inzb. Analytical method for determining slaotriopover owinumptton by motor-coaoh trains, Vast. TSNII MPS 111? Li.e. 193no, 7:54-. 57 160. (MIRA 13tll) 1, leningradskiy Gosud.-Arstvisnay proyaktao-isyskatel'skly institut Mintranestroya. (Blootric railroads-Current supply)  -. , Yu.A.,, inzh. Determining operation cost in comparing roftd varlantse Ayto dore 26 no.5t22-23 My 163o (Kiu 16:7) (Roads-Daisign)  :-.-i F~-_ A --JL- - - - - - - - - - - !1u .!-v, A" 71-  ROZENTALI, L.V.; AVERSUMP -Z.K.; YJURDYGINA, G.I.; MOTIDIA, A.?*; STMIOVA, V.V.' Blick anti-halation layer for color films., Usp. nauch. fot. 8 67-71 162. (KRA 17:7)  IMSHENETSKIY, A.A.; KASATKINA I.D.- AVERBUKH Z.K,,, TUITSYNA, R.S., IVANOVA, A.A., SHERSTTUK FroJuctlon of proteolytIc enzymes t7 Bacillus mesentericus and thetr use for regeneratlon of triacetate motion-picture films. MOrobiolog.'Ila 33 no.4019-726 Jl-Ag 164. (MIRA 18s)) 1. lnstltut mikroblologil AN S5,SR 1 Shostkinskly khImIcheakly  AVIMIURG A.L., studentka V kursa; KozLovSKAYA, N.'r., studentka V kurea. A-M-Ml . The formation of undergroUd waters &nd the :reclamation Of 1MA in southern Khoress. bbor.utud.r&b. HAGU no.12:26-32 155. (NLRA 9:5) (1horess-Ve,ter, Underground)  I AVERBURG, 14, Y:j, Disintegration of clay and marl rocks under the influence of simultaneous application of hyposulfite and hydrogen peroxide. Vop. mikropaleont. no.6-147-148 162. (MIRA 15:11) 1. TSentrallnaya khimicheskaya laboratorlya Uzbekskogc gidro ologichookogo tresta. rZropaleontology) (Dithionites) (Hydrogen peroxide)  A AVERBtMG. Veniamin Vasil'yovich, prof., seeluzhennyy daystall nauki; R.V., tekhn.red. [Haking of microscopic prel,.arations; a manual for toaahers of secondary schools] lzgotoylanis mikrookcipicheskikli prepare- tov: posobis dlia uchitelel arednei shkoly. Hoekvu. Goo.uchabnD- podagog.izd-vo R-va proov.RSFSR. 1959. Ell P. (KMA 13:5) (Microscopy--Toohnique)  Lm&.--Q 1-M(ra) RM AC03311CM NRt Sp . 719 5008 B/0366/65, ~001/003/061 0/06 10 C AMSORSs Favor!thayaj 1. bur -Konmoya, ALL A12L__jr TITLE-. Synthpaia of N- emlnweias SMCBt Zhurzal organicheskaY kbizliv v- 1v no- 3v 1965, 6io ,TOPIC TAGSt fainoacid, hydrolysis, acetyl-me aminonitrilep ethert brdroeblorio aoid, chemical. analysisp infrared spectrum ABSTRAM were produced by hydrAysis of racetylene uminonitriles.i The reaction was mmduated at rom tempe-ratare in an ether solution and in the presence of hydro-.bloric noid. 17ho yield of hydroch-loride valts of aninivicidt was 9(~I. Aminoacaidz were BeWated from the mineral salin by catTactiwi wlib petrolewt tw;hwr vaturated with methanol. The method devised by K. A. Kcnonova and I. X. FAVD,-AhMMIL 1 1 --A 1 ,A -1 -a xTM FTWWIUFU" a val Qq".- tAtAtive revultm of tho product arnlyzie fL-v preventta No the bandn nuted in thp infrared speotra of hayd-rochlo--idt salts art listed.  Card Tim"  AVaCH-ENKO, A.A.,felldaher (Novaya lolcha Gomel'skoy oblasti) Special che'.0t containing firat aid supplies. Felld. i akush. 22 no.2:38-39 F 157 (KIRA 10:5) (FIRST AID IN ILLVASS AND INJURY) MM~19-N*n 59 , - - - - ~ ;-- 1--------. - -- ~ , :,.~ - ~, ~ . I -~', I :: t~ . . I  SHLAIN, I.B., kand.tekhn.nauk,- MUDRIKOV, Yu.A., inzh.; AVERCHENKOV AX inzh. Improving drilling and blasting operations at qr :ries. Sbor, trud. NIIZHelezobotona no.7tl7-34 1162, WRA l6tl) (Quarries and q~,arrying)  AVMCHE24KO B ZPMj',.TIN, M.; NOVIKOVA, L., tel:hn. ;-ed. [Value the honor of the Soviet toiler]DorozhS.tt chestliu. sovetskogo truzhenika; obornik statei, Moskm, Izd-vo "Pravda," 1962. 277 p. I (MIRA 15:12) (Agricultural workers)  CHEMIKO, M.B.; LUKIN, Tu.B.; GUSKV, K.M.; KUDIUNAI"MI ', L.A. ; FMAIWK0, Ya.I.; SATYUKOV, P.A., red.; SIEMOV, V.P., red.; SELYUK, S.I.,, red.; SUTOTSKIY, S.B., red.; ABALKIN, N.A.p red.;KOZEV, N.A., red.- AM.- -,,,,red.; SOBOLEV, L.S., red.; SIMONV, K,M., red., VOY, B.N., red.; GALIN, B.A., red. (Heroes of our times] Geroi nashikh duel. ~Ioskva, jzd gazety "Pravda," 1961. 619 p. WRA 14 -11) (Labor and laboring clagoes)  0- ,- ! / /I - '% i -" r r, AUTHOR: Averchenko, D. and others. 136-1-15/20 TITIE: Yako~- -Leonovi-c--h Dlurach - Obitual*y PERIODICAL: TsvetniYelletally, 1958, vo-1, pp. nt8 (USSR). ABSTRACT: During the major part of his career, Y.L. Dlugech was engaged in elaborating projects for new non-ferrous metals L works in the Giprotsvetmet organ'sation. The projects which lie dealt with include the Ust'-Kamenogorsk, the Chimkentsk, the Leninogorsk and the Sikhotealin' Lead Manufacturing Works, the Balkhash and the Dzhezkazgan Copper LS'melting Works, the rolling shop of the Blektrot-iink Works. He also participated in the elaboration of overa.Ll plans for the development of the Soviet non-ferrous metals industry. AVAILABLE: Library of congress Card 1/1  AV3MCRINXO D,,,a.;, VARTAWAN, A.R.: KOPCHILWO. D.8. Introdualug aleatrothemio methods at the Ust I-Xwnnogorok load and Zino Combi,-A. Met. met. 31 no*505-38 My 15B. (MIRA 116) 1. Ustl-Mumnogorskiy xvintsovo-talWwryy koubivAt, (Uojt I-ramenogorsk-Nonferrous metal @--Meat romt&llurgy)  AMCIZU, 14,, otv. za vyp.; SMEYDER, N., teklin. red, [Econam of Tgrnopol Province; colloctc,d -.,tatiqt.j.cv)Varr-)dno horq)O(,-.mvstvo rernopillr-Okol oblasti; ntatyatychnyl %bir Nh. LIviv, Vnrzhstatvydav, 1962. 2C0 p. (MIRA 15:1 - 1. Ternopol', (Provincc)Statistichookoye upraylaniye. (Tomopol Provinco-Statistics)  AUMC11MIKO, )4.P.9 otv. za vypusk; KOVTUN, V., teklin.red. (Economy of Ternopol Province; statistics] Harodne hospo&-irstvo Ternopil'alkol oblasti; statystychnyt sbirnyk. Tarnopill, Oblvydav, 1957. 270 P. (MIRA l2tlD) 1. Ternopol (Province).,Statystychne upravlinnia. 2, Statisti- chaskoye upravleniya Ternopoltakoy oblasti (for Averchanko). (Ternopol Province-Statiatice)  Aa? 'C'. -v, hro~P-A A sk-i;;a bilwarcrij,:3, 115S. 2L 17~, S-M). j3 )~,Vtn ir, sk timyl& tr7nllg~mrnt %linh WC-ij,) 1.3 oa Ilirp, f,)rp!, 3 t,,- W11jr. W)l 1 0 htm,2~lllai moti  AVERCHNNO, P.A.: Blectronic 156. BOROTA, F.P. photocolorimater. Zav. lab. 22 no.12:1506-1507 (kl-Rk 10:12) (Colortmets)  ,~AVERGIMKO, P.A.1 BOMA. Y.P. -nw,o,~te biduction high-frequency device for detecting cracks. Zav.lab.23 no.2;243-246 157* (MM 10:3) (NetallogrWphy-.4pparatus and supplies)  SOVA 37- 59- 3-7158 Translation from: Referativnyy zhurnal. Metallu.rgiya, 1959, Nr 3, p 316 'USSR) AUTHOR: Averchenko, PA. TITLE: An ~~'paratus for the Control of the Thickness of the Aluminized Layer on Stainless Nonmagnetic Alloys (Pribor dlya. kontrolya velichiny alitirovanrogo sloya na tie rzhaveytishchikh nernagnitnykh eplavakh) PERIODICAL: Teklin-ekon. byul. Sovnarkhoz Zaporozlisk. ekon. adni. r-na, 1958, Nr 1, p1) 40-42 ABSTRACT- The author offers an induction device for the control of !he thickness of the aluminized layer on machine parts of any dimensions. The action of the device is based on the utilization of the higher magnetic properties of the layer as compared with the nonmagnetic core. The apparatus consists of an induction (oil, a step-down transformer supplying filament current for the ttibes, an amplifier, a :magnetizing (primary) transformer coil and a t,vo-cascade bridge-type an olifier. A milliamn-icter, serving as the indicator of the apparatilgi, is J.,tigged into the diagonal of the bridge of the second cascade of thc aniplifier. The apparatus is tuned up on spec-riens having minimum and maxi- Card I A mum thicknesses of the layer. P. N.  T El Ile lit  1401) SO'1/32-25-1-40/51 AUTHORS: -Averchenko P. A., Borota, F. P. TITLE: Automatic Machine for Controlling the Hardness of Steel Products (Avtomat dlya kontrolya tvardosti stallnych izdeliy) PERIODICAL, Zavodskaya Laboratoriya, 1959, Vol 25, Nr 1, pp 112-114 (USSR) ABSTRACT: This machine serves for controlling the hirdness of fastening pine and similar articles according to thD coercive force. L. G. Doropey, D. T. Yushchenko, Ye. I. Shkolenko and A. S. Ko- sik took part in-the construction of this machine* The test pin is conveyed from a container via a dircributing device into a vertical pipe (850 mm long). During this i3tage the pin is completely magnetized (in a magnet coil), demagnetized (in a ,demagnetizinj: coil) and induces an electromotive force in thq form of a single sinusoid in the measuring ooil. Dependent on the polarity and the magnitude of the amp:.itude of the sinusoid the pin is conveyed into one of the cells (for hard, soft or normal articles) by means of a special electron scheme. The number of controlled pins is recorded by a. counter. This auto- matic machine can control 7000 short or 3000 long pins per Card 1/2 hour. According to the hardness of the pins the test is carried  cov/32-25-1-40/51 Automatic Machine for Controlling the Hardne8s of Steel Products out foll~)wing the mothod of the "puro" "coercitimetryll(by measuring the coercive force) ox-Ilcoercimetrically - remanento- scopically"(by measuring the coercive force and the remanent magnetism). A detailed description of the machine and a dia-ram (Fig 1) an well as its electric scheme (Fig 2) are given. Wire lin-an PE-0.18mm, PE-0.06 mrr;, a milliamperemeter 1~-24, an amplifiez 6N9, a thyratron TG-2C50, an electromagnet-,'.. relay U1719399, F6690031 and a lamp 5Ts4S are mentioned in the de-- scription. There are 2 figures. Card 2/2 y  Lft jLP r TT -P._LCA_ jD 029056 SOOCE CODE: U.R/01413/6(pj'000/014/0082/0062 INVENTOR: Averchenko,..11., A. Alekseyenko, M. F. , ~abajS,2y, A. A. ; Babitska A. N. _ya, Batrakov, VmVr","Bondarenko, L.; Gab!~M , G. Kh. ; LelIsov S.,- Kulygin G. v Lola IYINO-V. V.-T.-, Orekhov. G. N.; Pridantsev, M. V,; SjjyaMt~~P, Ij 5=0 Shamil Yu. Soroko, L. N.; Solovlyev, L. L., Frantsov V. P. Moshkevich, Ye._I Natanov, B. S. ORG: none TITLE: Stainless steel. Clatis 40, No. 1.839147. SOURCE: Izobret prom obraz tov zn, no. 14, 1966, 82 TOPIC TAGS: stainless steel, chromium titanium steel, molybden-am containing ateel, nitrogen containing steel, titanium containing steel ABSTRACT: This Author Certilf.1cate introduces a stainless steel containing chromium, molybdenum, and nitrogen. In orde- to--1`mpr0-v-e-w-e1a-abi1ity, the stee3 has the following composition: 0.08% C, up to 0.8% Mx, up to 0.8% Si, 15-18% Cr, 0.2-0.6% Mo, 0.04-0.3.5 N, 0.4-1.2% T1, up to 0.035 S, and up to 0.030 P. [WW] SUB CODE: ll/ SUBM DATE: 30Jan65/o9rA 7777777=  AV:IICHENKO, V.P., Inzh.; KIRPATOVSKIY, G.V., linh.; FOXII, I.Ye., inzh. Electric power supply of the construction site of the Krasnoyarsk Hydroelectric Power Station. Energ. stroi. no.41145-54 164. MRA 17:11)  AVEICHFM~qy irsh - V-G-p inzh,,; WZDRIKoV, Yu.A,, inzh. ---- - ir 0 ) Improving borine: and blasting at quam1es. Strol. mat. 9 no.2t?.-lD F 16.3. (MIRA 16:2) (Boring) (Blasting) (Qwxrries and quari7itig)  bUYANOV, Yuriy Dmitrly-evich, kand. tokhri. nuuk; AVERCHOUV, yy1qyich) gornyy lnzh. j BESSITTRTINY ' lonstantin Anatpliyj j 196F6~'6416h, gornyy irtzh.; AKSEI;GV, V,P., kand. tekhn. nauk, retserizont; BEIZAKOV# Yu.l.# 4pd. tekhn. nauk, retsenzent; GEYMAN, L.M., red.izd-val LAVRENTOYEVA, L.G., tekhn. red. (Sand, graval; crushed stone and clay quarries] Peschano- graviin7a, ahchebenochr*re i gliniarWe karlory. Moskva.. It*- vo *N*4rap" 1964. 358 p. (MIRA 170)  AVERCIMIKOV A F.- ljLfYk%OV, Yu.D-; GlIEUCII, G.1',; IWDRI, li.A~; 0 ~,9161ill, I.B. (Quarrying and processing crushed stone) Dobyeha I pare- rabotka karmia na shcheben'. (By] A.P.Averchenkov i ch-. F,oskva, Stroilidat,, 1964. 219 p. (MIRA M12) I!-- .. . '. ; , 1. ", . - . . I I I ~~ w  SOV/136-58-5-6/22 AUTHORS; Averchenkov, D.O., Vartanyan, A.M., Xopchcnko, D.S. TITIE: Introduction of Blectrothermy at the ust1-KamcnoCp,.-J( lead- zinc Combine (Vnedreniye elektrotermii na Ust1-Kareao1_;or-,-,kom svintsovo-tE.inkovom kombinate) PERIODICAL: Tsvetnyj-e Metally, 1958, Nr 5, PP 35 - 38 (USSR) ABSTRACT: The authors discuss a recent article by V.N. Kostin in Tsvetnyye Metally, 1958, Nr 1, in which the greater appli- cation of electrothermic methods in lead and zinc prodii-,tion is mentioned. They list some disadvantages of Gjj.af4~_ furnace smelting and state the importance of develc,:?in,.- new methods for Soviet lead-smelting works, a favourable factor beinE; the increasing availability of cheap h.ydrc!-- electric power. Electric heating of settlers %vas s-absx,4_~ tuted for oJ.1 heating at the Ust'-KamenoCorsk Lcad-rinc Combine in 1.953 without altering dimensions (lenUth, -v.-a,(._,th and depth - ? 100 2 960 and 660 mm, respectively), bu t. experience E.nd joint work by works and VNI!tsvetmot personnel led to reconstruction with the volume red,iced -rom 13 to 6 3. - -, f f M After listing conditions for stivc~., o1 operation of' such stationary settlers, the autLors Uard 1/3  SOV/13C--5,?,- ~-6/22 Introduction of Elec trothermy at the Uc t ~ -.1remen-o'- c--k L(-,ad-:, i nc Combine the smelting of silver- containinC. dross in an electric furnace under an artificial slag layer (30/~ Na 0, CaO. 40ri,o' SiO2): tabulated compositions shov., that tRis ;aethod gives a hie;her recovery of noble mctals into the silver-, lead than m-ith retort distillation. Thi.,--- work was also carried out, by the same organisations, and the collabcrator is continuing to improve the method and -to convert the 150-ton refining kettles to electric. heatinL- The authors outline the present electric kettle-heating method with nichrome strip resistance heaters and urge the developitent of induction heatine, for 1A.Lher efficiency, They agree with Kostin on the need for special design staffs in existing institutes with proper equipment for the ra-pid development of electrothermic methods- They do noi; agree with his suggested scheme for converting the Ust'- Kamenogorsk Lead Viorks to electric sneltinr., as data are la-.king; 'they would prefer the Giprotsvetmet to dqsign a new, separate works. They urge the rapid conple-tion Card 2/3  SOV/136-58- 5 -6/22 Introducticn of Elez,trothermy at the Usti -Kamenog(rt3k Lead..zinc Combine of full.-scale trials at the Leninogorsk Lead Works of electrothermic processes,. There are I table and 1 Soviet reference ASSOCIATION; UKSTeK (Ust'-Kamenoga,14t Lead-zin~~Cvrb ',..I e J. V%, 0-fs-- Card 3/3  SOV/136-59-1-9/24 AUTHORS: Ayerchenkov D 0 Kopchenko D.S., Pron'kin V.F., Sidorov_sH~_ ~. T, Kershanskiy I.I. and Ovcharenko V.P. TITLE: Introduction of an Electrothermic Method of Distilling Zinc from Silver Crust at the Ust'-Kamenogorskiy Lead Works (Vneidreniya elektrotermicheskogo sposoba distill- Yatsii tsinka iz sereb,,~�stoy peny na Usti-Kamenogorskom sVintsovom zavod,0 PERIODICAL: Tsvetny3re Meta:Lly2 1959, Nr lv PP 33-40 (USSR) ABSTRACTs The authors point out that as continuous desilvering of lead is not used In the USSR methods of crust enrichment are boing sought. A system lRef 7) in which fusion under carnalite is followed by'*vacuum distillation has proved unsatisfactory while that successfully used in Bulgaria (Ref 8) 1:3 not applioable to Soviet crusts. Based on enlarged laborator plant work at the VNIIT.,;vetnet in lq~6a-n1qd.?,,il(0R!f ) an experimental production unit based on electrothermic zinc-distillation was built at the Ust'-Kamenogorskiy lead works and has Card 1/1+ opera,ted from November IQV to the present. The authors give -the results obtained and describe the plant.  I SOV/136-59-1-9/24 Introduction of an Rectrothermic Method of Distilling Zinc from Silver Crust at the Ust'-Kamenogorskiy Lead Works I.P. Volkov, N.V. Kungurov, K.B. Boztayev, D.R. Demurin and others from thb works and V.P. Kuur, F.A. Mardamshin, Yu.K. Hedelltso72 A.I. Tkachenko and V.P. Shchurch1mv of VNIITsvetmet, partieipated. The electro-Lhormic installa- tion (Fig 1) consisting of an electric furnace, oxidation chamber and dust catchsrs~ was designed by the design department of the ULSTsK under the direction of A.V. Bratchik. The works and VNIITsvetmet laboratories Performed necessary chemical analyses, The 3-phase 300-kVA furnace has a hearth bottom area of 2 m2 and an effective height of 1.8 m. Fig 2 shows a vertical section through the furnace. The normal tapping hole is situated 140 mm above the bottom. The furnace is charged with an Irtysh.,;kiy medeplaviltnyy zavod (Irtysh copper-smelting works) typis feeder (Fig 3). Power is supplied by two type FJIOM-;250/6 transformers with a total rating of 500 kVA. The electrodes are graphitized and 200 mm in Card 2/4 diametor. Distillations of zinc were effected at 1150- 13000C,, giving lead bullion (sent for cupellation), dust (dischitrged periodioally and sent to the zinc works) and  SOV/136-59-1-9/21+ Introduction of an Ellectrothermic Method of Distilling Zinc from Silver Crust at the Ustl-lamenogorskiy Lead Works gases. All materials were weighed, gas flows were measu- red and during runs for establishing materials balanc031 gas anaiyses were periodically carried out. In such runs a crust containing 61+.35% lead, 25.8% zinc, 0.55% copper and 88407 9/ton, ctilver of somewhat variable size- radiAg (Table 1 shows4this for two samples) was used. I he results (Table 2) of a 16-day run in 1957 show that 95% of the lead in the crust wait transferred into the bullion which, the authors recommendq should be refined electrolytically. The products were almost exclusively lead bullion (which contains the major part of the noble metals) and distillate (71.3 and. 35,2% respectively of the weight of crust taken), Losseslof lead, zinc and silver, were insignificant. The adoption of the electro- thermic. method at the works (Fig 1+ shows the flowsheet) has led. to a doubling of labour productivity and a Card 3/4 1+.1+9% Improvement in raw-materials utilization as well  SOV/136-59-1-9/21+ Introduction of s.n Blectrothermic Method of Distilling Zinc from Silver Crust at the t[st'-Kamenogorskiy Lead Works as to Improvod working conditions in the cupellation department and great economies. There are 4. figures, 2 tables and 9 references, 8 of which are S-o%riet and 1 English. ASSOCIATIONSt Ust'-Kamonogorekiy svintsovo.-tsinkovyy kombinat (Ust'-Kamenogorsk Lead-zine combine) and VNIITallretmet. Card 4/4  NOVOSELOV, S.S.; IfARTAIIYAN# A.M.; KISHKAREV, V.A.'; IAVERCF9:NKOV, D.O.; SIDOROVSKI:Yp V.A. - Pilot pl-wt teiting methods of removing copper frcu*mk-'lead with tranafer of the &s"r into matte. TSvet. met. -35 no.51 25-31 Mq 062. (MDU 16: 5) (I*,ead-Metallurgy) (Copper-Metallurgy) ~ i t  ;;OV-120-58-3-10133 A. I. and_AVCj~ejjo~,,,IC.3~r, V. Ya. Tl-'TLI:;- A 20-Clhaanel Tir.a Analyser for the bloc of Neutronz by the Time of PliCht Method (_2O-kaiial'rij,.y vrcmonnoy analizzator dlya selektsii lystrykh no~,Lronov po %rrc!-~ioni proleta) F._I,i~'-,CIDICAI: Puibory i Tekluiika Eksperi~-onta, Nr 3, pp 48-53 (IJSSR) AB,;`,MACT: The multi:~hRnnel time an-Ayi~~,n~ n!.,v; available may be divided into two groL ~ ips. In the first croup are the so- called "chronotrons" (Refs.1-6). The analys-rs in-this have a pra-.tical resolving time of 10-� see and they ,.-;i1. ia-_asure tim) intervals with an aecaracy of 0.25 x 10-~ see. The s.)--ond group of analysprs in-iolves circuits -:,"11c11 transform -Ane intervals into pal~.~e a,:iplitudes (Refs. 7-12). Tl-io second group has the advafttaL;es ~:iat (1) the circuits are rolatively siriple, (2) a iarce nu:-.iber of n1l'annels is poss-.ble, (3) it is possible ta si;udy in detail -u,tc V .1 U of the neutron spoetrum by o-perati, with the am-litude _i,-.1yoor only and witholit clazincillE the Charactoristic; U of Vio !_-,(:hemc. A. 20-chauriel tirc is doocribod in  A 20-Cluimc-el T.L-,e An:Aly,,;(,,r for thc Sul,,~ction of Neutr.~),I'- by 'VI-le of Plic-lib Met;hod the present paper which is based on tho basic circuit -,ivon U by Neilson afid James (Rof.10). The, arialysor cis described by Neilson aRd James Ims the disadvai,..ta(-e of beinv- "two- Sided"I i.e. it works indepondently c,f the scquence of the input pulses. This disadvantaCe is now romovod by the intro- duction of addlitional -~:ircuit olo,,.ients. The coi,,ipletc circu.-.t of the analy:3cr including the vLlue,,, of the. coi:iponents C.1- ployed is shown ill Fi6-3. Thg practical re.,.,.olvin,~ time of WI-0 analYscr is (1-5-3) x ~0-9 see and the stability of channel edge:; is 0.5 x 10-') sec. The calibration curve of the analyser is shom in Fig.4. The curve is a plot of the aia-ilitude vs delay betwrceil 1)UlsCs,-9TIie calibration curve is linear in the range (2-30) x. 1 . ks an example, the tijae distribution obtained with neutrons of a Pj-Be source is shown, in Pie;.6. Yu. S. Zamyatnin. and Yu. I. Il'in are thmiked for c.dvioe wid assistance rcsi-,)ectively. S. G. BaSistov and N. jr. Cherepnin suppli,--d spocimons o fL new Card 2/3  A 20-Chaancl Ti.-ic Anal;fsor for the Selection of llo,itron2 bj tjio Time of Plifht MotLod Valves? L. G. D)ytoyzzen, A. G. Bor'wvskiy aud N. S. KlilebiAlzov sup,)licd speci,-,wns of ne,,: jliotoinil'u-i'plier3 and L. 11. Belyajov and G. :,-. Dobrzhanskiy sup~dieCi specimons of larj;o cryotuals. Thero, -,tro 6 fi-nircs and 14 ruferc~iico;-,? of which 2 are Soviet, 1 Itallan arid the rest Enslish. SUBMITTED: Au~3ust S), 1957. 1. Tirae-interval counters--Design 2. Time-interval counters--Applicatlons 3. Timing eIrcid.ts--Applications 4. Neutron spectra--AnaJ~ysls Card 3/3  3/069/60/008/04/06/009 B113/BO17 AUTHORSt V*retennikor, A. I., Averohankov, Y, Ya., Sayin, M. VL.L__ Spekhov, Yu. A. TITM Gamma Radiation Occurring in-V 238 Under the Action of N2utroDL Of the Energy 14 Mov PERIODICALt Atomnaya enorgiya, 1960, Vol. 8, No. 4, pp. 361-363 TEXTs In the neutron interaction with U238 the spectrum of gamma radia- tion was measured in the range of from 0-4 to 2.8 Mev and the gamma quantum yield per intoraotion event in three samples. The measuring apparatus (Fig. 1) and the measurement process are desetibed. The mean gamma radiation energy im 0.98 M6v. The energy resolution in measuring the gamma-spectrum was cw 30% with Er- 662 kev and L' 1%!; with Sr- 2.62 Yev. The mean number of gamma quanta per interaction event i for d a 2.85 barnR is 6 + 1.2. The authors thank Yu. S. Zamyatnin for,discusoion and V. G. Kokoulin for the preparation of the stilbens crystal. There are 3 figures and 4 referenossi 3 3oviet and 1 English. /B Card 1/2  Gamma Radiation Occurring in U 238 Under the Action of Neutrons of tht Energy 14 Mov SUBMITTEDs October 12, 1959 5/089/60/008/04/06/009 B113/BO17 IAB Card 2/2  329')2 8/641/61/000/000/019/033 B108/BI02 AUTHORSs Averchenkov, V. Ya., Veretennikov, A. 1. TITLEt Integral cross sections of U 235 and Th 232 iriteraction with neutrons huving energies of 2 - 8 Mev SOURCE: Krupchitskiy, P. A., ed. VeytronnAya fizika; sbornik state..,., Moscow, 190, 258 - 262 TEXTs The neutron cross sections of U 235 and Th232 specimens were deter- mined by measuring the time passing until the neutrons reach the detector. The latter was connected to a 50-channel time ai.alyzer with the new 6W22-ff (6Zh22P) thermioni.,, tubes. A steady-flow neutron source of Po-Be was used. Measurements were made with and without specimen between souren. and detector. Moreo-ver~ the random coincidences were measured with an additional delay of '15 m*..llimicroseconds in the detector channel. The integral neutron crotis sections were calculated with the Cormula a - -L ln[(N - N Y(N., - N )] where n denoten the number of nuclei per t nx a bo bx CM3 of the specimen, x - thickness of specimen (cm), N 01 Nbo' Nx, Nbx Card 11t *.21  3299 2 S/641/61/000/000/019/033 Integral cross sectionit of... B108/B102 counting rates of neutronE- and coincidence background with and without specimen. The results for Th 232 and U235 are :Ahown in Fig. 2. Correc- tions for elastic ocatiering have been introduced. Yu. S. Zamyatnin is thanked for discussions, There are 2 figures and 6 referencess I Soviet and 5 non-Soviet, The four most recent references to En li h-Din uage A. t3 g publications read a,s follows: Bloom 8 , D,. Phya . Rev ~?8, 233 (19,)5'~; Progress in Nuclear Energy, eer. 1, v. Is London, Pergauon Press, 19~;bi O'Neill G. K. Phys. Rev,. AU (1954), Rev. Sci. Instr., 26, 285 (195~~-); Ref. 6t Hughes D., Schwartz. Neutron Cross Seotions, BiF, N, Y., Card 24 -,  lIZ315 S/1.2o/61/4)00/002/005/042 EOTJ-2/Ell4 AUTHORSi Veretonnikov, A.I., Avtrch*zdcov, V,.Ya., Savin, M.V., and Spekhov, Yu.A. TITLEt Gamina-spectrometer using an organic. scintillator and tim-a selection of ga%=4 rays PERIODICALo Pribory i tekhnika *ksperimenta, 11161, No.2, pp. 42-46 TEXT: A doiscription is given of a gamma-sipectrometor which can be used to iselect gamma-rays with a time r4tsolution of about I nanosec. The spectrometer incor orates a plaistic scintillator, and the energy resolution for CsJL3? gamma rays is about 25%. With a sodium iodide crystal the time resolution is abou 4 neinosec and the, coincidence counting efficiency for Vo gamma rays is 90%. Ithe use of ordinary scintillation gamma-ray spectrometers in the study of gamma-rays produced under the action of faist neutrons is complicated by interf*renco from the primary and secondary ncutrons. However, if the primary neutronc are &ccompanied by, say, alpha or Samoa rays, the gamma radiation under investigation can be separated from the interfering radiation by th4i tiint-of-flight method. Suppc.a* that the Card 1/ 6  qVPS S/120/61/000/002/003/042 E032/E1.14k Gamma.-spectrometer using an organic scintillator and time election of gamma rays :ecording apparatus and the specimen under investigation are located relative to the neutron source, as shown in Fig.l. In this figure, C, in the detector which records the accompanying alpha, gamma etc. emission and C2 is the detector designed for measuring the gamma-rays from the specimen. The distribution of time intervals between pulses from Cl and C2 reaching the time analyaor is shown In Fig.2. Fig.2a shows the time distribution 0f primary neutrons and gamma rays arriving at the specimen, Fig.26 shows the primary neutrons and gamma-ro,ys from the specimen nd Fig.20 shows the secondary neutrons and ga,mma-rays from the : pecimen. An Dan be seen from Fig.2, even with a continuous primary neutron enerry spectrum, it in possible to sepetrate out the gamma-rays produc:d In the spec imen by tho primary neutrons by a suitable cPioice f I and t2- In the present paper this type of gamma-r.pectrom*ter is discussed in terms of an example in which the gamma-rays produced in various specimens by 3.4 Hev neutrons are investigated. A block diagram of the spectrometer is Card 2/ 6  21395 S/12o/61/000/002/005/042 E032/EI14 Gamma-spectrom*tor using an organic scintillator and tint election of gamma rays : hown in Fig.3. The neutrons wore obtained fr-DM the d(T, n)He4 reaction. The instant at which the neutrons leave the target is recorded by counting alpha particles with a plastic scintillator, an described by the present authors (Ref.21 At-omnaya onergiya, ig6o, NO-4, 361).. The gamma-rays are detected by a stilbons crystal mounted on a ~DY -33 (FEU-33) photomultiplier. Pulses from the 12th dynode of this photomultiplier are amplified by the amplifier Y6- With the key 62 in the closed position, these pulses reach the 50-chann*l kicksorter through the linear gate &'! 2. With the key t11 in position 2, the ga-t* Gn2 is Controlled by pulses arriving from the output of the time analyzer. By introducing a delay tj into the gamma c~iannol, the working conditions of the time-amplitude converter can be chosen so that pulses due to ganima-irays and neutrons from the specimen are delayed relative to ulses due to the alpha particles. An a jP result., the alpha-gaimna coincidences at the output of the time analyzer have a greater amplitude than the alpha-n coincidences. Card 3/6  12395 S/12o/61/000/002/005/042 E032/EI14 Gamma-spectromoter using an organic scintillator and time aelection of gamma rays The integral amplitude discriminator A5 transmits only the alpha-gamma coincidence pulses to the gate 6112 and this ensures the separation of effects due to neutrons from those due to gamma- rays. The time distribution of the coincidence is recorded by the same amplitude analyzer with the key III in position 1. The time analyzer ha:s been described in detail by the present authors (Ref.3: PTE, 1958, No-3, 48). The remaining designations in Fig.3 are said to be "self-evident". The gamma-spectrometer can be used to measu:re gamma-spactra appearing in a given time interval, e.g. in th4 study of time correlated processes such an the emission of gamm.&-rays in fast-neutron induced reactions. There are 6 figures and 7 referencest 4 Soviet and 3 non-Soviet. SUBMITTEDi May 6 1960 Card 4/6  s/12o/61/ooo/oo.,,/oo5/O42 Gnmwn-spectromotor using an ..... E032/EI14 06paim F i y Fig.2 t Card 5/6  1395 S/1?0/61/000/002/005/042 Gamma-spactrometer using an ....... E032/EI14 r I------------- '. "k t"ll- 4! Xjmepum Y, ciropoemu , i~H Yj C,r. 0, .p po yz j Fig-3 Cnrd 6/6  H408 S/120/61/000/002/019/042 q 790 E192/9382 AUTHORS: Veretennikov, A.I., Averchenko V.Ya., DVI_.-. Yegorov, A.G. and Sp-e0h-ov,--Yu-.A. TITLE: Amplifying Units for the Oscillographic Display of Short Pulses PERIODICAL: Pribory i tekhnika eksperimenta, ig6l, Noo 2, pp. 104 - log TEXT: Two single-tube amplifiers suitable for high-speed pulse oscillographs are described. The firs:t amplifier is based on a tube mith a cathode grid (sometimes referred to as a 11space-charge tubell or a "tube with a virtual cathode") which is capable of producing high anode currents when its auxiliary (cathod.e) grid is pulsed with a comparatively high voltage amplitudti (up to 100 V). The circuit diagram of the amplifier (with somo auxiliary circuits) is given in Pigs I* Tile spaco-charge, tube is 6*(-10ncj (6Zh2oP2) (thin is an experimental tube). The amplifier is designed for the pulse repetition rate not exceeding 10 p.p.s. The operation is as follows. When the amplitude of the input pulse is about 1 V, Card 1/6  i2hM TI-2o/61/000/002/019/042 Amplifying Units E192/E382 the thyratron (shaded tube) is ignited and a pulse is applied to the cathode grid of the space-charge tube (the righthand- side tube in the circuit). This pulse has am amplitude of about 150 V and its flat top has a duration of about 0.5 ~,s. The investigated pulse is applied to, the control grid of t''he tulle 50 nanosecs after the appearance of thc voltage at the cathode grid. The voltage appearing across the anode load of the space-charge tube is takeil by zeans of a cable (type PK-50 (PJI-5())) having a length of 1 m and is applied to the deflection plates of the cathole-ray tube. The anode.- grid charact(fristic of the space-charge tuba is linear over a compratively larga range of currents so that at the supp,Ly voltage of about 800 V a current in excess of I A can be obtained ovez, the linear region; the slope is about 33 mA/V. Tho gain of the amplifier is 10 and its bandwidth is 90 Mc/s, which corresponds to the rise time of about 11.3 naziosecs. A high-speed amplifier can aLso be based on a isecondary omission tube. A circuit of this type is shown in Fig* 5* The secondary emission tube J'j (= L) in the Card 2/6  IAN S/12o/61/(100/002/019/042 Amplifying Units .... E192/19382 figure is norrially cut off by a negative-grid voltage of about 10 - 20 V since its anode dissipation is only 2 We The reflection plates of the cathode-ray tube are cennected to the anode and the dynodo of the tube by coaxial lines (type rjY,-j (PK-3)), which also act as the delay lii,es J.or the signal. The difl~erenc,p in the electric lengths of these lines corresponds to the transit time of an electron from the dynode to the anode; in practice, this amounts to about 10 cm (thia is chosen expopr-iment ally). The triggering circuit of the oscillograph :LS usually connected to the input to one of these lines through a resistance. The secondary emission tube can give a pulso current of UP to 7 A with a slopeof 100 mA/V at'the anodo uupply voltage of 1 000 V and dynode voltage of 3 00 V. The deflecting voltages of about 700 V can be obtrined from this amplifier. The bandwidth of the amplifier is about 200 Mc/s, which corresponds to the rise time of 2 nanosecso The gain of the system is 12 - 16, depending on the anode voltage. The cir,cuit of Fig-5 is designed Tor the oscillographic display of the p-alses derived from scintillation transducers Card 3/6  2UM S/12o/61/OOCI/002/019/042 Amplifying Uni*..s E192/E382 (counters). In this the pedestal of the pul.se is applied to the lefthand-sidei portion of the circuit, which is in the form of a two-stage amplifier. This provid(is the necessary lengthening and thert limiting of the output voltage. Th e pedestal is formed from the Pulses dorived from one of tho dynodes of the plio-tcomultipliert The ainplitiade of the pedestal applied to the control grid is about 3 V. The line havIng a delay of about 60 -- 70 nanoseconds is inclueled in the investigated signa:L circuit which delays the signal for the duration of tho pedestal-forming. The authors make acknowledgment to 13I.G. Basistov and G.V. Lukoshkova for supplying the samphes of new tubes. Thero are 8 figuren. SUBIU:TTEDs May 2,1, 196o Card 4/6  S/120/131/000/002/oig/C142 kipli f yin- Uyii*..!,' . . . 9 E I ~)2/12:582 pi:~. 1: tV0,f ~-, " Card 5/6  L%ililifyinz~ Units .... 44 PON N Jfo 120/61/000/002/019/04 2 ')2/2362 P6 r 1~4 J,_ V" Card 6/6  B1 02/B201 AUTRORSi V tZ Riko 9 A. I,, Averohenkov, V. Ya., Sevin, M. V. TITLE; M:xa'1emsnt'Vof the time distribution of gamma radiation in wood by the method of delayed coincidences PERIODICALt Atomnayn snorgiya, v. 11, no. 21 1961, 177-180 TEXT: This paper presonts results of measurements of the time distribution and the energy spectrum of gamma quanta, from a point source, which wera scattered in wood. Little has been published on thit subject so far. Th,~ time distributlon was dete:,*zined at distances of 200 om from the point source. A CoDO source (0.12 go) emitting pairs of 1~amma quanta was fastened to woo&; the scintillation detector 1 which recorded the instantil of emission -4f quanta was :placed close to the source, and its pulses Were fed to a time analyzer. TA9 second scintillation detector 2 was 200 am awayj from the sourael and likeigise transmitted its pulses to the time analyzer. -.- The distribution of time Mitervals between the two pv1ses was recorded. The solving time of the time maalyzer wan 2-r - 2.3 ligaeo, and the mean quantum energy was about 1-25 Mov. The time distribution of gamma radiation in wood 8108!V6110111002100TIO15 Card 1/6  Measurement o2 the time diotribution ... She 61/011/002/007/015 B102YB201 is a function of the crosai sections of Compton scattering, of the photo- electric effect, and of pal.r production. The time distributions in Waterials with similar atomic numbern may be assumed to differ only by a scale factorl thia fact makos it pnesiblo to estimate the distribution in similar light materials from that in wood. The geometrical experimental setup is shown in Fig. 11 it wam so chosen bi)oause it imitated an infirtite medium best. Scintillation plastics and photomultipliers of the type 43Y-33 (FEU-33) were used for gamma recording. The block diagram of the measuring arrangement was as follows; detector I time analyzer pulse Scri- height minj%tor ransmis- Card 2/6 dote-3tor 2 Fig. 2. shows the time distribution of gamma radilLtiOn, as recorded by ~ detector 2 (Curve 1); curve 3 showu 2 the background of random coincidence& lin-e T-ineir r The zero poin'; of the analyzer time a mplifier a 2 cale was detormined according to the mid-Ile of curve 2 of y-y ooinoidvnces without wood hut under otherwise equal conditions. As may be seen, the time distribution of gamma  SY'089/61/011/002/007/015 ..Mqaauremont of the time distribution ... B102/B201 radiationlin wood coveria period of 20 ILgeoc at adiIPtance of 200'om from the point source. The maximum is shifted by about 1.6 pgoeo toward the zero point, rhioh co'rrespoftdi to a prolongation of the quantum path by about 1.5 mean free paths. Tho mean time of delay of.quanta is about 6 ggseo, and the half-width of the distribution peak is about 7 pgsec. Curve 4 (Fig. 3) was obtained on the ascumption that the mean iamma energy is e--1100 kov in case of great delays, and 0.8 Nov in case of the moot pr able delay time. '~he trio time distribution is likely to be found betweeni curves 1 and 4- Fig- 4 shows the energy speotrum of gamma radiation at a distanoe of 200 cm fron the source. Ya. B. Z011dovich, Yu. S. Zamyatnin, and V. G. Morozov are thanked for discussions' There are 4 figures and' 12 references: 6 Soviot-bloo and.6 non-Soviei-bloo. The two most important references to English-lang-aage publications read as followst -L. Spenser, U. Fano. J. Res. Nat. Bur. Standards, A-6, 446 (1951)1 G. Whyte. Canad. J. Phys. U, 96 0 9.55) - - SUBMITTED: December 29, 11i60 Card 3/6  AVERCHUKP 81, i~itte-admiral Intrap&rty doweraoy is the basic feature of party vork. Ko=. Vooruzh,Sll 2 W,16:40-45 S 162. (MIRA 15:8) (Coi-mist Party of the Soviet Unlon)  AVERGHUK, S', vitse-aftiral Collectivity of 19adeirahip, an indispenuit-Is condition of the normal activity of party organizations. Ka=s Vooruzh, S11 5 no,23zlB..25 D 164. (MIFIA 18il)  AVE'i"C I WK , S . , vi Lae-adin I rfi I; 'I E~i~ VKC)V , IN . , kapitai, I -v*o I un, ~,, .1 Let's tfilk about thc style (,.f thtf political work. Korrai. V:)oriizh. SJI 46 no.4:"'4-32 F 165. 18 5)  AW-,RCI-'.UKP S., vitu~a-acbiiral; 1*~DVEDI'V, P., kapitan )-Co ranga To guide moanB to improve organizational work. Kom, Vooruzh. Sil 46 no..Z:24-30 Ja 166. (MRA 19:1)  AVFRCRIK, S.I., vitae-adipiral Single emnand, the most im-port&nt principip of the building of the Soviot Armed Forces. Mor. abor. 49 no. 12:8-14 D 1 65 (MIRA 19i1)  A& W, MS9615346 _S_0URCL__C0D1;':' LIP,/0375/6~/000/012/OL'08/00111 AUTHOR: Averchuk, S. I. ,'Rear admiral) q 1 13 ORG: none TIT1X: Single command-7he most important principle in the organization of the Soviet Armed Forces SOURCE: Morskoy sbornik, no. 12, 1965, 8-14 TOPIC TAGS: military policy, political personnel, political thought WRACT: The author describes the single command principle as follows: the single c"nd principle is based on the independent and personal rtsponoibility of the of- ficer to the State for the activity with which he is entrusted. It provides for great-1 er initiative and independent action in decision-making under- any circumstances. It and improves the combat readiness of the forces, strengthens military discipline, gains respect for individual officers. The responsibility of- each officer, fron low est to highest rank, is to maintain the political indoctrination and interpretation of; -iI the party line to subordinates, relying on help from political and party organizationsf- The purpose in introducing the single comand principle was to increase the control of the party in the trmed Forces by direct control through the Central Cornmittee. SUB CODE: 15,05/ SUBM DATM none/ ORIG Run ooe I  I. Additional use of machinery. Prom.koop. no.8:11 Ag '57. (MIRA 10:9) 1. Stqr!)hiy mekhnnik 'nrmAo1khozx iment Stalinp, ko%lvA. (Moscow-Ciothing industry)  -AVf;UCIiEV, Yovf.,oniy Petrovich; AIKSINKVICH, Viadimir lod.-fovich'. RASKIN, Mikhail Nikolayevich; KU71JETSOVA, L.G., red. [Reconditioninp plunpr pidrn; piart1co of tb-) Zaraysk Machinery Plant] VostAanovIenie plunzhernykh par; iz opyta raboty Z&ralskogo mekhani c lie skogo zavod,%. Ecskva, Biuro teklin. irkfonnat.sli,. 19t~~4. 31 1). 18:5)  :t~;JRUTSM, Ieonl(3 j-!aj-kojrjcjj; AVF.RlCfTV, Yu.P., rea.) L* A, B. I -,"d. (Tel.imical mechamical a textbook] Tokhnicheskai% mkhani ka; uchobnoe povotdo. MoBkva,, Proaveshchenis, 1965. 266 T). (MIIU 18%5)  22(l) SOV/47-59-3-20/53 AUTHORS: lAverichev.YusPet Bondarev D.D., Griaberg Yu,L., , shalayev F.K. TITLE: Relating Courses in Physics to I:ndustrial Practice PERIODICAL: Fizika v shkole, 1959, Nr 31 pp 27-31 (USSR) ABSTRACT: This is a survey of practical training in physics received by pupils of school 144 in Moscow* P'rac- tical training begins in the 6th class. The plapils visit the plant, where later on (9th class) t hey will do practical work,*and the teachers illue-'rate the subject of the lessons with exajaplas taken from plant Iractice, The work to be performed at the pla:2t in the 9th class extends over approximately 200 h5urs. In the course of a trairing yea::,, the participants work at the plant once a week for 4 hours and after the termination of the school yt)ar there 1011offe a continuous practice of 12 days, During his training, Oard 1/3 oach participant works at two places, where he is  SCIV/117-59-3-10/53 RelatinG Cour;ies in Physics to Industrial Practice (physics, chemistry, etc) in production; enlarge, deepen and consolidate this knowledE,,n; 4", get the trainee acquainted with the different kinds of Jabor and help him in the selection of a profession; 5) favor the development of a Communist attitude tow-- ard work. The authors give a survey of the training "It the plant and at the school and list some tasks -iven to the pupils. ASSOCIATION: 144-ya shkola, Moskva (School Nr 144, City of Moscow) Card 171/3  .4',IRNOV, Vyacheslav 11)ergeyevich; AVERIGHEV,_Tx~.P.,p red.; TA'LIJRA, G.L., tekhn. red. [Prom fir tree to newapaper]Ot elki do gazety. Mosk.Tap Uchped- gi2, 1962. 57 p. OCRA 16-. 1) (Newsprint)  DURASEVICH, Turiy yevgenlyrvich; IVANOVICH, K.A., red.; AITERICHEV, Yu P ,. red. ; KREYS p 1. G. j tekhn., red. (Trainize: of rural ele6triciana]Podgotovka w5llskogo slektro- montera; is opyta shkoly pamiati V.I.Leniza -r GorIc&kh Lenin- skikh. Pad red. K.A.Innovicha. Moskva, Uc#ped is, 1962. 135,p. IMIFU 16:4) 1. Dayetvitelinyy chlen Akademii pedagogioheskikh nauk RSFSR (for Innovich). (Elactriciana--Education and training) (Rural electrification-Ha3adbooks, manuals, ate.)  BESIIENICOV, A.K.; ~AVO RIGREV, YII.P.-, red.; KUVALENXO, V.L., tekhn. red. [Manual training in school workshops) Trudoyos obuchanie Y shkollnykh inasterskikh; is opyta raboty v V-VII klasmakh. Moskva, Ucbpedgiz, 1963. 185 P. (MIRA lOt7) (14&nu&l training--Methods and mnuals)  SOV ~7 '~S 1 .'1981 T,,t,,,sl o ion from- Referativnyy zhurnal. Metallui-gi\,a. 1(158 Nr I A j) .1 1 (UISSR" AUTHORS; S-vintsev, P. A.,, Avericheva, V. Ye '11-c Contact, Fusion of Crystals (0 kon--a~,rcm p-t- lenii 1,Y ilal!c PER'OD!CAL: Doki. 7--y Nauchn. konferentsii, 4C icliNu 0kfv.tbr's1