SCIENTIFIC ABSTRACT LEBEDEV, YU.D. - LEBEDEVA, A.A.

t - r-- 0 1-- D r- V@ - r@, D, mmxv, Yu.1) -. - -@ --@ - - Yorty years of Sovet sanitary organization. Gig. i san. 22 no.10: 9-19 0 '57. (MIRA 10:12) (PUBLIG H"LTH, hist. in Russia)  LNMLFV Principal trends in the future plan of public health development for 1956-1965 In the area of sanitation and epidemiological control. Gig. i san. 23 no-7:9-16 J1 158. (MIRA 12:1) 1. Ix Glavnoy gosudarstvennoy sanitarnoy inspektsii Ministerstva zdravookhraneniya SSSR. (PUBLIC HKALMH in Russia, trends in develop. (Rua))  LEBEDEV, YU. D. , FEH(JTjl:AYA, A. J. , [ALI-MA, L. F. "The Practice of 3anitary Air erotection in the Inaustrial CAUP5 of the U33i." report submitted at the 13th All-Union Congress of ilyi:ieni:;ts, Epiderriolol@-ists and Infectionists, 1959.  =Z7. Yu,D, ------ Curren'; status and immediate problems In the sanitary control of air in Soviet cities. Gig.i. san. 25 no.1:5-11 Ja 160. (MIRA 131-5) 1. Iz Gosudarstvennoy sanitarnoy inspektsii SSSR. WR POLLUTION prevention and control)  red.; PEROTSKAYA, A.S., red.; CHERNAYENKO, T.D., red.; IIOVIKOV, Yu.D., red.; POGOSKDA, MU., tekhn. red. (Hygiene in hospitals and sanatoriums] Gigiena bollnits i sanato- riev. Moskva, Medgiz, 1961. 231 P. (MIRA 14:12) (HOSPITAIS-BYGIEUE) (SAIIATORIUMS-HYGIEI;E)  ,Ep r! Of @-Ct Ve-chaniz I - @ Metallurg 10 (MIRA 18:6) 1. 7avod "Flck'!-@2tnl  LSBEDSV, Yu.I. 70;-lf-3riW, power consumption in moving hydraulic walking excavators. Izv. vys.ucheb.zav.; stroi-. i arkbit. M-5:139-148 -' 58.01IRA 12-1) 1. Novosibirskiy inzhenerno-stroitol'W institut imeni V.V. Kuybysheva. (Excavating machinery)  Yuliy Ivanovich; KULRYAWSEV., Vitaliy Vasillyevich, laureat Sta- linaEo-y--P-r-em-ir,,,I,OSHKOTSKAYA,.M... red*; SELYE, M., tekhn.red. Ne shall surpass the standards of world technology] Pi-evzoidem obraztey mirovoi tekhniki. Moskva, Hosk.rabochii, 196o. 98 p. (MIRA 14:4) 1. Direktor Khotlkovskogo zavoda "Blektroisolit* (for Lebedev). 2. Glavnyy inzhener Khot1kovskogo zavoda 'Alektroizolit* (for Kudryavtsev). (Khot'kovo (Moscow Provinee)--Slactric insulators and insulation) (Socialist competition) NAY  GUSAROV, H.N.. inzh. Prinimali uchastiye: AIMREYEV, V.V., inzh.; R.ABOTNOV, B.A., inzh.; FMOTOV, 1.Ye., inzh., nauchnyy red. BALDIN, V.A., retsenzent; BRODSKIY, A.Ya., kand.taichn.nauk, retsenzent; SAVM.OV, I.G., kand.tekhn.nauk, retsenzent; LEVI, S.S., kand.tekhn.nauk, retsenzent: SOKOLOV, V.S., kand.tekhn. neuk, retsenzent; =F&MV-,-Yu.I-i-. ratnenzent; RAZUXOVA, N.D., inzh., retsenzent; DOLGIKH, V.G., inzh., retBenzent; MAKSIMOV, K.G., red.izd-va; FULIKIBA, Ye.A., tekhn.red. [Provisional instructions on using gamma rays in controlling welded joints of reinforcements In reinforced-concrete con- struction elemental Vremennaie instruktsiia Po kontrollu svarnykh soadinenii armatury zhelezobetonnykh konstraktoii prosvechivaniem gamma-luchami. Leningrad, Gos.izd_vo lit-ry po stroit., arkhit. I stroit.materialem, 1960. 46 p. (MIRA 14:2) 1. Russia (1923- U.S.S.R.) Ministerstvo stroitel'stva elektro- stantsiy. Tekhnioheskoye upravleniye. 2. TSentrallnyy nauchno- iseledovetallakiy inRtitut stroitelinykh konstraktsiy (for Baldin, Brodsk1y). 3. Chlen-korrespondent Akademii stroite'llstva I arkhi- tektury SSSR (for Baldin).4. VNIIOMS (for Savelov, Levi). 5. TSent- ral'naya nauchno-leeledovatellaks;ya laboratoriya Googortekhaadxore (for Sokolov), 6s Zamestitell glavnogo seniternogo inspektora,,Sani- tarnaya inspektoiya SSSR (for Lebedev). ToNIP Ministerstva stroi- tel'stva elektrostantsiy (for Razumova). Treat Sevzopenergo- montazh (for Dolgikh). (Gamma rays--Industrial applications) (Reinforcing bars--Welding)  LEBEDEV, Yuriy Ivanovich, inzh.; KASITSYNA, K.N., inzh., red. [Improving the mechanism nodes of the 'E-801 excavator; ex- perience of L.P.Kurdiukov mechanic of the Trust of the Special State Office for the Mechanization of Construction Work] Usovershenstvovanie uzlov mekhanizmov ekskavatora E-801; opyt L.F.Kurdiukoval mashinista tresta "Stroimekha- nizatsiia. "(Novosibirsk). Moskva., Gosstroiizdat, 1963. 1-1 p. (YJRA 17:6) 1. Moscow. Nauchno-isaledovatellskiy institut organizatsii, mekhanizatsii i tekhnicheskoy pomoshchi stroitellstvu. 2. Starshiy prepodavatell Novosibirskogo inzhenerno-stroitell- nogo instituta im. V.V.K-Lybysheva (for Lebedev).  LEYKIN, I.M.; LEBEDEV, Yu.I. .Investigating converter steel quality. Biul. TSIICIR4 no.3: 40-42 '61- (MIRA 14:129) 1. TSentrallnyy nauchno-issledovatellakiy institut chernoy metallurgii. (Bessemer process) (Steel--Testing)  LEYKIN, I.M.; LEBEDEV, Yli.I.; ANDREYEEV, I.I.; BEDA, N.N.; Prinimali uchas- tiye: LIVSKITS, G.L.; TERENTIEVA, Ya.K.; FILONOV, V.G.; GONCHAROV ) I.A.; NAFTALOVIGH, S.M.; KUPRIKOV, P.Z.; ABKINA, R.I.; ROSHCHINA, A.A.; LUPYAKOV, A.G. Steel of the 18G2-grade. Sbor. trud TS11IICHM no.35:92-101 t63. (MIRA 17:2)  LEBEDEV Yu.M., inzh.@ MELIkIK, S.,12., inzli.: r-UKE1,111,V4, M.L., irizil. Automatic deposition by welding of stainIess or. pearlil-ic steel using two vires. Svaraproizv. no.2-l^i-'-11 F 164- (MIRA 18:1)  @, FUKEL MAN LEBEDEV, Yu.M. (g. Nik---',ayev),- @ELINIK, S.S. (g. Nikolayev); I M.L. (g. Nikola@av) Technology of mechanized hard facing of stainless stael witb two wires. Avtom. svar. 17 no.4s7l-7.4 Ap 164 (MIRA 18:1) t I  la"Im. O.Y. ILIZ To r*p-t sutl4tt*4 f- tb. 5th ftAcal Om&"l C-f-rww* On St-I ProdwUon. MOSCOW lo Jul WA  b6751 s/12o/6o/ooo/oO6/o27@045 E032/E314 AUTHORSa Ignatov, D.V. and.Lebeqey,_Yu.N. TITLE-. UnivArsal Apparatus for the Determination of the Rate of Evaporation and Decomposition of Various Substances in a Vacuum PERIODICAL3 Pribory i tekhnika eksperimenta, 1960, No. 6, PP. 107 - 110 TEXTi A description is given of a universal apparatus (in a glass envelope) which can be used to determine the rate of evaporation and the heat of evaporation of metals and components of alloys in the temperature range 20 - 2 000 OC. It can also be used to 4tudy the kinetics of decomposition of chemical a compounds 9M determine their chemical and phase composition by sublimation and condensation at target in a high vacuum and subsequent analysis of the products by electron diffraction and other methods, The prinUnipal parts of the apparatus are a torsion microbalance evaporator placed in the same vacuum chamber. The frame and the balance beam were made from fused quartz rods 4 and 2 mm in diameter and the restoring and suspension wires were made of tungsten Card 1/6  86751 S/l2o/6o/ooo/oO6/027/045 E032/E314 Universal Apparatus for the Determination of the Rate of Evaporation and Decomposition of Various Substances in a Vacuum (13 11 in diameter). A detailed description of these balances is given by Rodin et al in Refs. I and 2. They are of conventional design, The balance is calibrated by suspending sections of a silver wire of known weight, The evaporator was in the form of the usual Knudsen furnace in the form of a tantalum container whose temperature was measured by a platiniull- platinum/rhodium thermocouple. The furnace was operated undar effusive conditions with an output aperture of 0.3 - 0.5 mm in diameter and a wall thickness of 0.05 mm. The furnace is heated by tungsten spirals. The working temperature could be achieved in about 30 sec after switching on the current and the working vacuum was between 10-6 and 5 x 10-7 mm Hg when the temperature was 1 200 - 1 400 0C. The collimator had an aperture of 15 mm in diameter and was located at 20 mm Card 2/6  86751 s/1-2o/6o/ooo/oo6/02?/045 E032/E314 Universal Apparatus for the Determination of the Rate of E,iaporation and Decomposition of Various Substances in a Vacuum F-om the face of the furnace and at a distance of 5 mm from 7he target, The collimating diaphragm was attached to a massive copper blo,:.k in order to maintain it at a sufficiently lvw temperature, The block was water-cooled., Chemically- active residual gases were removed by passing chemi:ally-pure argon through the apparatus. The beam produced by the Knudsen furnace and collimated by the diaphragm was condensed on a target suspended from the torsion balance. The composition of the condensate was determined by an electron.-diffraction mE"hc4. with the aid of radioactive isotopes and by chemical a-.41ysis, In the case of the electron-diffraction analysis t'i, condensate was removed from the target either by immersion lin water or by dissolving the target, A counter for ref-ording radioactive emissions was also included and could be used to determine the rate of evaporation, The apparatus has been used to determine the rate of evaporation of a number of Card 3/6  86751 S/12o/60/000/006/027/o45 E032/E314 Universal Apparatus for the Determination of the Rate of Evaporation aiad Decorpposition of Various Substances in a Vacuum metals and alloys, The following table gives the data on the vapour pressures and heat of evaporation of erbium) chromiua, a solid solutions of titanium and chromiumg Vapour pressure P, 0 mm Hg Temperature of Evagoration, Cr+0.6 at.% Cr+-1.0 at.% C Er Cr Ti Ti 1100 2.10 1150 2.58 1.41 o.41 0.30 1200 8.69 4.57 2.53 1.61 1250 12.04 13.49 6.39 5.65 13()0 5. IQ :12, 115 2J@7j 13.52 Temp@Frattire of evaporation, kjoules/molm qar,d 4/6 267.7 4o4.9 477.8 499.9  86751 S/l2o/6o/ooo/oo6/027/045 E032/E314 Universal Apparatus for the Determination of the Rate of Evaporation and Decomposition of Various Substances in a Vacuum The tcuperature dependence of the vapour pressure (mm Hg) was found to be given by the following expressionsg Ig p = 11.0 - 21170/T; for Cr; 19 P = 13.28 - 2500/T; for Cr + 0.6 at.% Ti,, Ig p = 13.256- 25200/T; for Cr +- 1.0 at.% T44 ig p = -6.4o - 14000/T; for Er. There are 4 figures, 1 table and 5 Soviet references Card 5/6  86751 S/l2o/6o/ooo/oo6/O27/o41q E032/E3'14 Universal Apparatus for the Determination of the Rate of Evaporation and Decomposition of Various Substances in a Vacuum ASSOCIATION@ Institut metallurgii AN SSSR (Institute of Metallurgy of the AS USSR) SUBMITTED, October 27, 1959 Card 6/6  S/13-(/6z/ooO/oo4/i4i/2o1 AO6Q/A1O1 AUTHORS: Igriatov, D. V., Lebedev, Yu. N, TITLE: Universal installation for the determination of evaporation rates and t-.he, decomposition of various substances In vacuum PERIODICALt Referatimyy zhurnal, Metallurgiya, no. 4, 1962, 93, abstract 111560 (V sb. "Fiz.-Irhim. osnovy proiz-va Moscow, AN S1JSR, 1961, 305 - 310) TEXT: The description is given of an Installation for determining the rates and heats of vaporization of metals and alloy components, and which also enables the investigation of the decomposition kinetics of chemical compounds and the determination of their chemical ard phase compositions. This is done by sublimation and condensation on a target in the interval between 20 and 2,OOOOC at high vacuum with subsequent analysis of the condensation products by electrono- graphic or other methods, by means of radioactive isotopes or chemical analysis. The material under investigation is placed In an evaporator consisting of a Knudsen cell and a heater. The Ynudsen cell is made of a massive tantalum beaker, Card 1/2  Universal installation for... S/137/62/ooo/N4/14i/2o1 AC,60/AIOI and the heater is made in the form of a tungsten cylindrical spiral whose end is fixed by a spring: -this makes it possible to avoid the deformation of -the spiral under heating up to operatIng tei-,)pcratures of 1,400 - 1,7000C. illis way of at- taching the spiral makes it possible to eliminate the ordinarily used ceramic holders. The stream of vapor from the vaporizing substance is shaped by the opening in the Knudsen cell and the collimating diaphrarm, and directed onto the target suspended from one of the ends of the balance arri of a torsion microbalance and condenses upon it. By introducing an active measurement sensor into the in- stallation it is possible to determine simultdneously the vaporization rate of several components of an alloy. 7he results are cited of a number of investiga- tions on the determination of viporization rates of metals and alloys (Er, Cr, solid solutions of Cr and Ti). There are 5 references. "e. Assonova. [Abstracter's note: Complete translation] Card 2/2  LIBIRDEV Reasons for surface and subsoil compaction in the Golodnaya Steppe. Trudy Pochv. inst. 29-223-238 148. (HLRL 10:8) (Golodne,va Steppe--Soil physics)  ROZANOV, A.N.; TMA V, Yu. Effect of irrigation on the level and chemical composition of ground waters of the Golodnaya Steppe. Trudv Pochv. inst. 29: 283-323 148. (MIBA 10:8) (Golodnaya Steppe--Water, Underground) (Golodua.va Steppe--Irrigation farming)  agog*** 00 a 0 00 go 000 0 0@0*-4466W;66.6 *0 go 0000000 4,00 0 0-0-1`10-9119 0 9 0 a* 0 0 0 *0 9 0 * 0 0:000#0000090106 S' 00000 . 00 69 7 1, IT . 14 tl A ! J! j@ Z1 Z4 VApAr. IIQ ALI _ . . -,.L ? I v 1'. A- " "m I[E." . " 00 .1 f. _ - - -1 . . ' 09 00 It It inck;! 00 A C A 011pluthm. V 10.0" _ lfl.@ Jewit winkleit'll IT901- 1049. No. 1. :!@- IA. lvt : 41V.1% Ile V11VAltoltritIf @IIVIIC A lj@%ULI Lind @d -Ium,h.,L 0 let" 4)nK?Iljt" along the ridges of the dtrri-*st-,Y)%. 'Lilts iareas nuy reach its bith as 40'@. As " these -00 00 IT the wifull blo. thr'luMs act-utnulate at the this". f@Ituillg *a 00 m-mJhk@ .4-.-bA to IT---, thew .... --I, 111to'c aw g1-1 .." III,- ...it [it -.1 * 00 1ITT, I,, lKr -, th, mmindi. and ,I the jTr,-mtd mvf@. It I, 00 X. ale'tr that mi'll high a,viismilatimil "I 'III% AFC,I1MW'l. "III- ne 0 g.l.IIi%I,Iv high %"I"r 1.110c, III, - 11, 1, , - 10 0 a@ 1.7d, 31111 g. II lie %Ilt@ ;lie 1,6111,410v 1111"10-4 %'.,. . - * 0 00 . .....IIt i@ J."culat-1 III.,( th, V.&I, 1, .4 .1. 0 -Ih ... ...... .... 0 00 .00 00 00 i-J-1 t so IIF IT. $1 L11-11.f I W.F., IT 0j. `40 '41 '_00 . 0 I Wsi 'i f jI'I v IT It , dA1I 0 6@9 a 0'T 0 0 0 000 go** 0 0age0 0 a0*000 *0000 0090ipsee 00 9 0 S IS 0 0 0 9:; 00000600 000000 00 00 0 "A  Ch C"ification of salty soils. I'll. 11. LCI-lev. P41,24Y A kad. Nauk S.S.S.R. large grour-s are Suggemed: (1) Soil.-I with comparnfivrly fr" WaIrr draifmge. with low degree of mineralin-ition, anot with ito. cumulation of appm. miality twtw"n IICOI ;Ln.1 SO., lx"h Umler than Cl: and (2) -wils with limiird f1r;jinage iii which CI and SO, are equalijM arvi hoth are highrr thmi IICG. A further clasiificatiort by quant. %trp@ ii ako pro. G. M . K@taj@a /Joe  LEBEDEV., Yu. P. Moscow Frovinc- - Soils "Soils of the Serebryanye Prudy district of Moscow erovince." A.A.Lazarev, Reviewed by Yu. P. Lebedev. Fochvovedenie no. 5. lj52. Monthly List of Russian Accessions, Library of Gongress, October 1952. TYNCLASSIFIED.  IJEDEVY YU. P. Alkali Lands Basic means of reclaiming saline soils of the Kara KuL-Bukhara oasis. Pochvovedenie., No. 5, 1952. Monthly List of 'twsian Accessions, Library of Corgress, 'ctober-1952j, UNCLASSIFIED  I_R yo. a at &cc F.Ovas. Pre Jan rody @tfg.Cjfjl, W-es r jbedel --,b S S P VW at -A-W'-jT1:f 00. JADTOZOI. 'r the sea hie-off V V.DAS nial- V -9rXey. cov I loss. Sol. T-he %'Itho" 'Lecatr t a Vi" of the that 0 indicatilig (roh Cr."' .211% - I'he cat nthe 0 " 'on rea from 'e 1411 Sall 10114 stily ueb as W.'123tion Is ST . Ay low sp. 'r@'jav%thoo of of their relatil Ve I-1111ne- Ani typo milich the 0114)cxi , ;1facti. '.j p 4use d WItt"'T'i CM fr1=4itits VrAl I,, VIS f tilt grout, Wine Trimsx,"= to fluffy -10"Ca" (110 L'a Of the h COOtA In 'tn' W'd co%nt biAnOlit - -oAntm w1fatco, t t tes...Me wim "Atc-1 id tile no by of th ier C( u ct with .(OWSILD11011. 'Iccur" -of to psunt - t1lef :sm 'Ll" retat, in Ing dsts Of' I se" Cts W that of t it d21103 C@ltell r. It inflow into qxtea@ e TIV . I It In t C t 'MtIncA CC'tcjI Of 'Unjulation - - - - - LC CCMQ** tbat tile Ihilh SUA'Ate --111, Show @Ihut"totlwf , on the acc ivior Thei con %jot -11 @scntcd -."Iq i@ w-dcf CP ft thl the rOle'O' ta it, review 15 f 'Unts gTO tile an, 'tion on tL tholotli the 0h 0 V I "Ic (At See ialts in the Area of tuc CDnr- calcils- age ra@ *1 in tc""5 Ocw aat2 Uri - I. 'a lao" t- tile '" joiricancC nditions I of OICA 9 j , 1, detail tile @ the are'A' Wille C' tribiltior W4 dr-dill"S con Wtion di uIltion of f I, n The U the %CCU- -tive five', 11.1ha -.'er Wt&s In tile t@ the TV the COMO (olloNjelt by Lion da"' On Im tlcpfv- 0'j AW fie'l4lits (ffitcTillt t' d Wate" in Castilan ( tile groutt tiny Of In* fita the d0l In"Jitntlan 0 f ill, 11C cuson the in win% of ti w - I by a Wte- 0 t folk)'XI: d the Pire"c" 'I 'Over are rofile, UOO gul n thc, sm the 'Ggwiz mIn;pjlza tile salts - @',"jd lit t 11forn then Ila. Ion, depreo  dhcuQ. of Prnce 4m-"iorati.,, jtjMj SI covCrilig th rrig-.1't'loW, "Ilzati'm tjf)fls , - ed to illu.It k. 11 1 5010fletz r4te Ih,- ctn aliff .15 rricl.....s. 1w pre-  FMVU)MIN, B.V., gornyy inzhsner;_,.LEBMV,.",,LUK- , gornyy inzhener. Drifting in the Khaidarkan mines. Gor.zhur. no.5:54-55 My '56. (MIJU 9: 8) (Khaidarkan--Mining engineering)  DMITRIYEV, A.P., kand. tekhn. nauk;,LEBEDEV. Yu.P., gornyy inzh.; SILAI-ITIRZAYEV, Kh.Kh.,, gornv:r :Lnzh. Characteristics of thermal piercing of boreholes in com- plex ore depoSits. Nauch. trudy Mosk. inst. radioelek. i gor. elektromekh. no.47:67-75 163. (MIRA 17:6)  NEDRIGAYLOVY V., inzh.; GIMEYN, S.; LISITSYN, V.; LEBEDEV, Yu.; POGONIN, A.; POTAPOV, P, Technical information. Okhr. truda i sots. strakh. 6 no.7:41-46 il 163. (MIRA 16:10) 1. Starshiy inzh. laboratorii tekhniki bezopasnosti Gosudarstvennogo vsesoyuznogo nauchno-issledovateltskogo tekhnologicheskogo instituta remonta i ekspluatatsii mashinno-traktornogo parka (for Gimeyn). 2. Tekhnicheskiy inspektor Yaroslavskogo soveta professionalInykh soyuzov (for Pctapov).  ACCESSION NR: AP4013292 S/0135/6h/000/002/0017/0021 XUTHORS- Lebedev, Yu. 'el. (Engineer); Nollnik, S. S. (Engineor); Fukellman, 14. L. "(Engineer) ... .... ITLE.- Automatic fusion of stainless steel on pearlite steel using two wire 1actrodes 1 ;SOURCE: Svarochnoye proizvodstvo, no. 2. 1964, 17-21 TOPIC TAGSt steel) stainless steel, earlite steel, fusion, welding, two-vire welding, St.3 low carbon steel, SKIL-E low alloy steel, AK-25 high-strongth steel, I ADS-1000-2 welderp 48-OF-6 flux, Sv-O1ahl9N1W electrode wire., Sv-08Khl'1N9F2S2 electrode wire,, Sv-080205THF electrode wire ABSPRACT: This work i@yas carried out in order to study the automatic deposition of 1 stainless steel on the low-carboki bteel St-3, on low-alloy steel SKIL-11, and on high-strength steel AK-25. The purposes of this study were: 1) to determine the technical conditions which would secure minimum fusion of the basic metal; 2) to obtain the chemical composition of the built-up metal as near as possible to that of the electrode wire; 3) to avoid the formation of the undesirable martensite structures. The automatic welder ADS-1000-2 was adapted for this purpose., and two Card  7 ACCESSION NR: APbO13292 :,wire electrodes were used si,-i;ultaneously to build up the metal (under --he h8-OF-6 flux.). Electrodes made of the following steels were tested: Sv-07KIZN12., oN Sv-04MM]10, Sv-08KIil^ 9F2S2 and Sv-O8Kh25N5TMT,. It was established that the metal with the highest resistance to corrosion was obtained when the combination of the electrodes produced a built-up metal of austonite-ferrite composition with 3-81 of 6-ferrite. In order to av*oid the formation of the martensite structure the' chen.-Lcal.corkoosition of t1-B first few built-up layers should be such that the points plotted for it on the structural diagram shown in Fig. 1 of &closure would lie to ihe right of-the SK line. Orig. art. has3 3 tables., 8 figures., And 2 lormulas. ASSOMMOli: none SUBMTEl): 00 DATE ACQi 26Feb64 ENCLt 01 SUB. CODE: M NO REF SOVt 005 OTHERs 000 Cord P@@_,RR T-M@_@  LEBEDEV, Yu.s. LLobediev. IU.S.] Serpontinites inIhe central Bug Valley. Nauk.zap.Kyiv.un. 16 no.14:163-169 157. (MI-Hh- 13:4) (Bug Valley-Serpontinite)  , LEBEDEV. Yu.5. [Lebediov, IU.S.) Ultrabasic belt of the central Bug Valley. Visnyk K7iv.un.Ser. geol.ta georg. no-1:23-30 158. (AIRA 12:10) (Bug Valley-Rocks, Igneous)  LEBEDW., Tu.S. [Lebediev, IU.S.] Alkaline chlorita of the Bug region. Dop. AN URSR no.9:984-987 1 58. (WIRA 11:11) 1. Institut minerallnykb resursov AN USSR. Predetavil akademik AN USSR II.P.Semenenko [M.P.Semonenkol. (Bug Valley--Chlorit(s)  A UTHOR: Lebedev. lu-3- - SOV-21-58-9-18/29 TITLE: On Alkaline C@-lorites of the Bug "legion @O shcneloc--no= 'Crls- rite Pobuzhlya) PERIODICAL: Dopovidi Akademii nauk Ukrainslkoi RSR, 1958, Nr Q, PP 984 - 987 (USSR) ABSTRACT: Among the crystalline rocks of the hyperbasitic zone in the Middle Bug area, the author discovered vein-like formations of a chlorite mineral. Its c-,emical analysis was nerformed by Analyst T.M. Nazarchuk in the Institute of General and Inorganic Chemistry of the AS UkrSSR and roentgenometric ana- lysis was carried out by the author. The results of micro- scopic, thermographic, roentgenometric, chemical and other studies identified this alkaline chlorite as a chlorite of the serpentine series. The author advances a *1,ypothesis that these chlorites were formed by sedimentation from late Card 112 or post-magmatic soliitions genetically related to the magma  On Alkaline Chlorites of the Bu7 Region S-_*V-21 -5e-0- -. :: /2):z of ultrabasic intrusions. There are 2 tables, I grap@ and 4 references, 3 of which are Soviet and I American, ASSOCIATION: Institut mineralinykh resursov A@'i Ukrz:'I3'-, '.Trqtjtj,,t of e eral Resources of the A3 UkrS3R) PRESENTED: By Member of the AS 'JkrS,")R, N.P. Semenenko SUBiMITTED: April 7, 1956 NOTE: Russian title and Russian names of individuals and institu- tions appearing in this article have been used in the trans- literation 1, Minerals--USSR 2 Minerals--Analysis 3 . Minerals --Sources Card 2/2  AUTHOR: -Lebedev, Yu. S. SOV/21-58-10-15/27 TITLE: Nickel Hydrochlorite from the Wi?athering Crust of the 3ug Area Hyperbasites (Nikelevyy gidrokhlorit kory vyvetri- vaniya giperbazitov Pobuzhlya) PERIODICAL: Dopovidi Akademii nauk Ukrains1koi RSR, 1958, Nr 10, pp 1091 - 1094 (USSR) ABSTRACTi.- Hydrochlorites are widespread among the weathering products of the ultra basic rocks in the Middle Bug area. They were chemically analyzed by T.M. Nazarchuk in the Institut obshchey i neorganicheskoy khimii (Institute of General and Inorganic Chemistry) of the AS UkrSSR. On the basis of this chemical and also microscopic, thermographic, roentgenographic and other analyses these minerals were identified as nickel hydrochlorite. Its formation, as shown by geological and mineralogical investigationsp was established as resulting from the primary magmatic horn- blends, chlorite and phlogopite due to the processes of Card 1/2 hydration, desalination, oxidation and chemosorption.  SOV/21-56-10-15/27 VickelHydrochlorite from the iYeathering Crust of the Bug Area Hyperbasites The high nickel content is a result of its chemosorption in the process of hydrochlorite formation. There are 2 tables and 7 6oviet references. ASSOCIATION: Institut minerallnykh resursov AN UkrSSR (Institute of Mine- ral Resources of the AS UkrSSR) PRESENTED: By Member of the AS UkrSSR, N.P. Semenenko SUBMITTED: April 8, 1956 NOTE: Russian title and Russian names of individuals and insti- tutions appearing in this article have been used in the transliteration. 1. Geology--TJSSR 2. Rock--Properties 3. Rock--Analysis 4. Minerals--Determination Card 2/2  YURK, Yu.Yu.; SE2=OV. Ye.F.: LEBEDEV, Tu.S.: KIRICBENKO, U.N.; 5EMMETKO, N.P., ak8demik, otv.ria_.7-_rSUOVA, N.I., takhn.rad. (Mineralogy of iron ore formation in the Kerch Basin] Hincralogiia zholo2orudnoi formtaii Kerchenskogo basoeina. Simferopol', Krym- izdat, 1960. 449 p. (MIRA 13:12) 1. AN USSR (for Samenenko). (Azov See region--Iron ores)  LEBEDEV., Yu.S. (Lebediev, IU.S.] Ultrabasites containing amp2-Ul;,oles in the southwestern margin of the Ukrainian Crystallint;@ Shleld. Trudy Inst.min.resur. AN URSR no.2:12-22 160. (MIRA 15:5) (Dnieper Valley--Ultrabasite) (Dnieper Valley-Amphibole)  IZBEDEV, Yu.S, (Lebediev., IU.S.] Weathered crust of ultrabasic rocks Geol. zhur. 20 no. 4:25-34 160. (Bug Valley-Rocks, Igneous) in the middle Bug Valley. (MMA 14--4) (Weathering)  LEBEDEV. Yu.S. Recent data on the age of ultrabasic rocks in the south of' the Ukrainian crystalline shield. Dokl. All SSSR 141 no.6:1438-1"C D 61. (KIRA 14:121) 1. Institut rninerallnykh resursov AN USSR. Predstavleno akademikom D.I.Shcherbakovym. (Southern Bug Valley-Rocks, Igneous)  TAR EV, Yu.S. [Lebediev., IU.S.] Hydrochlorites from the Komysh-BurunBkoye brown ore deposit. Ma-u.z min.Ukr. no.2:49-61 161. OMIRA 15:8) (Kerch PeninsulaChlorites) . . . - @ - %11@ - .. I- I -.- @  LEBEDEV, TU.S. X-ray analysis of main rock-forming silicates in the Kamysh-Burun iron ore deposit (Crimea). Rent.min.syr. no.1:39-46 162. (MIRA 16:3) 1. Institut mineralInykh resurBOV AN UkrSSR. (Kerch Peninsula-'Silicates--Analysis) (X-ray crystallography)  IZBLDEV, Yu.S. Weathering surface of ultrabasic rocks in the sr.;utherv rarF:in of the Ukrainian Qrystalline Shield. Sob.geol. 6 no.4:121-12-3 Ap 16-36 041EA 16v, J' 1. Institut mineralInykh resursov AN UkrSSR. (Dnieper V&Iley-Ultrabasite) (Dnieper Valley-Weathering)  KORSUN07SM9 G.A.; LEBEDTIj YU.B. (Leningrad) Effect of isome physicochamical factors on the photochemical formation of hydrogen peroxide on zinc oxide. Zhur. fiz. khim. 35 no.5:1078-1085 YV 161. (MM 3.6:7) (Hydrogen peroxide) (Photochemistry)  LEBEDEV, Yu.S. Qhromium-coritaining montMorillonites from the weathering #urface of ultrabasic rocks in the Southern Bug basin. Zap. Ukr. otd. Min. ob-va Ino.l]:46-53 162. (I-IMA 1-6.8) 1. Institut minera-Ilwykh resursov AN UkrSSR, Simferopol?.  YURKY Yu.Yu.; KORNIIOV, N.A.; KIRICHENKO, O.N.; LEBEDEV, Yu.S. Outlines of the C-4=erian iron ore basin in the southern part the U.S.S.R. Dokl. AN SSSR. 154 no.2:355-358 Ja164. (MIRA 17:2) 1. Institut mineralInykh resursov AN UkrSSR. Predstavleno akademikom D.I. Shcherbakovym.  TEBEDEV, Yuriy Sergeyevirh; LE,31EL'ANSKLY, V.I., ':(an,i, __=t,ner-.-'-nauk- otv -red.; MELINIK, A.F q .9 re@, . (Mineralogy and genesis of tlie weath-@riw@ surface of ultra-- basites in the middle Bug Vuldleyj Nineralogila i genezis kc)- -y 0a -1 - 1) -plvetrivaniia giper'- zit-v Srednego lobuzhlia. Kie-,,, @ Naukova dumka. 1965. 80 r. (MULA 18.4@  LEBEDEV, Yu.S. [Lebediev, M.S.) Tobacco color clays of the Kerch deposits. Dop. All URSR no.7:934, 938 165. (MERA 18-8) 1. Institut mineralInykh resursov Gosudarstvennogo geologicheskogo komiteta SSSR.  @ - L%BIDMVJ--@----' @ . Attention, lightning speaking. On. tekh. 2 no.9:49-51 S '57. (Lightning) (Radio meteorology) (MLRA 10:9)  USSR/Chemistry - Uracile, Thio- Feb 48 Chemistry - Analysis, Quantitative *Method for Quantitative Analysis of Thizaracile,," Z. I. Ubeder, All-Union Sci Res Chemloophar Inst imeni S. Ordzhoalkidze, 1 3/4 pp "Mad Prom. SSSR" No 2 PA 13/49T16 Thiouracile is used in treatment of Basedow's disease. labedev describes tvo methods of determining It. 13/4016 0 0 0 0 a a a a a a a a a 0  Oll 00 0 0101WV4 07 , I I it 11 11 4 is 4 ly 's A 11 n a 34 n M V 34 @ A A L-J_A- x A -A" X W.4 4f A Met-P~ moimktft d vdth "Illisti" hc& T " o WOW. Skb. . A. M. No. 2, pp. 4-19. IM. Atwr. in Wkvkjj EArr. 20, PP. 396-307. Aw.. 1943-A report on on c%ticArnewal Imestisalm 0(4 4-41ap mmtuww4 dm-wi twh an output of 14 M Ewh Oslo WWIOYW 2 in PUSIHAM am the Mannen" of the valvcs -cm -c- hassled. The neg. feed-beck voltage was taken offthe pdmary of the mMulation tratutonner and apptiw Itwough a phaw-compenzating nelvicuk to the wcondavy of the input tramformcf. Pic theory of the cirkmit k diwnscd and a number Of CAP- (Urivl are dwown. L ACTALLUNGICAL UICIATtAff CLAWFICATFON i: : 0 0 111 0 0 0 410 It &Z U bc IS Is v al a L a I- lk 41 ts III, am* _]U 00 Ass 0 --so ass zoo 000 go* Z*41 Is* cz- use it Q., it, M A I An I I it ad a it a 'I a -j is a 3 a 1 '1 - 0 of IT ft it ce it K If 91 w of (t It 0 9 0 41 6 0 0 10 41 4141111 *T0,94 : : : : 0 0 0 *ts, 9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0  IEB'3DEV-XARM,OV, A. I. Some design probleing or it ruodern i1jah leveLM4110 _1f J1 J1 -1di -Wil rtfHAPmsmly. A--L.IANtY. P Roia k. M. ,,e ... .. 2 (Na@ 3) 3-17 t 947) in A general account of design and operational expcrier@ts Ofhlgh level sys(cmi with a largearnount ofdcgcner,11i6q. Methods ur suppression of parasitic clyrintron-mod oscillations, more economical sub-modulators, use '.@ , phase-compensa. t Ion networks with sub-modulation finnsrortners are described, and improvements due to regitive reedback application, particularly in hum and  PIMSON, Solomon Vmniariinovich [deceased); LEBMV-KARMAI@D 4LJ@PAJ.Vanovich; KWSKELEVICH, Viktor Abramovich; -om--IGHN, redaktor; DIKAREVA, A.I., redaktor; KORUZRV, N.N., tekhnicheskly redaktor. [Theory and design of amplitude and modulation generator tubes; experience in developing A.I.Barg'B method] Teoriia i raschat amplitudno-modulirovannykh lampovykh generatorov; opyt ras7itiia metoda A.I.Berga. Pod red. I.N.Fomicheva. Moskva, Izd-vo "Sovetskoe radio, *" 1955. 507 P. [Microfilm] (MLRA 9:1) (Electron tubes)  ISR/Electronics -'Radio stations U SE Caw 1/1 Pub. 133 -@3/19 .Authors I Lebedev-Kq:manov, A. I. Title I VHP F11 radio.broadeasting station for two-program local broadcast P@riodical Vest. svyazi 6 1- 3 6, June 1955 Abetract i A description of an URF FM radio broadcasting station for a two-prograin local broadcast is given, together with technical specifications of the component parts and equipment. The station is produced entirely by do-- mastic industry. In addition, some information conceniing future trends in development and improvement of the above mentioned station, is pre- sented. Diagrams; illustrations, Institution Submitted Al  LEBEDEV-KARl-MOV, A. I. A. I. Lebedev-Karmanov, "Modern USW television radio Ltations (Certain development tendencies and constructional peculiarities).11 Scientific Session Devoted to "Raji-40 Day", MM 1958, Trudrezervizdat, Moscow, 9 SOP 58. Modern power television stations of bhe meter band are analyzed; special attention is paid here to television transmitters. Basic recent tendencies in the development of the technique of this kind of equipment are established and analyzed. A characteristic of domestic and foreign achievements is given relative to the size and energy indices of television stations. Conisderations are expressed on the principles of the most rational construction of power scales of transmitters.  507/142-58-4-29/30 TITLEt All-UnLon Session Marking *Radio Day- (V3030yUlmay, mauchnayA ssssIya,pcavy&3hchsnnwy& ftDcyu Hadjor) PERIODICALs IzvestLya vysahikh uchobnykh zavedeniy - Badloteldmika, 1958, Wr 4, pp 517-521 (USSR) 11STRACT, During the 12-17, 1,358. an All-Union jeriod Kay 83*Lon wax hold In Moscow devoted to " , Radio Day*. It was organiz;tA. by the Scientific Tech- mi cal A.S.Popov Association for Radlo-Engineering and '_U U El wctro@Cammiunlcatlonz. 280 papers were read at the so" Jun, 25 In the rLeld of information theory and nor* than 20 In the field or electronics, dealing with theoretical/*xperizental research on electronic equip- sent. V.1.8 ke on -The Transal3sion Capacity 2@ @ C of SLrS!.L-!My and 112tol-Ray Communicatto *nals.. L.1 Fll1ppov looked at the potential Interference resistance of an Ideal radio receiver. D.4LJg_ylX Card 117 stake on *The Tran2mlssion Svst@ of Flag'irlo lii-l, and B.S.Pleyshman discussed "The Use Or-Ut-e-succ.-S35. Equipment for Determining Weak Signals In Raise*, Lnd_"XELrk_ex*=Ized -The Potential Interference Resistance in a Non-DefInite Signal Phase-. T.A.Uxhlrin and "M=Lava discussed -ho Optimal of the Tele-meastLring System with regard to Interrorence Resistance-. B.S.Floyah:Un spoke on the question at creating an optimal cod. - in the Shannon conception - In the case of a binary symmetrical canal. L.t.Aarodlz discux%ed -rho Method of Crtating Several -Codes with a Simple Base-. In the field of electronics, P.A.Tarasov spoke an sBroad Hand Electron Ptsy Tubes ror .-Ub1:WrTatTDTT-1ftd Recording of Electric Impulses and Ultra-High Frequencies" and _V,..P.Radchenkp__ex&m1ned the question or the rractical utilliz-alfo-not tubes with a cathode not. F.Semenov, T-P- tpn@v, N.X.Sb_1tzQ*& and A,S.Bondarev exam @eff- -Use of the Fadictondo with a Ri Sh OF@-70ed-for EzanLning Elec tromagietic field* Card 2/7 In resonators and wave guldWl ec t Ion of 03clilatory Xnerj_y-bT-&_n_T1octroaIc Current, Modulated According to Density-. M.B.Golant discussed a negative clystron with a wide range of electron adjustment. S.I.Bycbkov explained the phenomenon of electron displacement and Saw* an approximate description of the frequency cb,axactoristics or the magnetrcn under ccnditiona or ,ko spoke high amplitude oscillations. J_L@TqLqshc11n 11-feal an 'The Influence of Various Factors on a Cr MaCnatte Muenetron Field witht a Grid.. r" btatri 3" an )J."Atushkina and Z,I-ILad4l' discusscd "Bridge Methods of C6mbTnTr.-g- the Outpl,ts of Sa-r;@. Generators-. Uz11.&_V "ALlh-V I 11 spoke or. -The -Ineory of Non-Linvar'Oscillat... I.Adlo Ingingering". -z@-! _- 'LY._&.K%rA=or and spok. on The E.1ec%.r--4nctIc RAdl4tlOn TA_Z;jiijm3 rot Con the ThtOrY of RecIprocity Ln Ule Ultra' ditloned by a, 111,h FroquEncy Bang  AUTHOR: Lebedev-Karmanov, A.I. SOV/106-58-10-5/13 TITLE: 'Zo-rn-m,--,o-r-ar-y-r-e-l-e-Vi~ton-Radio-S-Uati-ons (Sovremennye Uelevizionyye radiostantsii) PERIODICAL: Blelctrosvaz'7 1958, Nr 10, Pp 32 - 37 (USSR) ABSTRACT: This article is a review of modern techniques a_j]@li@-abie to television broadcasting stations operating in the metria wave-length band and under conditions such as exis-!@ -'-n the USSR. The article is mainly concernpd with ti-Se vision transmitter techniques and de'velo-mcnts con:@-,-_-ning the reMaining parts of the aqui--ment tsound transF_-,itt-ers., antenna-feeder systems, etc@ are only brie-11v rient.`.oned. The basic trends in various countries (GerM@Lny, USA, u 1) Britain) and in various forms are; @c desi'ira t".19 equipment so that the continual presence of staff @Is u unnecessary; 2) To design the apparatus so that it is suitable for both black-white and also coloured trans- mission; 3) Reduction in the size and-weight of the equipment and also a reduction in the total polver c-.ons--')np-'- Card 1/3 tion; 5) Standardization of the main elements. To meet these conditions, ruggedised components with a reliablc- I  Contem,@orary Television Radio-Stations SOV/106-58-10-5/13 long-working life should be used and, if necessary, under- run, A reserve of "hot" essential equipment should be provided, or the transmitter should be able to operate at reduced nower if some stages become faulty. The output of several transmitters can be "added" so that if one fails5 the station will still function, albeit at lower @,ower. Provision of standby equipment increases the volume of the equipment and its total power requirements. The factors which determine the quality of television transmitters arg: 1) Carrier stability which should be (1-5 - 2-5) in 10 i 2) The level of noise in the transmitter should be riot worse than 40-50 db; 3) The differential coefficient of the non-linearities of the transmitter path between the black and white fields should not exceed 0.1 - 0.2; 4) Inequality in the delay of the transmitter path should not exceed 0.05-0.1 microseconds for the middle and high video-frequencies, and "false" signals (feeder echoes) Card 2/3  Contemporary Television Radio-6'31tations BOV/106-58-10-5/13 should be reduced to negligible levels; 5) The signal to noise ratio of the sound channel should be at least 60 dbs. The author then briefly describes the steps taken in USSR, U6Aj UK and Germany to neet these requirements. There are 1 illustration and 8 references, of which 1 is Soviet. SUBMITTED; June 10, 1958 Card 3/3  AUTHOR: Lebe x,. I SOV/106-58-11-5/12 .TITLE: Particular Constructianal Features of Contemporary Television Transmitters (Osobennosti postroyeniya sovremennykh televizionnykh peredatchikov). PERIODICAL: Elektrosvyazl, 1958, Nr.11, pp.36-44 (USSR) ABSTRACT: The topics are considered under four headings. 1. Adding the powers of television transmitters. Two specific problems are considered which concern picture transmitters: systems of automatic phasing at high- frequency; phasing systems at video-frequency. Where a reasonable warm-up time may be allowed and skilled personnel are in attendance, phasing presents no problem (Ref.1). With unattended transmitters some form of detector must be provided. Peak detectors may be used or those which operate at a limiting level well below 'peak-white. The best method uses a phase-detector since the index of parasitic phase-mcdulation from each transmitter is then extremely small. When the powers from two transmitters Card 1/7 are added image distortion may result if the group-delays  SOV/106-58-11-5/12 Particular Constructional Features of Contemporary Television Transmitters. in the two channels are not similar and it may be necessary to include an artificial delay-line. Fig.1 is a block-schematic which incorporates most of the features common to present practice. Although it is, e.g., American practice to feed both transmitters from a common power supply, it is Soviet practice to provide individual supplies. This point is considered again in the last section, on power-scales. 2. Construction of U.S.W. television transmitters with specially-high-efficiency tetrodes. In the imme4late post-war decade the use of power triodes in eommon-grid connection was popular since stable working could easily be guaranteed and amplification of modulated oscillations was possible (Ref.2). However, circuit damping was usually excessive and drive powers rather high. At the present time, in the Soviet Union and abroad, beam-power tetrodes are available for the 200-250 and even the 900-1000 Mels ranges which can produce oscillatory powers Card 2/7 of 30 M These may have slopes of 40-60 and even  Particular Constructional Features of Contempo SOV/106-58-11-5/12 Transmitters. rary Television 75-90 mA/V and. power gains of B-10 up to 30-50, over a band of 6.75 Mc/s. Modulation problems which arise when using these hig.@I_efficiency valves have been overcome, in Britain e.g., by the use of shunt-regulated amplifiers (Ref.3). Low-level modulation circuits usually require a large number of broad-band amplifiers and skilled personnel in attendance. Fig.2 shows a compromise arrangement where modulation is effected ats. medium level of about'100 W. 3. Some methods of raisIng the quality of transmission of television signals. (a) Pre-correction of distortion. Pre-correction for the phase distortion in the transmitter, and in many cases, of the distortion in the average receiver is achieved at video frequency at the input to the moduiator. The corrector usually takes the form of an all-pass circuit, either a symmetrical lattice or, more often, a bridged-T. Non-linearity in the transmitter is often allowed for by a pulse-stretching circuit which gives a constant gain for signals up to picture level and a rapidly Card 3/7 increasing gain above this level. (b) Arrangement for  SOV/106-58-11-5/12 Particular Constructional Features of Contemporary Television Transmitters. stabilising the white level in the transmitted signal. 'The Soviet standards demand that the white level constitute 12#5,t 2.5% of peak. Overmodulation can be due to a reduction in h.fo excitation to the modulator, a change of the input bias, i.e. the effective working point, an increase in the peak-to-peak swing of the video signal at the output of the l.f. amplifier and so on. Fig.3 shows the block diagram of a suitable circuit in which the video input to the modulator Is reduced as soon as the relative level of modulated output exceeds a prescribed amount. (e) A system of black-level negative feedback for reduaing parasitic amplitude modulation. It is possible to reduce the spurious background level in a transmission by 10-20 db. A whole series of circuits have been proposed. Many of these are unstable. The arrangement of Fig.4 gives adequate performance. The total output signal fror@ the transmitter is detected, limited and amplified in a d.e. amplifier. The output from the latter Is used as a Card 4/7 reference voltage for the d.c. restorer circuit.  SOV/106-68-11-6/1;e Particular Constructional Features of Contemporary Television Transmitters. (d) Methods of reducing spurious image signals caused by supplementary tuned circuits. Unless the feeder-aerial system is extremely well-matched, e.g. in some cases better than 0.98 v.s.w.r., then the presence of echoes may give rise to spuricas images. A method of pro-correction at video-frequency is mentioned in Ref.5. The most success- ful development to date however is that which has taken place in the USSR. A poly-phase final stage is connected to the aerial by means of a bridge-circuit. if echoes arise in the feeder system they are absorbed in the ballast resistance of the bridge and not returned to the amplifiers. This method is particularly suitable in power-adding systems. 4. Preferred power scales. In the USSR where television equipment is mass-produced there is a distinct practical advantage in establishing a rational scale of preferred transmitter powers. Two kinds of' station are envisaged: lower power stations for the majority of applications, and Card 5/7 high-power stations for important centres. In order to  SOV/106-58-11-5/12 Particular Constructional Features of Contemporary Television Transmitters. make best use of the principles of power addition the recommended block diagrams would be based on the use of powers which are one-half of the required values. The ratio between the greatest and the commonest power would be dictated by the power gain which could be most conveniently obtained in a modern tetrode stage. Fig-5 shows 4 different arrangements using 7 basic numbered elements. 1 is an exciter, 2 is a high-level modulator of Power Pi/2, 3 represents the power-supply, cooling arrangement etc. for 2, 4 is a combining circuit for adding together the powers of two 21s, 5 is a power- amplifying stage producing P2/2, 6 is the power-supply, cooling arrangement, etc. for b, 7 is the combiner for 2 P2/2 stages. Blocks 1, 3 and 6 are similar for different wavelength ranges. In accordance with Soviet practice the sound transmitter would have an output between F1/4 and P1/2. There are 5 figures and 6 references, of which Card 6/7 3 are Soviet, 2 Engl&Ah and 1 French.  SOV/106-58-11-5/12 '. Particular Constructional Features of Contemporary Television Transmitters. SUBMITTED: June 10, 1958. Card 7/7  LEBEDEV-KARMANOV A.I., kand, tekhri. nauk, ot@,, red., SALINIKOVA, T.f.', ized.; RUMANOVA, S.,F, tekhn, red, (Modern radio transmitting equipment for radio and televizion broadcasting on ultrashort waves] Sovremennoe radioperedaiu- shchee oborudovanie dlia radio i televizionnogo veshchaniia na ulltrakorotkikh volnakh. Mosk-.rn, Sviazlizdat, 1963. 200 p. (MIRA 16:9.) (Radio--Equipment and supplies) (Television-Equipment and supplies)  LEBEDEV-XARMANOV, A.I. Operation of the anode circuit of the output stage of an amplifier of modulated oscillations of a television shortwave radio trans- mitter. Radiotekhnika 18 no.3:42-53 Mr 163. (MRA 16:3) 5 1. Deystkitelinyy chlen Nauchno-t@ikhnicheskogo obshchestva radiotekhniki i elektrosvyazi imeni Popova. (Television) (Radio, Shortwave)  E a, I) E -K fi modulated r EL!3 i t r -a r. s t e 3 Flektrosviazl  EDEV-KRASIN, Yu.M. - W, _71- t -, - Accelerating vfOidbera of the proton synchrotron and basic problems in itIL high-frequency current. Radiotelch. i elektron. i no-7:940- 953 J '56. (14LRA 10:1) (Synchrotron)  AUTHOR: Lobedev-Krasin, Yu - M. j Regm1ar member of 106-9-5/11 the Society. TITLE A. New Type of Broad Band Transformers (Shirokopolosnyye transformatory novogo tipa) PERIODICAL: Radiotekhnika, 1957, Vol- 12, Nr 9, PP- 38-46 (USSR) ABSTRACT: Transformers are described which are characterized by the fact that their windings have the form of single torus-like (cy- lindric ring) coils which are enclosed in the spatial spires. These transformers work efficiently in the frequency range of 103 up to 108 cycles as well as in devices which are in- tended for a simultaneous transmission of signals with broad frequency spectrum and in resonance amplifiers with a tuning frequency controllable in wide ranges. In the last case the transformer for this especially purpose 6oAstructed is used simultaneously as induction variation for the resonance frequency of a circuit with electronic control. The equivalent scheme of the transformer is given, the factors investigated which influence the dispersion of the transformer windings and Card 1/2 the construction af the transformer described. It is shwon  A New Type of Broad Band Transformers. 108-9-5/11 that this n(iw type has good electric data and a rather universal basis. The constructions developed on this basis have in praxis proved to be good. There are 9 figures, I table, and 2 Slavic references. ASSOCIATION: Nauchno-tekhnicheskoye obahchestvo radiotekhniki i elektrosvyazi im. A. 8 , Popova SUftTMD: April'26, 1957. AVAIUME so Library of Congress Card 2/2  I! C;" h 8 s/i2o/62/000/004/016/047 El92/E382 AUTHORS: I 1=dev---".rasin. Gutner, B.M., Pisarevskiy, V.Ye., S., B@ .9h, L. Z. a Kuryshev, V.S. and 1-ioiseyev, A.I. TITLE: The accelerating clot-,ients of the proton synchrotron - and the system of their high-frequency feed PERIODICAL: Pribory i tekhnika eksp-crimenta, no. 4, 1962, 94 - 97 TELICT: The description, principal characteristics and the results of the control of the h.f. accelerating systei:i* of the 7 GeV proton cyclotron are reported. The acceleratin,@ clements are in the form of drift tubes situated in 11 coiiiipansatinm magnets. Each of the 11 electrodes is fed 'from a separate system of high-frequency amplifiers consisting of a 7-sta@@-e wideband amplifier and an automatically-tuned resonance output ai,.ipllf i er. The inductances of the resonant circuit in the output stages are in the form of coils fit-.ed ifit-h ferrite cores. The amplitude of the high-frequency field of each accelerating electrode is 2.5 kV + 100% over the frequency ranZe of Card 1/2  MR S/12o/62/ooo/oo4/ol6/o47 Tile acceleratinf@ elements .... E192/13332 0.65 - 8.5 Mc/s. The phase-shift beti.,reen the output voltages of any two channels is less than 30 0- The overall power used by tile supply system is 400 kVA. 3y using tuned amplifiers in the output sta.(res the power consumption was reduced by about 50 titzies, as cot,.ipared with a non-tuned amplffier. There are It figures. SUBMI'I'f ED: March 29, 1962 Card 2/2  LEMDEV. -hRA31N, YTJ.M* L0738 S/120/62/000/004/003/047 9140/E420 AUT11ORS: Pubchin5kiy, S.M., Satskikh, G.r., Vaoil'yev, A.A. Vodoplyanov, F.A., Gutner,.-D.M.-,_Kuz'min, A.A., Kuz'min, V.F., Lebodev-Kranin Yu.M., Uvarov, V.A. TITLE: The electronic system of the 7.Gov proton synchrotron PERIODICAL: Pribory i tekhniRa eksperimenta,7no.4, 1962, 20-26 TEXT: The article surveys the electronic system of the 7 Gcv proton synchrotron, the individual parts of which are described in individual articles in the same number of the journal. Tile electronic circuits control the continuous increase of the energy of the accelerated particles. For the chamber aperture. used in the apparatus, the deviation of the momentum from the equilibrium value cannot exceed + 5 X 10-3. Th. instantaneous values of H must be held to with@in io-3 at the start (f . 0.67 llfc."'%) and ' 5 x 10-5 at the end of the acceleration cycle (f - 8.31 Mc/s). The synchrotron frequency varies from 3600 to 130 c/o. To keep the oscillations of phase with passage through resonance less than the adiabatic damping of these oscillations, the harmonic frequency modulation of the accelerating potential by the synchrotron frequency should not exceed 0.5 c/o and the harmonic amplitude Card 1/3  S/120/62/000/004/003/047 The electronic system of ... E140/Z420 of the modulation at the same frequencies should be less than 2 x lo-4 ilt the start and 5 x 10-3 at the end of the cycle. The 5pectral iensity of noise modulation should be of the order of 2 x io-3 cs2/cs. The precision of me suring H at the instant of injection was prescribed as 3 x IOT These requirements are met by A programmed frequency control with correction for the radial and phasoogositions of the beam, calculated for beam intonsit;tes of I to 1012 particles. The beam measuring system consists of a precise discrete integrator and a meter for the initial level of the magnetic field intensity. Special equipment is required for the automatic measurement of the instantaneous values of frequency and field intensity, the measurement of micromodulation of the frequency and amplitude of tho accolorating potential, variations of beam intensity over the acceleration cycle, the azimuthal distribution of particle density in the bunch,and the position of the bonm in the vacuum chamber. An overall block diagram of the system is given and also num-ary descriptions of the systems for generating the accelerating field, the acceleration control and the meneuring equipment. The Card 2/3  s/l.,0/62/000/004/003/o47 The electronic system of ... E140A3420 particles are accelerated at the seventh harmonic of-their frequency of revolution - in the band from 0,67 to 8.31 Mc/s, The energy increase is 11.3 keV per revolution. The accelerating elements are 2.4 m drift tubes located in 1:1 compensating electromagnets. The transit angle in each tube is about 25* and the ratio of accelerating potential to the potential across the tube is about 0.43. The system enBure's a phase oscillation of the beam below 0.05 r and -)tabilizes the radial position to within , I mm. Thero in I figuro. ASSOCIATION: Radiotelthnicheskiy institut GKAE Oadio Engineering Institute GXAE) SUBMITTED: April 23, 1962 Card 3/3  KOMAROV, V.L., akademik, redaktor; BAYKOV, A.A., skademik. redaktor; VOLGIN. Y.P., akademik. redaktor; OWSLI, L.A., akademik, akademik- Bekretar', redaktor; BRUYNVICH, Y.G., sk-ademik, redaktor; DEBORIN, A.M., akademik, redaktor; MITIN, M.B., akaemik, rectaktor; L7.MZV- POLYAIISKIY 'P I redaktor; YUDIN, P.F., redaktor [Central meeting of the Academy of Sciences of the U.S.S.R., October 14-17, 1944; in honor of the President of the Academy, Academician Y.L.Komarov, in connection with his 75th birthday and the 50th anni- versary of his scientific activity) Obshchee Bobrania Akademii nauk SSSR, 14-17 oktiabria 1944 gods; posviashchennoe chestvovantiu pr6zedenta Akademii nauk SSSR akademika V.L.Komarova, v Bviazi a 75-leniem so dnia rozhdeniia i 50-lattem nauchnol deiatellaosti. Moskva, 1945. 260 p. (MLRA 9:11) 1. Prezident Akademii nauk SSSR (for Komarov). 2. Vitae-prezident Akademii nauk 353R (for Baykov, Bolgin, Orbeli). 3. Chlen- korrespondent Akademii nauk SSSR (for Lebodev-Polyanskiyl, Yudin) 4. Akademiya nauk SSSR. (Komarov, Vladimir Leontlevich, 1869-1945)  LEBEDEV_TSVET.KOV,._Yu_D.--_ Repair work at the Subaqueous part of the siphon cr3ss@n@,- of a gas pipeline. Gaz. prom. 6 no.11:46-48 '61. OKERA 15:1) (Gas, Natural--Pipelines)  ANDREYEV, German Sergeyevich; KHORIKOV, A.I., red.; BARMIN, S.F., nauchn. red.; LEBEDEV-T.SVETKOV__7u.Yu., red.; MITWFANOV, I.A., red.; NECRAYEV, M.A., red.; RUSAKOVA, L.Ya., ved. red.; YASHCHURZHIIZKAYA, A.B., tekhn.red. [Firing-line method on main gas pipes] Vedenie ognevykh ra- bot na magistrallnom gazoprovode. Leningrad, Gostoptekhiz- dat, 1963. 110 p. (MIRA 16:10) (Gas, Natural--Pipelines)  LEBEDEV@-TSVETKOV, Yuriy DmitriyeNrich; VASIL'YEV, P.D., nauchn. red.; RUSAKOVA, L.Ya., ved. red.; DEI,11YANENIKO, V.I., tekh:n. red. (Designs of the equipment and operating conditions of gas turbine compressor stations] Konstruktsii oborudovaniia. i rabochie protsessy gazoturbinrjykh kompresaornykh stantsii. Leningrad, Gostoptekhizdat, 1963. 110 p. (MIRA 17:4)  NOKKOLIDS, S.R. [Nockolds, S.R.]; ALIM, R.; LEBMEV-ZINOVIYEV,, A.A. [translator]; DOW0, T.M., red.; ROMANOVICH. G.P., red.; BZZ7A, M.A., takhn.red. (Geochemical studies; geochemistry of some series of eruptive rocks] Geokhimicheskie nabliudeniia; -sokhimiia nekotorykh 0 serii Izverzhennykh porod. Pod red. T.M.Dembo. Moskva, Izd-vo inostr.lit-ry, 1958, 173 P. [Translated from the English] (Rocks, Igneoun) (MIRA 12:5)  LEBEDEV-ZINOVIYEV, A.A. Behavior of uranium and thorium in a magmatic procea.- of the formation of the massif of the potassium alkali complex in northern Kazakhstan, Geokhiniia no.1:92-96 Ja 165. (MIRA 18:4)  SOBOLEV, H.D.;