SCIENTIFIC ABSTRACT ANTONOV, E. - ANTONOV, I. A.

Dennatology BULGARIA --MTOAQ~4_~.. CO Lonel of the Medical Service IsTreatment of Yperite Skin Lesions in Human Beinf;all Sofia, Voenno Meditainsko Dolor Vol 210 Nol, Feb 660 pp 35-40. Abstract: Treatment of 9 patients with Skin lesions due to contact wiT yperite is described. Good resulto in the therapy of the akin lesions were obtained by external application of a "bioatimu- lating ointment" containing terramycint insulin, vitaminA, vitamin B t acetylcholine, lanolin# and vaseline. Me ointment, which had blen previously found effective in the treatment of atonic lesions of other etiology in human beinge and of necrotic uclers produced by yperito In experimental animals, also had a good and relatively rapid effect on more deeply located yperite injuries that were exhibited by the patients. Figures, Russian summary.  Derontology ANToNov, svg.~ Col; and ALEKSIEVp Iv., Lt. Col.; ArM Medical Service "Liquid Nitrogen in the Therapy of Certain Dermatological Diseases." Soria, Voenno Heditainsko DL-lo, Vol 21, No 2, 1966, pp 46-49 Abstract [authors' Russian sumary~ modified): Results are reported In treat- Ing 1028 deizatological. patients with liquid nitrogen* The authors expand con- siderably the indications for the application of this method to alopecia cica- trisatap granuloma pyogenicum) xanthomms, prurigo nodularie, psoriasis vulgarlsp chronic eczemasp calluses, folliculitia keloidalis, recurrent her-pea, etc. In view of the availability, ease of application and good therspeutical and cos- metic results of this method, Its widespread practical application Is recomend- ed. Three Soviet~-bloc and five Western references, 1/1  ARTONOV, P., Insh, Speolal problems In maintaining apartment houses in Norillsk. Zhil.-kow. khos. 8 no.12t?-8 158. (MRA 1311) I.Takhatcheekty otdol Zhilishchno-kaswinallnogo upravlonlyo, g. Norillsk, Krasnoyarekly kray. (Norilsk--Apartment houses-MaIntenanct and repair)  _ AJUGNOV, F~-;- inzli. How we prepare to control malt waters. Zhil.-kom.khoz. 10 no-3: 27-28 16o. (ML'U 13:7) 1. Tokhnicheakly otiel shilishohno-korimunallnogo upravlonlya, g. Norillsk. (Norillsk--Snow removal)  ANTONOV, F., Iash. (g. Norillsk) ftollamw Methods for controlling the Icing arormd buildings to Norillsk. Zhil.-kom.khos. 10 na.9:11-12 160. (MIRA 13:9) (Nor Ill n'o-- Ice)  PEGUSHINq 09 (Ikrlltok); ANTOMOV, F. (Norillsk) Nonfroesing water post. Zhil.-kou. khea. 11 no.llo25 9 161. (MIRA 1617) (Pipe fittings)  OCILSHKOV, N., narcKIW oudly., (,,uzdalls VIlidimirokoy oblnw)i A.'-TUNOV, F. 1=11-1 TOPORKOV, F.; S. (Od"") I Odessa)lj GRIGORIrWA Readers Joportj advicep and auggo,A, Zhil,-hon,. khoz. L! no-400-31 Ap 162. (KIM 1~,:7) 1. Zhil!ehchno-kommumllnoya uprimloniyu, Norillsk (for Antonov), 2. Nachallnik otde]A Hinintertatva kor.=naltnogo khoz.,,-aystva Koni Assa, Syktyvkar (for Toporkov). 3. 1'rodsedatell sov?ta porwionorov dom to-4, Kuskovo (Moskva). (fcr Grigarlyova). (C(X-X=Ity life) -  INTONOV) F. Houm on pile fc6dations. Zhil.-kom* khos. 13 no.3al3 Mr 163. (KIPA 1613) 1, Starshly insh, ZhWshchno-komnmallnogo uprayleniya, Norillsk, i ineshtatqj korrespondent thurnals, ItZhUishohno-komunallnoye khosyaystvole (NorIllsk-Foundations)  nw,INP A.M., kand.t*khn*n&ukj,,_A~~y,_, lnzh, Coaputation of alopoe in deep open pit@, Nauchosoob*IGD 24t94-105 165. (MIRA 16110)  2- ZO S/14l/60/003/03/006/014 WMIORS: Akhmanov '14F3P1 _,_A,At and AnH9 2j TITLE: Amplitude Oscill5ktions in it Mlse Gangrat.Qr.nased an a Reflex Klystro 'it Vj PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy, Radiofizika, 1960, Vol. 3, No- 3, pi) 405 - 418 TEXT: An investigation of the unidimensional distribution functions characterising the amplitude transient in Itlystrons was carried out. rhe functions of interest were W t (A) , which describes a distribution of the amplitude at various time instants ti and W A(t) , describing the probability of reaching a given value of the amplitude A i at a time t . These functions were determined experimentally for an "autonomous" reflox klystron, and for a klystror. which was "excited" by nit external signal. Tito block schematic of the experimental equipment operating at the wavelength of 10 cm is shown in Fig. 1. This consists of; 1) a modulating generator; 2) a standard generator*, 3) a delay Card 1/6  821h51 S/141/60/003/03/006/014 E122t Amplitude Oscillations in a Pulse Gone a Ndiased on a Reflex Klystron line; 4) a sawtooth-voltage generator; 5) a pulse oscillograph, 6) a discriminator; 7) a sensitive power meter; 8) a wideband amplifier; 9) a three- branch waveguide; 10) the klystron; 11) a wavometer; 12) an ultrahigh-frequency generator; 13) a spectrum analyzer and 14) a measuring line. The generator or the standard pulses was employed to trigger the time base of the oscillograph and a generator of rectangular pulses having a duration ranging from 0.5 to 10 Us and a rise time of less than 0.1 Us; the latter was used to modulate the reflector of the klystron. The envelopes of the high-froquency pulses generated by the klystron were observed on the screen of the ostillograph. If the klystron was operated a large number or times, it was possible to investigate the desired random process; the envelopes of the klystron, pulses were photographed and Card 2/6 the distribution functions Wt(A) and W AM were  b/141/60/003/03/006/014 EAR24fgP2 Amplitude Oscillations in a Pulse Go r Based on a Reflex Klystron determined by photometering the film. A typical picture obtained on the oscillograph is shown in Figure 2. Since the axis of the abscissa is the time axis, the function W A(t) is obtained by photometering of the oscillogram along the time axis. By photometering the film along the axis of the ordinates, it is possible to obtain the function W t(A) . The experimental results are shown in Figs. 3-6. Fig. 3 shows the function WAM for various reflector voltages. Tito distribution function of the ratio of a given amplitudo to its steady-state value (x = A/A y) in plotted in Fig. 4 against x for various values or 'N,. , where / :; denotes the instant of application of the modulating pulse. From the experimentally determined function 2 WAM . it is possible to determine the dispersion tk t Card 3/6  S/141/60/003/03/oo6/ol4 1&jg2/fia22 Amplitude Oscillations in a Pulse Genera r et, on a Reflex Klyatron of the time necessary for roaching an amplitude A i and the average time i necessary for reaching the above amplitude. Figure 5 shows the square root of tits dispersion as a function of P/P max , which represents the ratio of the power at a given point of the generation zone to the power at the centre of the zone. The dispersion of tits quantity x = A/A y as a function of t is illustrated in Fig. 6, where tits first curve corresponds to the power ratio of 0.7 and the second curve is for the power ratio of 0.45. Tits above results cart be explained by considering tits dynamic operation of a klystron. It is assumed that the amplitude transient is described by: A AM .7 Y-7- .1 Cs-20t Card 4/6  S/141/60/003/03/&6/oi4 Amplitude Oscillations in a Pulse Genefal?02089ied on a Reflex Klystron where C is a quantity determined by the initial oscillation amplitude in the resonator and P is the increment defined by Eq.(2) (Ref. 12). By analyzing Eq. (1), it is concluded that the shot and thermal noises are the main sources or the amplitude fluctuations observed in the transients. The two probability distribution J'unctions can be expressed by Eqs. (3) and (4), provided it is assumed t1tat the non-linearities in the klystron are or no consequenoe (Refs. 4,6,8). On the basis or Eqs. (3) and (4), it is found-that the square root of the time dispersion is given by Eq (5), while the amplitude dispersion is defined by Eq. (6). By comparing the theoretical and experimnetal results (graphs of Figs. 4 and 6 with the formulae (4) and (6)), it is seen that a satisfactory agreement between the two is observed only during the initial stage of the transient process. The average rise time of the amplitude transient caki be reduced by introducing an external. sinusoidal?TM the resonance system of the generator, This method was investigated experimentally and it was found that if the external signal had a power lower Card 5/6  S/l4i/6o/oo3/O3/oo6/ol4 Amplitude Oscillations in a Pulse GeRHWROH89ased on a Reflex Klystron than 10-9 W, it had no effoct on the rise time of_hhe oscillation amplitude; however, at powers of the order of 10 W, a significant improvement could be observed. This is illustrated in Fig- 7. Tito authors express their gratitude to S.D. Gvozdova for her consitant interest in thin work and to G.A. Yelkin and I.T. Trofimonko for discussing the results. The authors also thank I.L. Bershteyn for reading the manuscript and for valuable remarks. There are 7 figures and 14 references: 2 English, I German and 11 Soviet. ASSOCIATION: Moskovskiy gosudarstvennyy universitet Moscow State University) SUBMITTED: October 23, 1959 Card 6/6  DOBROBILISKIYj K.K.; VJ.; BKRLU", A.U., redaktori KANDYM, A-Too, takhnicheekly redsktor CThe work of the station In winter] Sabots stantatt stool. Moskva, Goes treampothel-dor, Xid-yo, 1951. 1?5 p, (KLRA 100) (*~Iromds--Stat tons)  TTAZHXUN. Alsksay Petrovich, Inshener, PAnTUX, Vikolay Sti*panovich, Inzhaner.-t V)SOODADYA.Telens Petroyna, Inshaner; ANMMDY. M. roAaktort VXRIMA, O.P.. takhnichookiy redektor. % [work practice of saintowme son of the ProvVehlasnoya section of tho Tomsk railroad] Opyt raboty puteltsev Prowyehlonskot distatelt Tonskot dorogi. Moskya, Gos.transp.shel-dor Isd-vo IM. 13 P. (HLRA 8211) (Kewrovo Province-Rallroads-A"ntenance and repair)  A W XCV. V.I.. inshener. Prompoets for the oTer-all seehanisation of rostiso trock oaintan*nce. Zholdor,transpe 39 no*6:3843 J* 157. (KLAA 10: 7) (Railroads-Ratntessnes and repair)  MILININ. D.14.; NOWOV, A.A. - ANTOROV Y01 WTYKHOY. L#X.- LUKHOTICH, V.D.; POPOV$ A.V.,Insh.,rj-.. S,tekhn.rod. [Mechanization of $now protection and reno"q on railroads) Makhanizatella anagmi'borki I enegosashchita as sholsonykh dorogakh. Moskva, 0osetraaspethel-doralid-vo, 1959* 112 p, (Moscow. Ve*solusnA nauchno-teeledovatel'skii inotitut sholesnodoroshnogo transport&, Trudy,, no*168) (NIPA 12M (Railroads-ftow protection wA removal)  ANTONOV, F.I., insh. 0 Types of mechanisms and work t%rganization systens for track maintenance. Trudy TSNII WS no#17814-22 159. (MIRA 130) (Rnilroade-Track)  FEDULDV, Vasiliy Fedorovich; A "TO OV Fedor Ivanovichl ZAKATAU)VA, Aleksandra losifovna; r". (Characteristics of the maintenance of tracko with re- inforced :oncrate tioo) Oaobennosti soderzhanila puti s zhelozobetonr7mi shpulami. Yloakvaj Transportp 1964. 19 p. (KIRA M10)  RABETS, A.L.; ANTONOV, G.A. Universal ol&,vping and feeding draw-in chucks for automatic lathes. Msehinostroltall no. 5t26 ?V 164. (MIRA 1717)  AKHWOT, S.A.; ANOROV. G.F. ------- Anplitudo fluctaations to a reflar klystron pulse oscillator. Igv.vys.uch*b.z,%v.; radtofts. 3 no.3t405-418 160. (MIRA l3s8) 1. Moskovskly Casudarstyemqy universitet. (Ilystroun) (Oscillators, Xlectric)  ANTIDNOV, G.G., kontr-admiral HeIrs or military glory. More nbor. 48 no,025-29 Ap 165. (M] IU 18 s 6)  Cj I i ro.-I,nichenko, A. Antutiov, I i,-.kovich,__!3 1). , Eolcha no vin IF F,,,~n-LTmr Khillko, 11. K. 0 I El ~n.-nesitc, hri.O-r, Ur CEecherwcrks of Hei-encratoi,- -.n per, fte,-Mg Ptirnaces I'Ei! I , 1, 1 C A L iL;f;neupory, 1960, No. 5, Pr- 10~7-207 'T .1 r -V. ~ -XT., A, S. Frenkell fo%~nd out that the Onuse underlyinr the ],~ rez r. -1 6'- forsterite brickv hitherto used in j:as generntor chockerworks ir it tt,-? takint, place in tY-e volume of iron oxideo ccntp-ined in th-,r- 4,,s particularly felt in an Increased magnevioferritc content nnd n (if over HU00 (Fig. 1). Magnesite has a hi~:her hett conducti(.,n nu-~.Ivr (Fij-, 1,Tid n hipher hont capacity (Fig. 3) than firo-cloy tind Dinar clive, Frenkel K, K, Shnukler or the Ukrainskiy institut ofnieuporov --Inzt-ituto of Refractories) tested mat7nesite bricks In rej:ener, t - O,x-~C-r %.orks. Bricks 38OX150x,7r~ mm Inrre were j~roduced by In(? oryttivy C ~-, r d T /5  -r,~movltc Ai~icko for Checkerworks of :;i 13 16(./ 01 C, C-', -encrators in (,j,cn-hc,,,rth Furnaces "ej Itt I A UN110 Test Flant UNNO). Table I shows the chnrrcteristics ct' )f,, products before their utilizationand table 2 after utilizati.-n. wi-Itn of them used in the unburnod a-tnte. In t7as. rocxnprator checker-WC11;t!~. 1,rtcks ehowed good stabilityl and no irapcrtant differences were t'c~;fl-j Letween burned taid. unburned prtiducts. With e view to ccnductin!~ ~r~,raticnal tests, a set o." 120 tons of burned and (Inbulned ',ticks 162 X15OK65 mm large was produced under the cupervision k-.' A. j. rr-_,nkelO at the Ilan teleymonovskiy savod im. K. liarkan. (Ilan t e I ireni ~,.jiaqx) in accordance with the atntidardo of the teol plal.- _11v and in compiiance with specifications laid down by the lantoi,-y;,~or, Works, Tie usual magneette powder, the Frain size of which is rr~,u-~.fivd ir. table 3, was used for the rurpose. Table 4 describes the raw masnvo arl ti-.s weirtit by volume of brick clays, and table 5 shows the propcitioi; oxhibillrd by the experimental sets. After 345 melts in the gas rel-enerator Cif a 370-ton open-hearth furnace, both unburned and burned mal-nevite bricks we]-.: ;n t;ood condition (FiGs. 4 and 5). Table 6 shown the indices of' *h,- furnnce perrormance with magnesite qnd fire-c'Lay checkerworks. Tnblo:; , ;Bind 1, '.'how the chemictil composition of the bricko~ after fl.vir tise, ns well rt~ cvrd  Naj,liesito Bricks for Checkerworka of Ref,-onerators in Open-hearth Furnnces b0 I "Y !10 i results of the petrographic analyses conducted by 14. Ye. Drizher,ii. 111- ferveict, was found between fimmed and unburned bricks (Fig. 6). It i F~tatf'U' in conclasion that metn1luggichl magneelte powder products with low iron-OX101.3 contents do not loosen up in ghn regenerator checkerworks of o,,-,(,Il furtinces and exhibit high stability. Also ctieckerworks of burneJ anJ w,fib,irred bricks in gas regenerators of 370-ton furnaces, for which the oxy~,en te-h- nique was used, exhibited high -stability. There are 6 fif-ures, b tablt'.Ij, anj 1 Soviet reference. Card 3/3  S/13 60 0001061021012 BOUDO% AUTHORS: Antonov, 0, 166 minkovioht D. Dos Shvartser, M. A.? Sh*hmr-- G-e-s. -# OV2 Io Not KhilrFo-, M. R. ,__k 88;6 - Molohmorat No 1, TITLE: Production and Practical Test,I 'of Burned and Unburned Small-sise P~c_rattrlte Brickeir PERIODICAW Ogn*uporyt 1960s No. 6# pp. 244-251 TEXT: A. 8 Frankel's Ukrainakiy nauohno-issledovatellskiy institut ogneuporoy iftrainian Scientific Research Institute of Fireproof Materials) recommended measur*u for the purpose of increasing the production of re- fractory regenerator forsterite bricks as wall as for the simultaneous reduction of their actual costs, This may be brought about by using unburn- ed small-size bricks. For the purpose of checking these measures, the Panteloymonovskly ognsuporayy sayod (Panteleymonovka Works of Fireproof ma- terials) together with the Ukrainian Scientific Research Institute of Fire- proof Viaterials in 1957 produced Industrial batches of burned and unburned small-size forsterits, bricks, So Do Vinokurt No So Mitrokhtna, and Do A. Card 1/3  Production and Practical Testing of Burned 8/131/60,/000/06/02/012 and Unburned Small-also Forsturits Bricks B015/BOO? Fag*rman (Footnote p. 245) took part in this work. The chomioal oom- position of the ground powders may be soon from Table 1p the character- istias of the pastes and blanks from Table 2, and the properties of the burned and unburned products from Table 3. The burned small-size forstqrite bricks corresponded to 4 MTY 5127-55 (ChUTU 5127-55) and were not inferior to bricks of normal size. Fig. I shows the chookerwork of a regenerator ads from small-site b:ricks, Experiments with these bricks were carried out : t the savod im. Kirov& (Works iment Kirov). The characteristic@ and mine- ralogioal composition of the burned small-size foraterite bricks after their use are given in Tables 4 and 5* Table 6 shown the results of a furnace campaign# and Fig. 2 the temperature course of the regenerator. Figs. 3 and 4 show unburned foraterit* bricks after being usedt and Table 6 and Figo 5 show-the operational conditions of furnaces. Tables 7 and 8 give the characteristics and the mineralogical composition of unburned :&all-size forsterits brioko after use. Petrographical investigations were arritd out by Lo Is Karyakin (Ref. 2). By way of a summary, the authors declare that burned small-size bricks are in no way inferior to standard- site bricks. By the use of 50-60% of unburned bricks in furnao* oonstruo- tion, the produotion of refractory forsterite bricks for generators way Card 2/3  Production and Practical Testing of Burned 3/131 60/000/06/02/012 and Unburned Small-size ?oraterits Brioks B015YB007 be increased and their actual costs may be reduced by roughly 25%# There are 5 figures,and-8 tables, ASSOCIATIONs Ukrainskiy nauohno-issUdovatel'skly inatitut ogneuporov (Ukrainian Scientific Research Institute of Fireproof Materials) Antonov, 0, 1.9 Minkovioh, B. Doi Panteleymonovskiy ognsupornyy sayod iso Ko Markea (Panteloymonovka Works of, IFir*proof Materials imeni K. Marx) Shyartasr, He Aot Shakhov# Go So, Sevenoyt I. Nol Makeyevskiy metallurgiohookiy savod is* Kirova (HakeyeYka- Xetalluritical Plant Istai Kirov) XhilIko, M. M., Molchunovag M, I., Card 3/5  ANT(NOT, Goloo KHALIIXSXITo 397.1 XALINOTo T*,L, POLTAKOV, VOIN Using -mdIrsd forsterite bricks In small-capacity furnaces. Retall-arg 5 no*71l7-20:Jl 160, (Kim 130), 1e Ukrninskiy institut ognouporov I savod im. Malynheva. (opeo-hearth furnaces) (Arebrick)  BMW Sh.M.; YANISHINA, M.P., $H&MVAWV, V.S., prinimali u6imt,ye, EDWILICHUK9 10.1.1 PLOOMMOg Te.A.; POPOV, G,Lj SMUPINt V.(;.; A#7 AGM* Service conditions and processes of the wear of basic refractories in the buMeads of open-hearth furnace front walls., Sbvr,uau*b, trud., MIO no*5%161401 161. (MIRA l5tl2) le Ukrainakiy nauchno-iseledovatel'skiy institut ogneuporov (for Antonovp Kovtun). (Open-hearth furnaces-Design and construction) (Firebrick4-Testing)  ANTONOV, G.I.v inzh.j BEIMUt SH.M., inzh. Efficient design of regenerator checkerwork, Stall 21 no.,5t413-414 My 161. (MIRA 1415) 1. Ukrainskiy nauchno-iseledovatellakly inatitut ogneuporoy. (Open-hearth rurnaces-Design and construction)  B.EiOllll, Sh.H.; YANISHINA, A.P.1 AUMNOV, G.I.; PLOSUCIMILU, Ya.A.,, SII,AKHOV,, N.A.; 140VLUVA, ko-ly.- TostLng non-fired forsterite brick in the checkered brickwork of air regenerators of 500-toon open-hearth furnaces. Cpnupory 2C, xio.0':272-273 161o (MIRA 14;7) 1. Mkrainskiy vauctino-iosledovatellskiy inatitut ogneuporov (for Berunjan'shinas, Antonov), 2. Alchevokiy metallurgicheskly -.avod (for Ploahchenko, Shakhov, Movlyava), (Foratorite) (Open-hearth furnaces)  VINOKUR,, S.D.; MIKIIAYIISTS, I.D.; G.I.; KOSSOGOLOV, V.V.; HINKOVICII, B.D. Manufacture of magnesite-chrome brick for the dome of an' opon-hoarth furnace with Imulation. Ogneupory 26 no.8t 351-354 161. (MIM 14 t 9) 1. Funteloymonovakly ognoupornyy zavod im. 9. Harksa (for Vinokur, HIMaylets). 2, t1krainskly nauchno-isoledoyateliskiy Institut opeuporay (for Antonovp Kosogolovp Minkovich). (Firebrick) (Open-hearth furnaces)  KHILIKO, M.M., inzh.;.AN104NOV,._G.J*j. illzh. Results of using foratorite checkers In open-hearth furnaces operating with oxygen. Met. I gornorud. prow. no.601-34 N.-D 162. (M IRA 1718) ~ 4, Maksyevaliy metallurgichekly zavod im. Klrova (for K1014o). 2. Ukrainskiv nauchno-Araledovatellskiv institut ognouporov (for Antonov).  AMAY4 G.Iej MWj Sb.M.1 rMHCHEMKO, T*.A,; DRIAPIXt To.,?*) a OVj N.A.1 HAMAK9 V.L. Gas flow distribution in regenerators of 5Z-ton operv-hearth furnaoss. Stall 22 noeO306-309 Ap 162# (HIM 15t5) (Open.-hearth furnam) (088 flow)  KHILIKO# M.M*; 0710NOV, G*I. Use of forsterite checkers in high capacity open-hearth furnaces operating with o)Wgen. Ogneupory 27 no.3il4l '62. (MIRA 150) 1. Makeyevskiy metallurgie.-heskiy zavod imeni Wova (for KhIlIko). 2. Ukrainskly nauchno-Issledovatel0skly institut ogneuporov (for Antonov). (Open-hearth furnaces) (Forsterite)  ANTONOV, G.I.; KHILIKO, M.M. Use of unfired checker refractories. Met. i gornorud. prom. no.3137-40 YV-Js 162. (MIRA 150) Is Ukrainakiy institut ogneuporov (for Antonov). 2. Matallurgielieskiy savod imeni Kirova (for XhIlIko). (Refractory materials) (Open-hearth furnaces-Design and construction)  PTLMMI, A*11.1 SHHUXLER, I-M-j ANTCNOV, G.1a; MMOVICH, B.D.; sHAPOVIALoyt ves, - Use of epthatio foraterite brick for the chookervork in open. hearth furnace p9 regenerators. Mronauohetrudo UNIIO noo5*166t. 180 161, (HIM 15M) (Firebrick) (Oporp-bwwth tumaces-Desip and construction)  ANTONOV, 0, 1... Insh.1 SISHO, 1, 1,, Insh.1 KHAIMKrl, S. P.0 insh., KAL.INOT, Ye. L., Insh, Using 50 =.facing bricks in open-hearth furnacem in foundries. Nashhl" tzoents no,5142-43 S-0 W, (MIRA 16i1) 1. Ukrainskiy institut egnsuporov I Zaved in. Mal"heva. (Open hearth furnaces-Equipment and supplies)  ,AN70NOVO G.I.; 13AMNYSHBYp R.A.1 MCIAINp Sh.M*j SUFOVALOV, -.'.V. Useful life of the cheakervork in 600-tcn op-m-hp-arth furnaces. Moto i gornorude prome no-302-34 MY-Ja 163, (KIRA 1711)  I -l kNrUl,"CV,~"4 WOUN '. NWCCCLOV, V.V,. 1~1.; KALINCY, Ye.L.; KRAlEMKIT, S.FO Prevent state and pronp*?cts fckr Uie dervlopment of refractory liningn in fowidry qvn bearth furnacev. Lit# proizv, no&6- 19-21 Je 163o OURA 16;7) "A (Openhearth furnaces-Design a.-4 construction) Ar (Pwfra,.tory mtetlaIE)  MMKUVICII, B.D.1 A;j7o.,juV, G.I*j KOSOGUlk7o V*V*j KOTIKp F*L* I Manufacture of dense magnesite-chromits refractories. Ogne- upory 28 no.71305-3n 163, (KIRA 1619) 1, Ukrainoldy nauchno-ionledovatellskiy Lhatitut ogneuporov (for Minkovich, Antonov Kosogolov). 2. Nikitovskiy dolomit- nyy kombinat (for Kotikl-  ANTONOVp G.I*; BERRAN, Sh.H. Service life of refractories during Intensified steel pro- duction in open-hearth furnaces. Stall 24 no.1:25-27 Ja 164. (HIRA l7t2) 1. Ukrainakiy nauchno-isaledovatellskiy inatitut ogneuporov,  ANTONO KOSOGOLOVI V-V-; I%EDOSVITIY, V.P.; VINOGROOV, N.I.; KFILIKOp - W M.M.1 MOLCHANOVAp 1-1.1. Now design or ribbod arches with roinforced oupports, Metallarg 9 no.2al8-21 F 164* (MIRA 170) I, Ukrainakiy Institut ogneuporov t Makeyevokiy metallurgicheakiy 2&vod.  ANTIONOV, G.I., insh., BIRMAN, Sh.M., insho Selecting an efficient type of refractory waterial for lining open-hearth furnace regoisrators. Stal* 21, no.10:W-695 0 164. (MIRA l7tl2) 1. Ukrainskly nauchno-1991edovatel'skly Institut ogneuporove  Ab"rf)w)v, W.r;144. G,I-., MJNhCVP:H, H.D.; 1140YUNN, V.Yu, .-tabilized dolomite brick in tht.- chockelr4ork of an open hearth furnace. Ognoupory 30 nc,.9121-2~ 165. (MINA l8j9) 1. '.IkraJn,,%kiy nnit,,!hno-inviIA(I-)vottellskiy Jnstltut ogneaprov.  ty  Ll. '.' .' 1:1,1 ~11- '.*. C-'. " r r t,idr (xf Lr~ at e x,, ~ - - ~ I - r ~ ~ rtl~' rr; !I ~.-ry ~- f --i , i 11 714, ", - 1, '.11, f.. I wiry .30 no. .1.-' !1 -~- If, of ~e (~IAFA 18% A*,. ) 1. Ukrlt--;~iy rimuchno, I rzi I edoirn te I I,, k- I v itir 0 1 t-t a  -CC I-AtIorlov Bcr.Tzin, X.; Shapovalov, V A for producin:,, basic rofractor.( products. Clajs 50) No.- !V',.1.693 G~ - OY Scicnt.-"'ic iZoz;oarch of .;Wfractorios u rainskiy lzobratl prom obra~; tov zn, no. 15, !966, 166 70.1-0 racrtctory, product, rofr.Actory con-,,-pound~ pa,;dor ro"!, powdor P.-it,~11urt;yp ro-'mctcry p%~wdor. To prcc~aco into A I ~A LQ 'ired '- W. ox i d J z J  AIM-)NOV a X , ALTUY'T.XVA, A.H.. rodaktor,- KONTASHINA,,A., takhnichs- .~;~~~aktor. (Yirs truck with a carbonic acid extinguisher] Posharvyi avtono- bill uglakislotnogo tushenita. Hoskya, lad-vo Kinisteretva kommu- nallwMi khostatetwit RSPSR, 1955. 19 p. (KLRA 8:10) (Carbon dioxide) (Fire extinction-Chemical systaos)  NA."IfyKirip V.6.; G.N.; KAJ'fC1JEYEV, I.D. Now rieth(xi of determining the vlag resistance of refract-ory mteriala, Ogneuporv 30 no.107-1.2 165. (MIRA 18:3) 1. Urallskly poll tekhnicheskiy institut Im. S.M.Kirova.  v of -4 a 4 s I Is I IF W IN 41 a 0 44 a, 1$1 no 4 111 I kf Its i C4040, ..-Ce .046 opiv)ld"tql3 samm#411 "Iss"tivs," 914, w If 16o0 7*0*,:. Got 0 :*:;.i vul4noo AUV Ul Oqj ja AIJJ,114 -MAIN JIRIIINUI 0141 111 06110("Op I I a pue 4#uIwAjIvfp 690414"1 __iWUA4uv A Isq(mvw W j I tMillsif "11 00- 00 00- 17 IL 48440. -f 414 .41 IF '%sonar" 4 1 v I I T v 1 4 I's .0 -4 a . I i I I I I I . 0 0 0 0 0 0 0 0 & 0 0 4, 0 0 " i i 616, k-"LIL-O0 * A 0 a  L 1984-66 "C~&.IM1093 UW0056/65/049/002/036T/ 72:1 AIMMRs Tomashpollakiyl YU. ML-Venevtoevi, Yu, N. Antonoy, G. we TITLE t Ferroelectric-maF n the 'syAem rbrft/ -402YbIM06 3W1/303 '_bRi__F_i6~4r&nt&Vnoy i tet~cticheskoy fiziki, ve 49, not 2p 19650 na 376-372 TOPIC TAGS:, forroelectrio materialp antiferromagnetic material# lead Containing &Uoyp lrarNontainitq &Uoyp t emn (containing &Uoyp 4pblus --a-ining SUC70 Oro a solid 61RIo-n 4 APSTRAM Now ferroolectric-mWetic riaterials with perovskite structure were 14 11 L' 1wepared In polycrysta,121ne form1by Ming the oxides WN, Fe2o3p %osp and Tb N and the carbonate PbCO.-I at 700--1000C for 1-7 hours. The technique Vised fo-Me, crystal-structure meas%=ements at high temperatures and for the phase ~;aeuremelrts, were described by the antbors earlier (M v. 6, 2998p 1964 and Mai - lab. no. 9,9 1112# X961). The dieleiAric measurements were made by a standard b;Idge method, and the magnetic measurements by the Faraday method. The testis shoved that seyeral solid solutions are fon*d in the It%/A1303"NIMOS SYBtM sme of which conbine ferroolectric or adiferrosiectitic WWerties with ferrimagnetic ones Oyer a relAtive3y wide range of concentrations and tenperatures, Bome results were ob- Cold 1/9  L 1984-66 ACCMSIOR XRt A15021093 tained, which Indicated a coupling between the electric and rognetic dipole, strw- tures in the Investigated coiVositions. Th ults my be of use in microwaye technology. "7he authors thank 0. S. Man=.discussing the results and B....A. Atrukoy for helpa" 'Ortgo art. &sit 6 fijiIiii. PSOCIATIONs., FizIko-khUduhexkW Institut in* L. Y&* Wpm (ftelcochemical. itute) BUPMTTEDI IMM 00 SM CM91 s0# M NP. RV 60vt 010 OTMM 1 001  kCC NR' A'I" 60 3 2 9 5; 8 SouVa m'E, AU711OR Fedolov, 5. A.; T~vtmro 'Miklover, L. P. Sergeyeva IN. r. Antonov, G. M.; Gurevich.2i.-E.- ORO% none TITLE: Growing N&LU(MOO02 sin 1e crystals 14, SOURM AN SSSR. Izvestiye. Nnorgoialcheskiye materialy, v. 2, no. 10. 1966, 1905 TOPIC TAM single crystal growth, molybdate, lanthanum compound. sodium compound, laser effect, Inner optic material ABSTRACT: NaLa(MoO ). single crystals vere grovn by Ctochralski technique in a high- frequency crystallizei in view of the laser effect, previously reported In Western literature, In certain M1MIII01VI0,)2 type compounds, vhere M1 is an alkali metal) HIII a rare-earth element and MVI to W or Mo. The starting material N&IA(MO04)2*2H20 van synthesized by precipitation reaction of sodium molybdate and lanthanum nitrate ' In solution. Pure N&La(MoO4)2 vith Mr a 1163C and scheelite structure was obtained by calcining the hydrated product at 900C. The crystals up to 60 mm long and up to 12 =I,-- in. diameter were grown from pure NaL&(MO04)2 welt. The laser effect at a fairly low generation threshold was observed at room temperature In ff&L&(Mo0%)2 single crystals activated vith 1 at% Md. The generation threshold may be significantly decreased in the optically more perfect crystals. Orig. art. hasi 1 figure. IJK11 SUB CODE*. 2OX SUBM DATE: O4Mov65/ CRIG REF: 001/ OTH REFt 005/ ATD PRESS: 5696 C!!t--dlzx A   ANTONOV, O.So .. ,, - I. e-.-, Dynamics of phagacytomis In staphyloderm during treatmant by slactro- phoreals of staptqlococcal antiphagins Yopetur,fistoter. I lache fit.kul'5,, 21 no,,4%88-92 O-D 1569 (KLRA 9:12) lo Is laningradskago nauchno-looledoystallskogo institute fisloterapil, I kurortologil (PHAGOCYTOSIS) (STAPHTL4WOCCUS) (XLBCTROPHOUSIS)  LYFO, Yu.M.: ANTONOV, Mort-tern tempering of steal. SWr. nauch. trul. flz--tvh.tn.;t AN BSSR no.7tl6l-167 161. (IiINA 1517) (Steol-hoat troatment)  ATCLOV, Glob Vaell'yovichi OVCHARCV, Fed.or FILiktovIch; KOViUt, (Repair of the magnetic circuits of transformers] Remont magnitoprovodoy transformatorov. Moskva, ftorgilap 1965. 215 pe (Transforvatoryp no*14) (V1RA 18:3)  STANCIU, B.1 GONlY III, Ion, #or do brigada; HIRICA, Ion# malstru; ANMWV, liaralamble, Ing. Pride in belag a front-ranker. Constr Hue 16 no. 740t3 14 March 1964.  ;111, -if, I :r, It" I . ~I,ic notl.cjs or VIC 'pialit'. Of- "lloys.11 p. 31,~ (latsionaii-atsl3a, Voi. 7, no. n, (let.. 1, ~ -j, s F a A.: 'a ri, a -~ j j , ,,, I ':o:, t I Lhly Inklex of Eaznt European Acces-vions (FF-A) LC, Vol. 7, No. f), J-,u-,c l),I-k .  AMPONOV. I. For modern maintenance and repair facilities. Grazhd.ay. 17 no.5:4-5 My 160. (MIRA 13:7) lo Glavnyy Inshener Glaynogo uprpivleniya Grashdanskogo voidushnogo flota. (Aeronautics)  ANTUNUV I I* Designers at work, Posh,dolo 7 U00514 MV 161. (MIRA 1415) (Fire departments-Equipment and supplies)  ANTONUV, 1. Cmforence on taxoplamosis. Zdrav.Bel. 7 no.800-71 Ap l61. (TOXOPIASHOSIS-COUGM4SES) JKLA .15.'-))  ANTMOV, Ivan, insho I POPOV, Tonop inxii Some results from the operation of mazut-Neled bollers in the O$ofiia* Themoelootric Plant* Slaktroonergila 15 noo8s3-9 Pfr 064 :4 ~ : -: - :' 1 ,  ANT-NOV, Ivnr,, inth. Rowilta the mixed combav,irri in Mhe TI'l-VIO-1 of the "SoflyA" Thermololectric )-lAnt, Flektroenf-rgilok 1~ no.lltl5-16 N 164.  A - I . I A.; ANTON-JV, Wi!e more about slabs wlVicut 27 n0.12:22 N 164. (MIRA  Rejull f-t I -)n of tew; Ion kv tb~o I on !inv cr d I 9tribut 1, cn t rl. ;.-,f orrem. energ. ird-vo, (~,Ac Collrtlon of 4hq orL7,itul: 45 , . Y,Icr-)fllm, A'.-117  14N70t]OVA P, ~_ AUTHOR: TITLE% Yevoeyev, A. A., Ecgineer soy/ 'o5-58-7-21/32 Conference on Developmental Problems of the Production of Trans- formore in the USSR (Soveshchaniye go voprosam razyitiya otecheet- Yonnogo transformatorostroyoniya) PERIODICAL: Blektrichentvo, 1958, Nr L pp. 62 - 93 (USSR) ABSTRACT: The conferince took place from March 5 th to March 6th , 1958, in Moscow. It was called by State Scientific Technical Committee Attached to the Council of Ministers of the USSR (Gosudaretyannyy nauchno-tekhnicheakiy komitet Soveta Ministrov SSSR) together with the Gosplan USSR (Gosplan SSSR). This conference was attended by: scientists and engineers from Uoncow, Leningradt Kiyev, Khar'koY9 Sverdlovsk, Alma-Atat and other cities, representatives of the Soynarkhozes, the Technical Office Attached to the Ministry of Electric Power Flantaq of the Building Authorities RSFSR, of the Goeatroy USSRp of the Committee of Standards$ of the Electric Installation Organisations, and by the co-workerB of the trans- former works Moscow, Zaporozhlyo. "Uralelektroayparat", Irmelek- trozavod, as well as by the All Union Scientific Research-&nd Card 1/~ Planning Institutes VEI, VTIt GIDEP, VNIIChermet, VNIIE#MICI and  aL_-X_1U X Conference on the Developnental Problems of the SOY/ 105-58-7-21/32 rroduction of Transformers in the USSR others. The representatives of organinatione which have trans- formers in operaticn were invited as well. Professor 1,1. Syromyatnikoy (GNTK SSSH) opened the conference and pointed out the shortcomings and objectives in the production of tr&nsfor- mers. The Deputy Chief Constructor A.M. Chertin, Moscow Trans- former Works ineni Kuybyshev (Moskovskly tr&nsformatornyy z&Yod im. Kuybysheva ) reported on the working out of plans for the now series of the lio kW transformers in 1he case of which the total losses are lower by 30%# and the Idlirg losses by 40% - 50%, compared with the GOST 401-41. In 1959 these transformers will be put in operation to a large degree. Chief Engineer I*A.Antonov, Zaporothlye Transformer Works (Zaporothakiy transform"or-nii- tayod) reported on the now series of transforners with a power of 560 - 56oo VA at lo and 35 kVP 7,5 - 31,5 HVA at 35 kV# 90 - 240 9VA at 11o kV, 9o - 240 XYL at 22o kV, 15 - 6o XVA at 15o kV and on the series of autotransformors 22o/11o/11H with 12o - 3oo UVA for monophase units and 100 - 450 NVA for three- -phase units. Chief Engineer A.M.Dolgov (Trust "Teentroolektro- set'stroy" US) spoke about practical exporienc* rained In Card 2/3 assembling trabeformers and autotransformers with high power  4kTCkWj Ivan_ Androyevichj SIDELISIROVAp Z.j, r*d.; NDrfTOV, V.p takhn, ii&.,- -, - - (Great movementl Dol'shoe toohnnia, Oreli Orlevskoe knishnos isd- vo, 1960. 15 p. (Poultry) (MIRA U.02)  SOV/1 12-59-5-9430 Translation from: Referativnyy thurnal. Elektrotekhnika, 1959, Nr 5, p 139 (USSR) AUTHOR: TITLE: 1. A. Vyshnegradakiy's DetE.iled Diagrams for an Indirect Control Svstem With a Rigid Feedback PERIODICAL: Tr. Omskogo mashinwetroit. in-ta, 1958, Nr ?. pp 25-35 ABSTRACT: A system of Indirect control whose behavior can te described by an equation of the 4th order is studied. On the basis of Neutnark's D-partition ard Bulgakov's discrimination curve. a construction of Vyshnegradskiy's detailed diagrams is preaented. An analysis of the diagrams results i?i the gener&kizatione convenient for practical purposes and in selecting the optim,,im paramoters from the stabilay criterion. Dimensionless parameters are Used in the solution. In the above treMment, the direct-control system is a particular case of the indirect -control system when the fervamcstor U*ne decreases Indefinitely. Twenty illustration*. Bibliography: 15 Items. 1. Ya. S. Card 1/1  05492 AUTHOR; Antonov SOV/141-2-2-17/2 :~ - _tn~~ TITLE% The Detailed Diagrams of I.A. Vyalinegradskiy atid t1tc Choice of Optimum Parameters in a Typical Indirect-control System PERIODICAL: Izvestiya vysshikh uchobnykh zavodoniy, Radiofizika, 1959, Vol 2, Nr 2, pp 292 - 305 (USSR) ABSTRACT: The influence of various design parameters on the functioning of a direct-control system was first cmtnblinhed by I.A. Vyshnegradskiy for a third-ordor system. Detailed Vyahnogradskiy diagrams war* given in a number of works (Refs 1-4). In the following, an attempt is made to apply the Vyshnograds1ciy diagrams to a system of the fourth order. Tho basic equations of a system of indirect control for the case of switching off the load are: Tay, l(t) T T + 6n = 9 1 r k TSW + Cardl./6  V502 SOV/141-2-2-17/22 The Detailed Diagrams of 1*A* Vyahnegradskiy and the Choice of Optimum Parameters in a Typical Indirect-control System By adopting t = 6T'r. and the notation of E(Is the a Laplace representation of the controlled quantity io yjvon by Eq (3). The characteristic equation of the D(p) = arp4 + (r + ks)p3 + (k + Op 2 + P f I T 0 This contains three design parameters. Tlie pnrametric, equations of tho stability boundaries for m ~ coiimt. are given by Eqs (5), where p n :t jw . The family of the 9tability regions for the plane of the parameter It and r for various values of a (which represents the velocity of the servomotor) is illustrated in Figure I The coji- struction of the Vyshnegradskiy diagrams requires the knowledge of the so-called discriminant curve, iihere Eil CO contains a double real root, p1', ", = - y is expressed by Eqs (6). The branches of the discrimitiant and the boundary curve for four basic cases ii-o --howit In C.'%rd2/6 Figures 2. Apart from the discriminant cttrv:~ it is  0502 30V~141-2_2-17~22 The Detailed Diagrams of I.A. Vyalinegra sk y and the hoice of Optimum Parameters in a Typical Indirect-control System necessary to know the curves where a = const; a represents the stability margin of the system. By sub- stituting p = a + jw into Eq (4), the parametric equations for the-curve of a constant margin of stability are given by Zqs (10). In these equations, Z = CX2 + 02 an4 is regarded as a fro* parameter. A set of awcurves for fixed a > 1/2 in constructed in Figure 3. Those represent the Vyshnegradskiy diagrams. A case when a - 9/32 (1/4 4 a < 1/2) in represented by the a-curves in the Vyshnegradskiy diagram in Figure The Vyshnegradskiy dia;r#m for a a 3116 is given in Figure 5. The case of a< 1/8 is illustrated in the diagram of Figure 6. On the basis of the diagrams for the above four typical cases, it in possible to investigate the transients of the system for any values of tits denign parameters. The choice of optimum parameters for the system requires the knowledge of the root characteristics Card3/6 which represent the curves of a, w and y as a function  05492 SOV/141-2-2-17/22 The Detailed Diagrams of I*A. Vyshnegradskiy and the Choico of Optimum Parameters in a Typical Indirect-control System of the control parameter k at fixed values of two design parameters. On the basis of Eqs (4), the parametric formulae for a(k) are given by Zqs (19), whilt, w(k) is expressed by Rq (20). The curve y(k) cait be evaluated from Eq (Ul). The above equations were employed to evaluate the characteristics for the four tygical cases; the appropriate curves are shown in Figures 7, 8 and 9. On the basis of the root characteristics, it was possible to determine the transients for five fixed values of a Thin was done under the assumption that the control process is completed whon the deflection deviates by from the steady-state value. Figure 10 shown a family of curves representing tho transient time an a funLtion of the control parameter k . A curve showing the optimum transient time for a = const. in given in Figure III the figure also shows a region whore the transient timo does not deviate by more than 20% from its optimum value. Figure 12 shows the dependence of the optimum transient Card4/6  o5492 SOV/141-2-2-17/22 The Detailed Diagrams of I.A. Vyahnogradskiy and the Choice of Optimum Parameters in a Typical Indirect-control System time on the design parameter, r , for a fixed a By plotting a family of such curves, it in possible to establish the influence of the parameter s on ths minimum value of the optimum transient tinte. Alt appro- priate graph illustrating this is shown in Figtire 13. From the graphs shown, it in concluded that- 1) the quality of the control process (as regards its speed) is improved by reducing the parameter r (Figure ILI)4 2) the minimum transient time decreases when a is reduced to about 0.25; further reduction of a Ilan so significant offset. There are 14 figures and 13 Soviet references. Card 5/6  o5492 SoV/141-2-2-17/2" The Detailed Diagrams of I.A. Vyslxnegradskiy and tile Choice of Optimum Parameters in a Typical Indirect-control System ASSOCIATIONt Omskiy mashinoatroitellnyy institut (Omsk Machine-building Institute) SUBMIT'r9D.. Decamber 23, 1958 Card 6/6  ANTUMN, 1. A., Cand Phys-Math Sci -- (dies) "Detailed diet-rams of I. A. Vyshnegradskiy and selection of optimal paranietera of ttypical systems of indirect control." Omsk, l9bo. V? pp: with graphs; (Mos- cow 6tate 11niv im M. V. Lomonosov, Mechanics-Mnthewatics Faculty); 150 copies; price not Siven; (KLI 19-60', 129)  ANTOOV, Ivan Aleksandrovich; BLAZIANA, 1-arlya Likitichnal ----'-SrnOlYUK -A-.r;,-r*taenzent; KULIKOVA, T.I.p retnenzent; SIMMAGINA, V.I.p rod. [Technology of the manufacture of men's couta) Tokhnologiia izgotovleniin muzhskikh pal'to. Moskya, Legkala Industriia, 1965. 203 p. (1-.IiLk 18t9)  Welding XOV 49 Soldering "Xev Apparatus for Welding Aluminum Conductors and for Soldering," I. A. Antonov, Engr, 2 1/2 YP *Avtogen Delo" No 21 Sbms diagra= aid pictures cf the apparatus (11A- cl"Aly, fuel tan1c, oxygen tank, and torch vith two interchangeable nozzles). Each nozzle bas 19 jets vith diameters of 0.8 = in one nozzle and 0.65 = in the other. In soldering, nozzle vith larger jets is used with silver or brass sold - ft 153263 UM/Engineering - Welding (Ccutd) Now 49 Gives amounts of benzene, kerosene, and oxygen consumed as fuel for different oxygen and fuel Zwessures. IV 15V63  UM/Metallurgy - Wielding, Torch mar 50 Cables *Installation for Welding Aluminum Wires and Csbles," 1. A. Antonov, Ingr, 4 pp "Xlek Stants" NO 3 Describes Installation in detail. Consists es- sentially of torch which burns kerosene or gas- ollnep combustion being assisted by oxygen blest. Special attachments are provided which can be clamped to vire and prevent molten metal running avey. Series productior, of whole equip- sent Is being done by Olavklslorod, kin of Chou Ind. 16iT92 A- ___  ABTOWOV, I.A., Inshener. Rapid mutomatio gas welding of thin-walled tube@. Yest.mash. 33 no.10181-84 0 153. (KLRA 6:10) (QV&c*tylsn* welding and cutting)  WSP/ En&tneerlng, - Machine construction card 1/1 AutbGre i 4tonov,, I.A., IDng.; Kurlovichp Tu. V.; Engb; & ShukbaLn, D. Tap Engo Title I Now gLe-cutting machine with rtmote-controlled copying device P*r1cd1c&1 I Vest. Yksh. 34/5p 78 - 80j, Hay 1954 Abstmet t This'new gas-cutting machine, with remote-control1od duplicating device, Is especially practical in heavy-aachine construction and In ship build- ing. Its desi&n makes It possible to use smaller and che&per pattornst This now machine wss developed by the Institute of Autogenous Woriting of Metals. It cuts parts out of shoot steel 5-200 ma thick *M has six cutters. The seals with relation to the pattern is 5t1, Institution I .... Submitted I' see*  ASINOVSKATA, G.A., inzhoner.;LOTSKANOY, S.M., kandidat tekhnichaskikh nauk# dotsentp redaktor.;ANTONOY I A., Inshener. rodaktor.;POPOYA, S.M., tokhnicheekly rsdakT6T'Fz-t-='. [Flame bras1w, of metals.] Oasoplammenaia paika metallov. Hooku, Goo. nauchno-takhn. Isd-vo khim. lit-r7# 1955. 70 P. (Moscow. vessoiusn7i nauchno-Issledovatellskii institut avtogennoi obrabotki metallov. S*o- vodiashchie materialy, no.7) (NLRA qtll) (Brasing)  AJMNOV. 1.A.. inshener Nov models of equipment and apparatus for gas-flaw machining of metals. Svar. prolay. no.118-11 J& 135o (KIMA St 9)* 1,14esoyusnyy nauohno-Iseledovatel'skly Institut aytogennoy obrabotki metalloy. (Oxyacetylene welding and cutting) ,e,*  ANTOMV, I.A. , Technology of automatic gas cutting of thin-walled MIA"? steel pipe. Trudy VNIIAIrtogen no.3t36-82 155. (MIU lltl2) (Pipe. Steel--Welding) (Gas welding and cutting)  ANTON A kand.takhn.nauk; ANTOSHIN, I&J., Insh.; ASINOTSEATA, G.A.. T_n_zR_.; VASIL'TIT. K.Y., kand.tekhn.nauk: GUZOV. S.G., Lush.; DITIN. V.r.. lush.; ZATTSZTA. V.P., insh.; XAZERKOT. P.P.. insh.: XAW, Yu.B.. Insh.; KOLTUITOV. P.6., kanCtekhn.nauk; KOROVIN, A.I., lush.; DZ=MTSKff, A.Z.. insh.; IWZMSOVA, Te.l., Insh.; KATV1T31V,1.1., takhnik; MOROZOV, M.Ts.. Insh.; YNKRASOV, Tu.I., lush., NWHATIT, V.D., kAnd.tekhn.nmuk,- MINBURG, A.K., k^nd.tekhn.nauk- SPMCR,O.Sh., insh.; STRIZHIVSKIT, I.I., kand.khiu.nauk; TZSXENITSKIT, D.I., insh.; MIRCHOVA, TS.S., Insh.; TSM;Ml, A.K.. Insh.; SHASHIOV, A.I., kand. takhn.nauk, dote.; SHILICHNIK, N.H., insh.; SHUKHM, D.Ta., Lush.; V)SLISOF, A.M.. Lush.; VOUMIN, V.A.. red., UVAROVA. A.F., tekhn.red. [Machines and avparatuo:: d:ligned by the All-Union Institute of Autogenous Working of X al Kashiny t appArty konstruktoll. VNIIAvtogen. Moskya, Gos.usuchno-takhn.lad-vo mashinostrottellaot lit-ry, 1957. 17) p. (Moscow. Vessotusnyi nauchno-isaledovatelinkii Institut aytogennol obrabotki metalloy, no.9) (Gas welding and cutting--Nquipment and supplies)  T 13 7- 58 -1- 1002 Translation from- Referativnyy zhurnal, Metallurgiya, 1958, Nr 1. p 141 (USSR) AUTHOR Antonov. 1. A. TITLE'. Ca"Iculat'ions fo`rnline Torches Withovit Injector (Raschet lineynykli bezinzhektornykh gorelok) PERIODICAL: Tr. Vses. n. -i. in-ta avtogen. obrabotki metallov, 1957. Nr -1, pp 97- 11-1 ABSTRACT: We are informed that in autornatic gas welding of thin-walled pipe, boiler shelIN and cylinders with straight searns it is desir,able that multiple-nozzle in-line torches (IT) be emploved as the source of heat. It is stated that the IT of modern design for welding thims-ralled items consist of two or more identical sections with a total of 200-250 nozzles. The maximum acetylene consumption is 40-50 11-13/hr. When timitiple-sec- tion IT are employed, welding speed iticreases A design for a non- injector -type IT is exammed, as are the calculation procedure for the diniensions of the working ducts and the spacing and number of nozzles for the IT A nomogram ex- pressing the relationship between the calculated parameters Card I /Z of the tips of the heating and welding sections of multiple-  1 57-,18- 1 - 10011 Calculations for In-line Torches Without Injector flame IT is proposed. A method and example of calculation for IT design is presented. 1. Gas weldinp.-Autmation 2, Gas wolding-Rquitment 3, Gas welding A-Ts. -41athematical analysis Card 212  BYxOv,:V.V.; TROVINOV, A.A.1 ANTONOV I.A.,kand.takhn.nauk, red.; MMOVA, V.A.,radelid:~Tia~-,ke Aerostekhnaede (Repair of equipment for gas welding and cutting) Ramont appara- tury dlia Mizovoi svarki i reski. Kosk~va, Goe.nauchno-takhn. iad- vo mehinostroite lit-rye Part I, (Torches and cutters) GoreW I retaki. 1958. 198 p. (Moscow. Veasoluskyl nauchno-lealedovatell- skit Institut avtogennot obrabotki netallov. Spravochnye materialy po gazoplamennol obraboks metallov, no.13) (MIRK l2t2) (One welding and cutting--SqOpment and supplies) (Indi-strial equipment--M&irttenance arA repair)  135-56-8-19/20 AUT110Ht Strelltsova, Ye. ;.., Ilead of the Toc:mical Information ~iection TITLEs The Sverdlovsk Regioi.al Conference on Cas-Flame Lotal Working and Electric-Gas rrocesoos (Svordlovakoye oblnct. noye eoveshchani~e po, gazoplamqnnoy obrabotke notallov i clektrogazovym protaossam) !'ERIODICALi Svarochnoyo proizvodstvo, 1958, Nr 18, pp 46 - 47 (USSR) AP67RACT: A ropional Corforenco on work done in the field of gas- flume retal working and electric-Sor proconses was con- vened ot Sverdlovsk from Vay 14 - 16 b,,, VNIIAvtoren, to- gether with the wolding section of the Sverdlovsk VTO sec- tion of 1'risliprom, the Ural House of Engine.-ring and the Technical ~,3:~irintrntion of the Sverdlovsk sovnarkhoz. About 200 rriprirentatives. fron Sverdlovsk enterprises and other Urnl ni,.1 Siberir.. sovnnrkhozos were Present. The Conference rnq oprm!0 *):,- S. 1. 1 Win-lov, CnrAidnte of 'Lechnicnl Sciuncos, with it. introdiictor,.- r,~port an pro- blems relating to the im-rovirort of en!~-flsro Y~or~ing of m,~tnls and nq-,v oflicicrt pvrcevurps connected vilth indu- strial reorganization. T'ic ',jnfnrPnve t1hen heard the fol- lovirg reportat I.A. Artonov, Can,'JIntn of 79clinical Scion- Card 1/3 ces, on the rinrl-Ir,-, in the USSR and  15C-50-8-19/20 The Sverdlovsk Regional Confirence on Gas-Flame Vetal Zorking and Elec- tric-Ges Processes abroadl S. 0. Guzov, Engine?r, on new machines and equip- ment for oxygen outtingl 1. V. Sreshkov, engineer, on the application of gas-flame metal working at Uralvaahzavod; 1. S. Shapiro, engineer, on new methods of metal cutting; Yu. A. Vaelov, engineer, on air-arc metal cutting; G. V. Cho.pushtanov, engineer, on .vork done in the field of gas- flame metal working at Uralkhimmaahzavod; V. K. Deykun, engineer$ on a I'UGV" device for hardening small-module gearal 0. V. Ilroakuryakov on manual and machine oxygen cutting; G. A. Asinovskays, engineer, on automation of gas-flux weldingl B. V. Konopka, engineerl on oxygen-flux and oxygen-send cuttingi Ye. V. Antoshin, angincer,on Card 2/3 plastic, cernmic nnd metal costing; V. V. Bykov, chief  1 ~5-50-8-19/20 The Sverdlovsk Itopional Conference on Gas-Flame ketal 7j'orking and Elec- tric-Gas Processes ASSOCIATIONt technologist.on now equi:)ment produced by the first roscow Autorcrous Plantl V. Yo. ),uryshov on new eenerator ard ko- rosere-cutter desiena. The Corference decided to take measures to develop gas-flame metal working. VIIIIAvtogen 1. Welding--Conference Card 3/3  PHASE I BOOK UPLOITATION SOV/4243 Veesoyuznyy nauohno-looledovatellokiy Institut avtogennoy obrabotki metallov Plamennaya poverkhnostriaya zakalka (Flame Hardening) Moscow, Maahglz, 1959. 110 p. (Seriest Spravochnyye materialy po gazoplamennoy obrabotke metallovo VYP. 1T) Errata slip inserted. 5*000 copies printed. Compiler: A. Is Korovin, Engineer; Ed.: 1. A. Antonov, Candidate of Technical Sciences; Tech. Rd-.T--K-.-F7-1jvarova; Managing Ed. for Literature on Heavy Whine Building (Maehgiz)t S. Ya, Golovin, Engineer. PURPOSEs This book in intended for technical personnel in welding departments, technicians, foremen)and setup men. It may be useful to operators working in the flame- hardening process and also to designers of flame-hardening equipment. COVERAOSt A brief desoription of Soviet apparatus used In the flame hardening of metals is given. Basic information C&r4-1/.4  Flame Hardening SOV/4243 on methods and regimes of the process is presented and means for Inspecting the process are described. Safety rules are also inc3uded. This booklet in based on pub- lished literature) experience gained at various in- dustrial plants and scientific research Institutes, as well as on the work of VNIIAVTOOEN. No personalities are mentioned. There are 20 references, all Soviet. TABLE OF CONTENTS: Introduotion 3 Ch. I. 0eneral Information on Flame Hardening 5 1. Estentials of the flame%hardening process 5 2. Pl~_ir-.hardening methods 6 3. Fielda Qf application of flame hardening 9 Ch. Il. Materials Used In Flame Hardening 11 1. Iron-carbide alloys 11 2. Oxygen and combustible gases 11 3. Coolants 16 Card--2/4-  r 0 tout 04 Ir 1A v 114-Uji:a Mal LV A.1i 'IFF! I F. 1i - a q..v :%*a; rig o" $4 t Itt :4* HOW  BTKOV, V.V.;-AMNOV. I-A., kand.tokhn.nauk, red.; UVAROVA, A.F., takhn.red. Depair of equipment for gas velding And cutting) Hooky&, Goo. nauchno-tekhn, izd-vo mashinostr. lit-ry. Ft.2 (Valves ramps and regulators] Ventili, rampy i reduktory. 1960 146 ~e ispravoch 9 materialy po gaso 1 mennot obrabotki ustallov: n0.19 (HIRA IMI TG:e velding and cutting-lquipment and supplies)