q~ . . V: I  I I ! V. I I R; , . I : al . i ! i1.  ~AWHORS Ferdinandp Ya. M.; Redechkina,.Z. P.; Vozzhayeva, A. P.1 Vetlugina, K, F.; Vevyvr,~ N.,A.; Zhigullskaya, I. F.,Borodzdenko, T. F., ORG:, Rostov-na Donu Scientific Research Institute of Epidemioloiyo microbiology. and Hygiene.,(Rostovskiy-.~na-Donu nauchno-issledovatellskiy institut epidemiologiip microbiologiii gigiyeny); Department of Infectious Diseases, Astrakhan Medical 'Instituta.(kafedra infektsionnykh boleznCy Astrakhanskogo meditainakogo Instituta); nt of Infectious Diseases, Saratov Medical Institute (kafedra infektsionny Departme kh, bolezneyGaratovskogo meditsinskogo inatituta); Hospital No. 10, Volgograd (bollaitas,  , -i I ~- i i,~ i i. ~g-:   1 t-, ~,: 1 , - 9 IIR ~ IMIll f, I' I I 1!,11, 1,10 1 ~?!., ilEl il ~ * I , I . i . : I i !!I 1-! 4!    i,6 7~  ACCESSION ITR: AR 00012- 1 310W,11' -, Poo,'; I W6106T 1 /0671 J; SOURCE: RM. Khiaiya, Aba. -61V21 AUILHOR: %deyev, P. Id.; T=2: S)mthetic resin base waterpmof coatings C. TTM =='E, Lakokrasochn~o materialy I Irch primenerdye, no. iynthetid -resini.c6itugs Topic vba. ZRAIMI-A-TION: Waterproof coating ccmpositiona are described, which dr7 at 2e an&have for-their -basla FG (PS) and epoxy resins EDF-1 and EDF-3 OR). Toluene solixtiaiw or resins ver.e used. Cemenz, aarble -,'lour and marshalit were used as fillers. In the making of light coat- inga the 3est results were obtained on using titanium d~cxlda as filler Dr ;,ibment. It was found that ~'ixre PS w~d EP bas-~ coat'aq;s, nctvith- standing 5ome good character Is-, Ica, lirl"le. Al,"t' --f Card 1/2  ACCESSION UR: AR3000211 men increases elasticity of the coatings, but lowers their frost resist- ance and thermal stability. Componitiona zontain.r)-g bltuav-r --ed for in'_arior waterp-oefing. 118 ;h:v- 16i/ay,6 3 E11CL. 00 card 2/2      i~W4 lulAW: ~i~~Atnazl ~L. T,- 5,;0, res Idue were taken over a wide range of Tempe rat-urezi Iq J~V Id I  MR   AUTHOR: Zhigul-Iskayal M. SOTI/29-58-9-12/3o 'ANA TITLE: , in Pr at'; Crawlin 0 (Krolem v moroz) FERIODICAL: Takhnika,,mol6dezhi, 1958,~hxr 9, pp 20 21 (USSR) ABSTRACT: pool was built in Moscow A year agola new swimming. . , on the Kropotinsk~ya-quai. This pool is.much frequented even In winter. The. water is mixed, filtered, and chlorAted in big storage tanks. It is continuously led , into the pool andalways has the eame temperature regard- less of the weather. The rising steam forms a so-called air,cushion and thus-protects the swimmers from the cold. The shower baths are connected with the pool by a tiled ~gangway filled with water which is protected from the exterior temperature by special blocks. The tiles are heated. The walls of thepool are fitted with floodlights. The' orders by a loudspeaker. The establish- is opened from early.in the morning~till late in the night. There are 3 figures. Card 1/2    :I;!' t I-i  Pau  I li~     I I i JE, $;'I I; ~~ i" 1 ! : 1 1 i i . f? , y I . i 1111"IF" I I I I ~  : .,l "' " , " - I i -, ... I W-J:06a;~ I;~i ... -, . 1 I i 'A I It ,D~ Ile ,g! 1~  are migaLna in '"Cel":Lty of and UME  PIE.. lllh~ Hilt  I ~ I I ii  ZHIONOI& -M.; OAVINOV,--O~,S.,- Insho-9 red&; MMI 301.6; rAjW-va: GTIRTS, V,L,, takhn rod, [using WTIoeive enirgyju the manufacture of machinery; :~Ibliogrpphlcal-lndex of literature] 'PrImenanii energit, -vsryva v mashinostrottellnom proizvodetvlr blIbl-tograficheskil u.kaxatell Uteraturyo Pod red. G.Segaviltova. LeningreA. 1961. pe (MIRA 14tl2)  I t I 4~ ~.i ~ 4 -1 ~ k- IN -- - , - -- I - v - - -- - -- -  t~ fl i :A 11 R H 'I ii : Ini - I I t . ~1,1   I I', L~Lf