SCIENTIFIC ABSTRACT SHOKHIN, M.V. - SHOKIN, I.N.

SHoKHI141 111. V. 30386 Novyy pochodnyy (poch v ye nnyy) tye rm omyetr. Byu 111yetyen' Glav. Potan. sada. VYT). 3, 1949, S. 80-82. SO: Letopis' No. 34  SHOKIM, , 1'. W Gardening Handy garden hole digger. Biul. Glav. bot. sada, No. 9, 1951. L Monthly List of Russian Accessions, Library of Congress, June 1952. UNCLASSIFIED.  . J . . -,I .' :.. I~1';' (~;' !- I . 11 --.- -1 ~ i - , , , - - - -11.1 -- - "-"' . i"'-t . '-.a :;D . ~L;~' . 7 - -'- :;,;" , - j-:. I. ...... .I, ~ - 9. Monthly Ll~st ~f Russian Accessions, Library of Congress, Uncl. 2  SHOMIN, V1. V. Fh~ 2-45T60 USSR/Geophysics - Soil Evaporator Nov 52 "The Accuracy of Weighing Soil Evaporators," M. V. Shokhin, ~6-in Botanical Gardens, Acad Sci USSR, Moscow "Meteorol i Gidrol" No 11, pp 49-52 Msciisq,~s the accuracy of postal and inspector ev4po- rator scales. Concludes that. neither guarantees accuracy in weighing. Consistency in average daily evaporation is satisfactory in the weighing by the in- spector scales but is completely lacking in the weigh- ing by the postal scales. 245T6o  1. SIGALOV, B. YA. SHOKHIII, H.V.- z. ussR (6oo) 4. Grasses 7. Wintering of grass. biul. Glav bot. sada.,,no 152. 9. Monthl List of Russian Accessions, Library of Congress, March 1253, Unclassified.  Det~--Ina' ion o--" the e-lat-,:- of So~ 1 *r. -1, nte~ '.~axmum Ther,-,onieters ''e 't o r o'I r o I c a 0 -10 5 A procer"I-Ire for olbscr:atLons by mazLinum thermometers In well~7 down 11"o o 12-~ D CM , Tl-(-, of' the erro,- as a DjnctLon I. f" C e - c of U--me of i~-. clarlfie~'. A comr-arLson is mac-le with -data obtained 'hy e-xtr-nc'tLon trierriometers ('10 rairs of re-,1-7'Inr-s unOiei- Yoscow in 10,51- Tt 'ijrn--* out flat t~~ mean te~rera~-ilre of' tl~ 1~~yer of soil frorn M heimiometen~ I s lo-.,,er then accorC.ing 1 120 cm -cco,,C.*r,..~- to Ue Traximun. t Ic -I;c- e--'urtc;% ton thern;omcLer .0 cy 0. 20. (R&Geol, 5, 1954) SO: 3,,,, - . ',a 5 6,~ , ':! J u 1 41 5  AUTHOR: Shokhin, IM. V. SOV/50-58-11-17/25 TITLE: Errors in the Reading of Gicund-frost i'lleasuring Instruments Designed by Ratomskiy and Danilin (Pogreshnosti pokazaniy merzlotomerov Ratomsko-o i Danilina) 0 PERIODICAL: !Ileteorologiya i gidrologiya, 1958, !Tr 11, PP 52-55 (USSR) ABSTR`~CT: Ratomskiy's (Ref 2) and Danilin's (Ref 1) instruments are moun- ted in a steady position and permit the determination of the dynamics of ground freezing and thawing. The construction and the process of observation of both instruments on the whole are based on the'same prineiples, but the instruments-~nBed for determining the freezing limit are made of different mmaterials. EY means of Ratomskiy's instrument this limit is determined accordin-- to the freezing of the soil that has been filled into a metallic telescopic shell; by means of Danilin's instrument water in a rubber hose serves this purpose. The assumption that the soil in the shell and the water in the rubber hose freeze simultaneously with the water in the soil pores entails an inaccuracy since this may occur possibly at various temperatures,, At the beginning of winter and in spring Card 1/3 both instruments yield, primarily after the melting of the  Errors in the Reading of Ground-frost Measuring SOV/50-58-11-17/25 Instruments Desi.-ned by Ratomskiy and Danilin snow cover, distorted values of the depth of freezing and mel- tin.g. In publications this problem hitherto has been insuffici- ently investigated. The author checked these depths by means of a drill or by digging out a prospect. The aforesaid measuring instruments were mounted in the Glavnyy botanicheskiy sad AN SSSR (Main 'Botanical Garden, AS USSR). In this case both the kinds of soil and trees differed from one another;,the ground- water 'Level was found in a depth of 0.5-1.0 m. The frequency of the above-mentioned differencea (+ and - compared with the check) is listed in table 1 which indicates that Ratomskiyls measuring instrument in 92.3 % of all cases yielded higher values than the check. In 5.2 % equal readings were obtained. Fi,~,rures 1 and 2 show the deviations of readings from the check at the be-inning of winter and in spring. Table 2-and figures 3 and 4 show corresponding results obtained by Danilin's instrument. The author explains the deviations determined and arrives at the following conclusions: 1) Ratomskiy's ground- frost measuring instrument is not very well suited for regions of a low and unstable degree of ground frost. The tube and the Card 2/3 filling shell are made of galvanized sheet iron, which  Errors in the Reading oi, "round-frost 11.1easuring SOV/50-58-11-17/25 Instruments Designed by Ratomskiy and Danilin possesses a high degree of thermal conductivity. Considerable errors in measurement occur accordingly. Checking measurements are to be carried out in regions where the ground freezes to a sufficient depth (up to adepth of 20-25 cm) at the beginning of winter and in spring during the thawing- (up to a depth of 50 cm). 2) During the period of ground thawing Danilin's instrument agrees with the check to a larger extent than Ratomskiy's instrument. But in the case of thawing from above (from the surface) it records a lower depth than the check; on the other hand, a larger depth is determined in the case of thaTing from below, After summing up these data a frozen ground layer is obtained that is thicker than the actual one. Accordingly, the time of complete thawing is shifted by 1-3 days. There are 4 figures, 2 tables, and 2 Soviet referen- ces. Card 3/3  -, h;'., 11, ti I I'l , , - " I MODZOLEVSKIY, Igor' Vladimirovich; BARSEGOV, A.A.,- KARPOV, I.V.; KARTSEV, I.T.; KRYLOV, N.M.; NIKOLAYEV, I.V.; REVICH, V.I.; SHEVYAKOV, V.A.; SHOKHIN, O.A.; CHUSOV, A.I.; GORODNICHIT, B.G., redaktor; C119MBBET, KHITRO . P.A., tekhnichaskiy redal-tor [General course on-railroads] Obshchii kurs zheleznykh dorog. Izd. 2-o, parer. Moskva, GoB. transportnoe zhel-dor. tzd-vo, 1954. 316 p. (Railroads) (MLRA 8:3)  MODZOI,F,VSKIY, Igor' Vladimirovich, inzh.; BARSEGOV, A.A.; KARPOV, I.V.; URTSU, I.T.; KRYLOV, N.H.; IIIKOLAYEV, I.V.; REVICH, V.I.; SHMAKOV, V.A.; O~.A,;. CHUSOV, A.I.; GUBAREVA, N.T., red.; BOTROU, Ye.N., tekhn.red. [General course in railroad engineering] Obshchii kurs zheleznykh dorog. Izd-3., perer. Pod obshchei red. I.V.Modzolevskogo. Moskva, Vses.izdatelisko-poligr.ob"edinenie M-va putei soobahcheniia, 1960. 290 p. (MIRA 13:12) (Railroad engineering)  L 44382-66 EWT(l) FDN/qV ACC NR, AP6029870 SOURCE CODE: uR/0413/66/000/015/0011/0011 INVENTOR: Belov, V. I.; Shevaldin, 1. Ye*.; Shokhin. V. F. ORG: none TITLE: A method of producing heat insulation in boreholes in permafrost regions. Class 5, No. 184205 SOURCE: Izobret prom o.braz tov zn, no. 15, 1966, 11 TOPIC TAOS: permafrost thermal insulation, borehole, drilling AtSTRACT: A method of thermal insulation of boreholes drilled in permafrost regions 161 described. To prevent the cleaning fluid from freezing during circulation cutoff Fig. 1. Borehole 1101 t qlj~ Inner column of casing pipes; _j 2 - outer column of casing pipes; 3 - reverse valve. Card 1/7 Imr! 622-94i.ni  L 44382-66 ACC--~40: - -AAO-2~8 and the formation of hydrate during the subsequent exploration of the wellf the space between the two columns of concentric casing pipes is filled with air. Wh~n- ever necessary, the air can be periodically blown through by means of reverse valves (see Fig. 1) installed in the lower part of the inner column. Orig. art. has: 1 figure. ICS] SUB CODE: 081 SUBM DATE: l5May651 ATD PRESS: 5077 Card - 2/2 -~&!  SHCHT-, V. N. J11CFEI'l, V. N.: "Invectigation r-f tht~ phenomem of rovement of miner- al grains in susnensions used for dressing coal." Min Ifigher Educatio: U.SSR. I-'oscow Nining Inst Imeni I. V. Stalin. Chair of Er~!ssinpa --f Useful Yirerals, lbscow, 1956 (Dissertation for the Degree of Candidate in Technical Jciences) So: Fnizhnava Leto.nis 1, 114c. 17, 1956  VEtd,HOVSKIY, !.N., SFOKHIN, VA. Movement of mineral grains in suspensions. Obog. rud 3 no.6:16-Zo t 58. (MUU 14:8) (Ore dressing)  ,50V/136-66-8-1/27 AUTHORS: Verkhovskiy, I.M. and Shokhin, V.N. TITLE: Method of Determining Final Fall Velocit s of Grains in Heavy Moving Media. (Metod opredeleniya konechnykh skorostey padeniya zeren v tyazhelykh podvizhnykh sredakh.) PERIODICAL: Tsvetnyyebletally, 1958~'Nr.8.. pp.1-4 (USSR). jp 11 ABSTRACT: For determining the falling velocities of particles in opaque media (suspensions] visual methods are unsuitable and various electrical systems have been proposed. The authors list the disadvantages of three of these - that of Mitrofanov and Zelinskiy (Ref.1), of Muzylev (Ref.2) and of Goroshko (Ref.3). They go on to describe their own method which is free from many of the listed defects. The electrical part of the method is an improvement on that of the tensometer designed by the Moskovskiy gornyy institut (Moscow Mining Institute). The principle is that as a ferromagnetic grain passes the centre line of an induction core it causes a change in the inductive resistance of the coil, which unbalances the bridge circuit of which the coil forms a part. The impulse is amplified Card 1/2 and registered with a millivoltmeter; the same occurs when  SOV/136-oB-8-1/27 Method of Determining Final Fall Velocities of Urains in Heavy MovAng Media. the grain passes a second coil. An oscillographic record (Fig.2) or other means can be used for timing the grain over the distance. An editorial note points out that the authors have not taken into account the difference in suspension speed at the walls and centre of the tube of their apparatus (Fi6.1). The authors claim that the apparatus enables the falling speed of grains in heavy media, including ferromagnetic suspensions, moving at a constant speed, to be determined and suggest that the method could be applied to studs grain motion in true solutions as well as suspensions. There are 2 figures, I table and 4 Soviet references. ASSOCIATION: Yloskovskiy gornyy institut (Moscow Mining Institute). 1. Grains ([4etallurgy)--Theory 2. Grains (Metallurgj)--Testing equipnient. 3. Grains (Kata-11urgy)--Test results Card 2/2  VARLAE,OV, N.A.; SHOKHIN, V.N.; BELYKH, L.P. Dressing LisaKc-.rka ores in a hydracyclcne with a ragnetilte suspension. GoL. zhur. no.8;67-70 Ag 164. WIRA 17.10) 1. Magnitogorskiy gornometallurgicheskiy instittit.  ZEMSKOV2 V.D.- BRILLIANTOV, V.V.; VINOGRADOV .t N.N.; !S VDZ I P. H011ii-N, IV-N-- Electric measurement methodB in investigating wet gravity ore dressing processes. Nauch. trudy MGI no. 32:5-14 160. (ore dressing) I , (Electric measurements) (MW 14:2)  VERKHOVSKIY, 1,14.; V.N. Determining the boundary dinie:iaions of a grain moving in.4 suspension. Obog. i-ud 4 no.6:3-J7 159. (NIRA 14:8) 1. Moskovskiy Gor~~7 institut imenj I.V. Stalina. 0-article size determination) (Hydrometallurgy)  k,-,x-. dtc!khr.. n&W~ 1:- f WIRA. 17,  GOLUBEV, A.V.; 7 "I-VIL7 I V ; Frinir-a-li ucbastiye: ANE,;IYEVA, Yu.G., I37,!A-6D,jO'vII) !a'I-,nr---,Ay Z,R., laborant; I.TAL'ITTA, laborant; T U , ,rznt; 61 ~:jy I. S;. , laborant; SHO= Invz~~,tigating heat currents in soils for s,.:me types of the aotj..v-:~ rurface. Do;:I. -U! SSSR 130 no.6:.66-118 Ag 161. (IMU 14:7) (Yoscow Frovimce-Soil tEmperature)  0-HOKIIII-A, Cand Geol 1.:3-n Sci; -- (diss) llklkaline rocks of the Bullan-Kulfskiy massive (Krasnoyarsk-iy 195~-7, 13 PD (Yin of Higiner 5ducation. Yos Order of Lerin and Order of Labor IR;ed ~anrer 6tate Univ im !.!.V. Lomonosov. Geol Faculty. 1-~'Iiair of Petrography) 11-0 copies M,, 34-59~ 1-12) - 2Q/ -  SHOKHI11&, 0-. 1.- - - Composition and texture of alkali rocks in the Bulan-KullskV massif. Nauch.dokl.vys.shkoly; geol.-geog.nauki no.2:54-61 159. (MIRA, 12:8) 1. KOT4)lek8naya laboratoriya Institute. geologii igeofiziki Sibirskogo otdela AN SSSR. (Kuznetsk Ala-Tau--Rocke, Igneous)  SHOKHIHA, 0. 1 .-- I-,.--- - - ---- -- -t~p Geological characteristics of the Bulan-Kull alkali maseif (southern Krasnoyarsk Territory). Izv.v7i3.ucheb.zav.; geol.i razv. 2 no-3:54-64 Mr '59. (MIRA 3-2:12) 1. Moskovskiy gosudaretvennyy universitet im. M.V.Lomonosova. (Bulan-Kull region (Krasnoyarsk Territory)-Petrology)  F.I.; SHOKHINA, O.N. Viscooity of malts in the system NaN02 KN02. Z'Pur.neor--.khim. 9 no.l.-152-155 Ja 164. (MIRA 17:2) 1. Rostovskiy gosudarstvenry-j universitet.  SHOXHINA,V.A. 6 Foraminifera. of Jurassic and Cretaceous deposits of Gorkiy ~11 Province. Paleont.sbor. no-1:99-117 154. (KLP.A 8:10) (Gorkiy Province--ForRminifera, Fossil)  SHOXHINA, V.A. ~StrMatgrk%-~ of the southwestern end of tne Sura-Moksha upheaval based on Yoraminifera data. Trudy VNIGNI no.5:41-48 155. (Mbkoha Talley-Foraminifera, Fossil) (MLRA 10:9) (Sura River-Foraminifera, Fossil)  SHOKSMAIN, Y~,,,%, k-'l-nq. lnidnik- n,~ cill thr, in i~irl'-'-'...re-rl due to Perzus5alcn cap no, 1 L a c C. 0 a - .~ t ,I' ~ -1 . r ` I  J"~- -,~,-c- and, d~-vcxv Z"-,. I.N -'?5 5. Tr5,.itut ellerncrtoori~.Eanlcheskikh soyeahien-Ly AN SSSR.  SHOKINAIT, Ya. D. Measurement of the strength of the muscles of the leg and foot. Ortop., travm. i protez. no.1:70-72 162. (MIU 15:2) 1. Iz detskoy kliniki (zav. - doktor med. nauk L. Ye. Rukhman) Leningradskogo nauchno-issledovatellskogo instituta, protezirovaniya (dir. - dotsent M. V. Strukov) (MUSCLES) (LEG) (FOOT)  IOSMREV, M.A., kand.tekhn.nauk; BOGORAD, M.L., kand.tekhn.nauk; SHOKIM, G.I., inzh. -61-111. a culation of the durability of threaded flange joints on the baois of maximum loads. Sbor. at. NIIMIMMASH no.21:3-8 158. (MIRA 11:7) (Flanges-Testing)  A a c I t- -1 r 1. 11.1 10 h 's. A,-A The problem of the structure of Gustay"n's hydro 00 c,*,,rlwn. V4. Nt SI-4--fin tind L N. `4h.L!- 00 4, 44 XUM. 0. G-1. Chem.) lot, I I I.. . * 0 to Ntun.y All.1 St,-%t.n-IA i(' 1. 3.4. It:"." -00 the Ranlan SIMetruta Ail tile Ily'll-Lit".11 lit'l 00 0,tained hY Ciu,tav-n (J. P,akt. Cke,,s. 54, 9A, 1115 09 00 A if it i4 hy tile action if Ill Jil't 00 *0 4 I'mm'Al from tile r"wtion Illixt. (I..Attlibi we"Ild.uy rv.w- 0 IIICII llilt%l W%A`taI little' 0A1t 2 little' -eI NO to 0 4 1 * -06 re,ulling in b. 31-41", .1' 1.41107, 110 0.7377, 1 1; A, .1 R 2:1 25, 0%-% twitlier the frriluency ~~Rl nor IAXQ 00 C,)Ilt;%iII4 livitilvt 'pit'llwiltalle 11tv Altlict I%y%IT.tcjrIh)n4 -00 11 A HAIIIAU It-4111111, it il It aliAt. mettlyl-I I IU4 Itt" 00 WOW 1. hy ctcll'140. MA-C I I,QMc: C I I N. I'l-n A thermochimmicstl evaluation of the hand Ittengthl In t el f .,ono cathon comitounds. 1. (Methvi cathonI io,liaa Ild I ethyl tiatbuni majItnealum. 11. M.t. lir Aa.l A It. 111.1tchdide. .1. Cht.. S... 104A. 11111 711 C.I.iri aictlic ittexAurriurn1% till the te.i,twit pair Nit-Mitt 1 MCI + %till, atilt MCNIKI + 1. - C.11, I- the, tv, p. beatt of rrawtion to tic -45.4 ttI I anti - W3.1 3 kcall.Ani-A. The 2nd tMLA- j1tA- i. till ~-r A( c%,VA5 INIttis. Fraul thcIc S.,ults are cal"I. lit, Cit. Mg A.g Ad., A A, I 67ji Leal. 7 .11 all a" I IrA All L 1 11 0 V -1-W-64 -I _0_3 It V U U AV a L% ! a& &C K a It a AT cc a It or A I Ana 0T-,41 00000000000086eq, *0 lee 'OR 00 00 0 0 0 0 0 0 * 0 0 0 * 0 0 00  SHOKHOR, I. N. USSR/Chemistry - Polymerization, Dimerization Aug 48 Chemistry - Vinyl Compounds "Polymerization and Depolymerization: IV, The Dimerization of Divinyl," Ya. M. Slobodin, F. Yu. Rachinskiy, I. N. Shokhor, Mil. Acad imeni S. M. Kirov, 3 jq~ I'Mur Obshch Khimii" Vol XVIII (LXXX), No 8 Shows that during catalytic thermopolymerization of divinyl in presence of floridin dimer forms are produced, accompanied by migration of hydrogen atom. Main product of dimerization is 1,4-dimethyl-eyelohexadiene. By-product is 1.,2-dimethyl- cyclohexadiene. Lebedev's dimer (vinyl-cyclohexene) is not formed -under these conditions. Submitted 25 Jim 46. PA 19A9T20  SHOKHOR, I. N. USSR/Chemistry - Polymerization Chemistry - Vinyl Compounds Aug 48 "Polymerization and Depolymerization: V, Tetrameric Divinyl," Ya. M. Slobodin, F. Yu. Rachinskiy, I. N. Shokhor, Mil Med Acad imeni S. M. Kirov, 2 pp "Zhur Obshch KhimiiII Vol XVIlI (LM), No 8 Shows that tetramer formed during thermopolymeiization of divinyl. in presence of floridin in the temperature range 300-400 is 9,10-dimethyl-decahydro-anthracene. Submitted 22 Jun 46/ PA 19/49T21  DOIGOV, B.N., professor.;SHOKHOR, I. Dehydrocyclization of benzalacatone. Hauch. biul. Len. nn. no.22: 25-26 149. (MIaA 10:4) 1. Kafedra organicheskoy khimii. (Butanone)  vkydo cogy1mbittal. Va. M. Slobo. (fin an -;::L, zur ObskArl KAin (J. Gem. Chew.) 21, Mdl- 951); f. Sabey W Whe: C-4. 44. Io3Re.-Ac(CRjW.0%I with 58% HBr at room tew. pvc &,,-S% bromide, b. 1(*-7*. bw 83-6*; this (25 g.) treated with 12 C. KOH and 3.4 gal. H#O with shaking pvt 92-6% e3vipprop,yi Mv Asomw (1). b. 1M-12.5'. d '84 0.8W stO 1.4246- stmicarkwat tit. 121-2'. 7U(14gjIn250mUw- PrOH i,~.ted with AOCHMes). from 14 t. Al (with 0.5 c. HgCls and 4 tol. CC14) and bested to 110-1b0 with dinn. of Waco gave, after coolln and addn. of sq. is*-PrOH. filtration. and exta. with Et.O. 92.5% ndh3w carbisol, bm 122.4-2.0* dl* 0.8M. 1.431 , -Y" 23-35 dynes-ern. RL~ sh1ft lines foray. product are: am 1) , 489(2). 6W2). 711(3). 736(4). 7M2). OWL FW10), 919(4), DWI 10200). 10M1) Un, 1 1197i'10), 12u(2), 1300i). 'awl). 14375( 3 21"3). 2WXg). =( ). 3013(8), 13). 1" k For tbM 3), MIR), 46K1), . 8 737(d). 9W5), 104 lill(l), 024 16WO). 2M013(6), (2 . I . and 4). -IY$is confirtas the ity or Ltd. 0- hi. xaswapoff  StMctW$ (A OUSUTWQ's hydrecubon. 11. Stepwise tyathesis at ~pLro tons V M Slobodia and 1. N. .=.. ZAT =M* Xham'. (*]. Gen. Chem.) 21. 2ODS-110931). cf. Gustavson. 1swil. And. AVoub (R 5, 2MIS06): J. prok. CJmm. 131 $4, 1050m); 56nj (1897). C.A. 43, 901d.-Parm-, "ysb of Oustav"B's hydromarbou mist. shooed that (be principal components mV Thestepwises tang (Zellaskil &W Xrmvrtx. ". 7. 1 IVP Ilves n*ibyJtxecycWmtaae only, since the 3-mrotbared ring d sming the spech-nista of isommeritto S =zgr t bylcosdl atiot 1= vorskiT atal Batalin (". 19.1750). C(CifOii)o~1301.)RndIC2,~AL,%Orcduscdg hm gave several fractions, ncluding N . k*#1 stistAmAr. big 202-6% witicit crystallizes in put owing I tra tion of Ac poups, depositing peatacrythrilol; IL = tractions ~tfiaftd tetra- and triacetates, The product treated with red P amd or in CKC1, with ke (volinit save 3N?4 2.j-btxbf"WmWk dw A& ar#ftm. ba M-7 , d-1 1.651%. 1 if.). tsesird with laO ad.,810". 162 11,0.;~dWg. ZoduM2 'hm on the stain; both gave 41110"AMM, 44% bm 135-7% CIP lX817. oV 1.4445k whiels boilesi 0 bra- wM "td. KjLos $010, gave 85% j.j,,JgjO. P-PONG&O#L%sW. ba 123-7% dj$ 14710, nV I,vaak Abetterprace4m w" to treat the bmwide with zn, tat. the O&L with Nils at 09, sad let amW " days, The glycol jjbovg w" PDrv and Pyridime gave 43 of the W ;=hb% 83-7*18d 6 M a '. 9C Za d H-Tel sx1m%ultantota-Z Zol . r6ava 4714~ydm4pbow(tl).b,.41.3-2.3*.dl-0.7337.*V 1.41#2~ -YO 2U.37. whirit. hydrogenated ov" Pt Oxide, readily tat* uPOO%(Gftbtcfttk'bl)l(. Its coasts. and behavior em. Am Its StIrUctuft - mord*Wyclabalext and m a tsoc of OWrOWtant - (-M. Hydrogenation of tM Gustav brk-rbou evef Is time curve with a break fadicatim; bydrammood- of 2 components. Wherm n gave a WOOD& VJM; 01104201Y118 gave cyclabutasmit md "Cojt only, TIM 19-selmotion to the cyclow. no The smvows to Mainly 'luring be 'Mment La the dibromide. probably With f-tkXj of I-bronx)-l-(bronvoroethylkytiobatoar from I.I-WbroawnjethyI)cycIoprop&ne. The Raw&n spectrum of the dibromide contains elements of 3. wW 4- membered rings. G, M. Kowlapoff   SLOKDEr' YA. ".I Si"C"HCRI, i. ~~ Cycloprcpylacetylene Cyclocropylacetylene Zhur. ob. khim. 22, 111.1o. 2, 1952. Mont.U List of Russian Accessions, Library of Congress, Awgu-st l9c2. Unclassified.  USSR/Chemistry - Hydrocarbons Feb 52 "Action of PCI3 and PBr3 on Methylcyclopropylcar- binol," Ya. M. Slobodin, I. N. Shokhor "Zhur Obshch Xhim" Vol XXII, No 2, pp 208-214 By means of Raman spectroscopy, identified products of interaction of PBr3 vith methylcyclopropylcar- binol (I) as cX-bromoethylcyclopropane and about 70% 5-bromopentene-2. Established that OC-chloroethyl- cyclopropane, product of interaction of PC 'lLwith I, undergoes opening of ring only to small xtent. During its prepn and treatment it is subjected to 209T15 USSR/Chemistry - Hydrocarbons (Contd) Feb 52 partial splitting off of HCI (10-15%) to form 75% vinylcyclopropane (II) and 25% trane-piperylene. Synthesized II and took its Raman spectrum. 209T1  Ira eloof 8, "''l7( --III tho 18110), C.A.. 48, 12841d. m6c f)'IIf4f_ni- of spirop"'nuill", duffilf, t1m. cilinifte of tjIG Iftl -ow-mbm-d I Ifig Ott,: take.% pluv,: a Isarthl trall.4forimo; Ifuli fillu t4 4-11m.11161ml dilgi whl"), c"Inutte hj rualpfcti:4 when Ilik- Amil pmhtef W ~)rt,pd, Olefitt kwinadurl vecars to u lc~'vf Ikgcc' Thc ek;tvalt'! of Dr lit thp riaril st(Ij lit Llicy' ptvs~two of NuC01 wid Nal ykIdt; a hydr(II!,irbrin ttil"Cf. In -',it uq ylizz acid "'tut (CJWO'j!),' (21 i Ft'o fr('110-11 will) W, oit!I k, coolhig Y;eiflc;l 05 g. b . "N-Nol' On 1.5, L~M71 1. P;IT!1xi ~k. M. -0 Isn(2), 1346ji), W~j(flj and ~i!%:11 Ti-i.. with Xv wi -L idded 80~-~ piri, ;;je1hyrcnc-. 4 1.6 1 4186, Raman spm-ttuln 2867tt), wi-I RQihz,.jiq: t1w dibrutrilde with AgOAc and AWH 1; lits. g;tvv pme -7"  S 1 "14), n) d1croale, b,4 166-10'. Raman spectruri IWO-, 2 If.!), 42712), 40(g), , Wq(4). 704(4),. 793(4), 8,4 2), 9113(s). W1(5), 1012(4), 1000(4), 1 IOK.t), 1174 2 1N1(8). and 1741(6). Tht- hydrocar=t obtainta fi.)m Zn dust and 1.1-I)ii(bro.tiomcthyi)cycloprapane (loc, cil.) had dl- RUnmn spectrum: U11 - 4), VI(2). 77(10.5), 873(21, 165,f(0.5), 307YR), 2M(I), 2tWiS), 2024(4) 295S(A),,knd3WS(8). Iftliisdi-~.9rtlt,riv.(Ilg.)i3adiedtc 50 tril. MOH, 17.3 nil; I-ItO. 15 g. Zn dot, -8 g. XaIC and 0.73 g. X5.1, #-he m3ulting hydrocarbon, b. 30-420, 2  ky Pj It t n tv (, ~,plro) 2,4,6 - crionhorohydrop rfini- and I-- hL- Ch "Lt ;Gild SOml. MOR was added wi~4 .~~Aaing 10 g~ di-Et ar?d 5 g. urea, tLe mixt. StirfCd 0.5 11r., fin3lly at r(Y.'1111 WMIJ., 41RI the get was ("ated lViLb 50 ml. MO and iwnfruliml xith IICII, yielding 00% (tClr,)'rC(COJVll).-CO, (1), clecomp. .130'. The imme prod- tict forniv at room lonp, hut the yield declines at 60'. 1 19 Similarly obtained froun I r. Na in 50 ml. HLOII, trated with 0.6 1, and 2.3 C(0[3t)4. Itiffluxin-, I ,Y:tlt 20%, ICOII 4 hm nve cyclo- G. M. Kosulalloff  S#641#CR -~C, A,,    SHOKINY I. N.; SOLOV'YEVA, A. S. Increasing the stability of ammonium bicarbonate. Trudy MKHTl no.35".43-47 161. (MIRA 14:10) (Ammonium carbonate)  -c V: a 9 0 0 : 6 0 0 0 0 11 is 14 n 14 at is " 8atn24 Is h a a 11 U k3 14 15 Is V3�xu 41 ii d) "are A_ L-L L a m p A I-1 -_0T. I-L-M K.IX W I Ad 0 06 .00 so 1 and Suftautica d 40y.bom prepamilanx in the BUMAS DWY. h. A. V . (logindt. A. 1. Kollitilovo. R - N1 . Kut-lk . ft. A. Mowk - uvAn and L. V. Pawl. -'kk`ifJ4"# uc )I pW4x= r4utein is 88%. -The IOW val 211-34 0 D32) R ) 1 - . 111dind, (U. S. S. . the cwbohydrate lood'valaw 6 lW11'e. A poy-bean 01MIATT11 With Mat and d3h; ji~ ,Iv f dl i -OS r l x" th no s4M o tile ante gain In wright as a Meat A71. w -00 tintutwes. liencemitr brand Rm valuable as a substitute fur [neat In human nutrition. Fujian P. .1knith 06 see 04 Z atio 66 UNO.?Lif CLASSIPICATICft c Z 09 8 ' W t3 %4 a 0 3 OT : : : i 0 0 0 0 0060 0 : :  J1 a amis IA")SA1101) V11 AJAS Aim Jeffv 41 A Q t U11 0 it r0 v OLA P4 (C M U 00 as utugartne -d its CQv:WdvG OUlustiOu- l". N, 1. stpl,al, biocArm. r0fichustifixa. -00 of l~ 261 82(lilu).-Fevdins tests with (1,1% ahowed 10, tl"M, a-41111416,tl v i l -04 s l$ c U4-9.5- assitailation of Martalve. Marprint (reding jM%v no pCrrvpt Of butter the i i t . . n n w toms of tu%icity. and the test aabn&b vined about the satue anit, ; R V u~, ,sn p e tinit sk% anitnals fed with butter. Hence mArsirine of the kind tested (a S i h t kn so j Asu pf-luct) i% fully equiv. to butterwith respect to aisimilatinn. Julian F. Ze 0 900 -,49 -.00 4 0 t : Is go 00 8 00 se I, . U AT K3 LS r --i iA]a r' 11 -C K [I it %I An I S 4 a,a I or 94 I 0 0 6 0 0 K It It it T 'no g .  6 1 1 1 4 11 f1 tj U Is 4i/ is 1 72 ZI x iq Al It Ij 11 5413 biv MM@) at Q 4) 11 1 L *--?1 2 ItI U -L-1- M~ Ax li, % A -.1-L ~s -A -so A ~~tivs bTajU&tjoU Of Milk powder. R . M. Kutok. A~ 0. Gagina all. A. rEW and N. L Shokbor. ScArijim arWral. biacAeft, Ivor- sduallsind. SaAr.-&xWrrxi(AW%d- (U. S. S. R.) 3, 121 - 4t)(19M).-Parallell feeding tests (dogs) we= Inade will' so A cow milk and milk powder contic. protein 25-1. (at 26. go 8; carbohydrat" 36.0. water 4S and ash 4.8%. Digestion ciptit. shcraml a -lower rate for ruilk powder, evidently 00 a due to the different phyi. Lvn4lition. but ftxxl value itud so U, dicestibilitj of the povrdvr compare favorably with (rrli nillk. *ntc protein wa. 94.11% assimilated in milk powder. tX;% in fresh milk*. but Ov ilittv%tioti was slower in the ix)*.Irr than in fresh ruilk. )ulian F. Sinalt led 0:: Cos j ro 0 go -r 00 le Co 0 ides us voe L NtIALL~R-C&L LITIRAI.At CLA%%IFICAIIQW -11113~- Its Is T--f u n- -j7 Joe OrWIt OVu Kit Rit K U I'S It K 14LO n 1 114 4 0 0 0 'A  0 00 t 00 00 04 frj C 0 f 0 Fii, -L-A-L-A-L 1, A 1 9 1 1--1- j V,,j_ -s- lit -10 1~ 1:14p19) The effect Of mcdirinal' " the "'holi'lln of I'Aige mrstir aniniAls. N. I. Sh"kh"t, P- N. Andrurv. A~ 1 0 atid 7-T.- Iku, 1939, No. 7. S:, 141; "1"' 3 N,i 193r) -0* ~ . , 11t)r-s an t at" tit i illifing .00 it I.V :111 A t,t,t 'N,143 lit- %Ili I Ile j Im A, of tlli, aallid, N 111111,611 illetraw I fli4I in i ~ ~i'l itt W%l~lli~li l [ F; i1 lirlolv. l l l 'If c Y(3 Y111 atc t, ;l d 411 N I it - K, an y An., TV51'.. d -114 1~lx) ~. .,I phy-i"I. N 00 z lit :;J01 vc. an 0,11 Amstrel ill choll. rotallm. i 0 '- 1101 * A S A - I L AAfTALLURGICAL. LITIRATURI CLASUPICATION S" *Gotill W Ct. CV U I I )-t. .a 0 j.1 13o., ,>,A- AT u t, tr t, s, 41 K It It K K IT tt If x :*W**, 4 6 0 0 0  CO 0 Y 0 R N. I.Y 2. USSR (600) Fnev.f!i.atika 71ant "The Arram-e,--ent of Planet Pinions in the Planetary Reducing Gear" Stanki i InstriLment, 22, No. lp 1941. 9. IM Report U-1503, 4 Oct. 1951  SHOKHOR, N. I., Prof. "Pathological Physiology. Third revised and Supplemented Edition. OGIZ - Sellkhozgiz, Moscow, 1947. Revised by Meshcheriakov, Lect., Cand. of Vet. Sci., Head of the Dept. of Pathological Physiology, Kazan State Vet. Inst.11 SO: Veterinariia 250), 1948, P. 47 * 40 0 0 0 e 40 9 0 0 9 40 * 0 0 40 * 40 0 0 0 0 9 * 0 0 0 *  0 4111 0 0 0 0 0 0 0 0 416; 7_00- 0 S., Uri 131. Metallathermy in the light dl the electrochemicAl seriets 1. 1. I,k-W,14il Aisd T. G. lilmishcr. J. Applwd C-Am. _041111 1 11S~S.W) 19. Olm-a"(191111(in Ruv-i~u). -M RrAv- 1 1 . .1M %, fit, 11M.,tism"I lwtwcrll 1.)W,I. (70 Ille0l) .",,I in hatchr, tit 25 j. oxidr. 3 1. Nal: L, fht%. 19 t. 11.11 1. t I x. met..1 im)",Icr j, immilln, kimlletl fly,. . ......... .. ... ..... 1-1.14. wilv 12.8"", 4 tile .. -Nalmd .- Fe 7N.M.Si "1111.1.,11ble Ill, Allit. I t I'_' S.). tile Odd Wx, MKI), Alol, %P.. W's. kv,th. 'hill, Ci's SIO ; 00 Ow allov I-c 7V.7;, limilg I:v,(), lptclxl. finin I .r zs(~" 1111h. CItp.. lict), C.41). I;C,O,: Ni( : ' ;:%abtv. itl4v-l J 4"111 pptil. tile Si t"Illvilt i, All, zlit), Slit Is, 1'1'0. It.40, 614)) hy I I uIrments (I.I. C.I. ( I'l l 00 I'l 11 i 0) M Al Si Z F C C A ithel; usill'"11 thl%. Iv,* millt. litilleftfix-14 rctluctloll. t l. c, v. l, . . ii, ll), comp-irr' . , g, , t,-. --,twto 2Fe f- 3cut) - Frio, + itilli flit- ch-cir"Illotive 1xilesittAll tit tile Utter. ('111twim A.11), t SO. 2 X. Cit (wilh I,,', Fel .,-rr Oll. a ImIA1,11,111 file heAlAall't the -00 I Imm-A .1111 L., A Ir. 1;e'y11'qhf'mT (liew reach"I I Ile l) : s fe" 1-111 ll"t patit'l-aw C.M. fly comi feritic the l 4 li m1 ,I Al -; f i A d f N Wl ti 1 ell 1. - Mt, i I f LTr' A all~vhiotllrldc .11111. 1 if 11'. , l ll, . - ii, m o . a le r ly rittelit4. 99 . 14.3 st.). r.%,J.~.'l X. I-ir (-ith < 0.1l';, lie); with 6.3 st. N.Th,m ;00 lie. J. 13 Ic. 1r. of 225 g. CUO with 2.0 1. [It- Xvr 3.71) X. Cis tit, lie. -v ith ~180 ' A S Cb't'. Pl. 'I"ithi-swul, ;Jmt. "t Ca. K"~e M, ~11111 0 -- - jdL1L_j ilirt.11 but C., tit. L'talll..Litr .411d 1.01, Chill. IAkr%%1w' Marm-l". 00 so f th"'..v -11: 1. -dy %It. I'm it. loiltil ')so, 2a jz.. MK 1.41 9 of alld Nigo tia, ubtailacd. (2, 3 Zoo .:DID t, too 40 0 & 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 9 0 0 0 0 0 0 0 0 0 0 00 o 0 0 0of* of 000  :77 1, 7 zb~ ram C~-hh it: ~jXe =11a i_,,I:c aud Al. Th., C~aztitics af iare ~f:!~f A 1-.- a--- dt:t(j. On an4ii- ~,f Addled r~rt eput-h fn' D -1  DLYN, E.S.; GERTSENSHTEYN, E.N.; RUDFIM, Z.Ya.; TAPTAFOVA, S.L.; CHN'?VOVA, A.D.; S1101GIOR-TROTSKAYA, N.K.; KIJIWYEV, L.A., red. ; rUZl'l-.IEA, [Handbook on the recovery of speech by persons affected irith aphasia] Posobie po vosstanovleniiu rechi u bollr-Tkh afaziei. Pod red. E.S.Bein. Moskva, Medgiz, 1962. 335 P. (14IRA 15: 5) (APHASIA) (SPEEGH THERAFT)  SHOKH9y4,,I*.�*, Imnd. tekhn. nauk. - Mectric methods for metal coating. Mashinostroitell no,1:23-24 ja 158. (MIRA 11:1) (31ectroplating)  PHASE I BOOK EXPLOITATION SOV/4594 ShokhovY Ivan Sam onovi ch Uprochneniye rezhushchikh, shtampovykh i Jzmeritel1nykh instrumentov (surface Hardening of Cutting, Stamping and Measuring Tools) Moscow, Trudrazervizdat, 1959- 94 P. (Series: Novaya tekhnika i peredovyye metody truda) 5,000 copies printed. Scientific Ed.: Ye.A. Pankina: Ed.: A.L. Bashkovich; Tech. Ed.: A.M. TQker. PURPOSE- This booklet is intended for foremen, teachers in engineering trade schools-, and it also may be useful to workers in the machine-building industry. COVERAGE: The booklet presents data on the surface-hardening of the working surfaces of cutting, stamping, and measuring tools by chromium plating and by thermochemi- cal treatment in the solidp liquid and gaseous media. The author provides exam- ples of the chromium plating of scme tools done in accordance with the new group- processing method developed by S.P. Mitrofanov, Lenin Prize winner. No person- alities are mentioned. There are 20 references, all Soviet. Card 1/4  SHOMOV, P.A., elaktromekhanik How to prevent short-circuits in ABII-72 storage batteries. Avtom., telem. i sviaz' 9 no.8:34 Ag 165. NIPA 18:9) 1. Vologcdskaya distantsiya Severnoy dorogi.  LEBTSITER, A.A.; LIMITS, I.A.; SPIVAKy Ye,A.; SHOKHOVkj- O.M. (g.Tartu) Change in sensitivity to antibiotics of Fewcaffue dysentery bacillus in the human body before the begirmin of treatment. Antibiotiki 7 no.7:643-646 J1162-. (MMA 16:10) (ANTIBIOTICS) (DYSEPTERY)  SHOKHOVA, Z.V.; MOTORKINA, R.K. ,,-!-- I- ". Using heteropolycyclic compounds for gravimetric and volumetric determination of germanium. Vest.Mosk.un.Ser.mat.,mekh., astron., fiz.,khim. 12 no.2:183-193 157. (MIRA 10:12) l.Kafedra analiticheskoy khimii Moskovskogo universiteta. (Germanium) (Heterocyclic compounds) .  SHOKHRIN? Z.1. Silvery jet. Znan. ta pratsia no.3:2-4 Mr '59. (MIRA 12:10) (Coal mining machinGr7)  SHOMIN, Z.I., gornyy inzh. Hydraulic coal mining. Nauka i zhyttia 9~ no-9:13-15 S 159. (MIU 13: 1) l.Nachallnik gidroshakhty No.4 tresta "Ordzhonikidzeugoll," Stalinskaya oblast'. (Stalino Province--Hydraulic mining)  SHOMIN, Z.O. Efficient technical solutions to problems in planning and applying methods of underground hydraulic mining. Ugol' 32 no.4:6-12 Ap '57. (MLRA 10:5) 1. Podzemgidromakhanizatsiya. 1. (Hydraulic mining)  SHO M IN, Z.O., gornyy inzh. Experience achieved by the hydraulic mine no.4 of the Ordzhoniki- dzeugoll Trust. U9011 34 no.2:12-17 F 159. (MIRA 12:4) 1. Nachallnik Gidroshakhty No.4. (Donets Basin--Hydraulic mining)  SHOKHRIN, Z.O. Some work results in a hUrdraulically mined section. Ugoll Ukr. 4 no.4:22-25 Ap 160. (M 13:8) 1. Nachallnik abakhty No. 4 tresta Ordzhonikidzeugoll. (Donets Basin-Hydraulic mining)  SHOKHTIN, A.P. Fix-aminer with an optical indicator. lzm.tekh. no.12:8 D 1620 (IURA 15:12).- (Level (Tool)-Testing)  SHOKIN, A.M. . I Large metallurgical center in the Korean People's Republic. Metallurg 6 no.3:38 14r 161. (M-IRA 14- 5) 1. Referent po Koreyskoy Narodna-Demokraticheskoy Respublike Otdela mezhdunarodnogo knigoobmena Gosudarstvennoy biblioteki SSSR im. V.L Lenina. w (Korea--Metallurgical plants)  MUKOVICH, A.V.; SHOKI-N-Al..A.Y. I'I'ncephalographic examinations in logoneurosis. Zhur. nevr. psikh. 64 no. 12:1785-1791 164. (WRA 18:1) 1. Elektrofiziologicheskaya laboratf)riya (zaveduyushchiy N.P. Bekhtereva) Leningradskogo ney-rokhirurgicheskogo instituta im. Polenova.  SHOKIN. G. (Saratov); SOW.DOYNIKOV, P. (Saratov) Voltmeter for recording corrosion. Zhil.-kom.khoz. 10 no.4:28-29 160. (KIRA 13:6) (Voltmeter) (Saratov--Gas pipes--Corrosion)  G-,~A;rmuL;-~ 1.-.~thcd of' c;f cup.-ous chloride by. mg--Lal- e~ouper. Truddy L of (-~,,pper monochloride in aqueous solutions of NaGl, D~O~Cl -t ruC!2 and !"a- 1-114 1p,:9) Cl t ~-TEL2SOL- Ibid. :11  SHOKIN, I.I., inzh. Investigating the wear resistance of gear wbeels made of laminated wood plastics. Der.prom. 7 no.12:14-15 D 158. (MIRA 11:12) 1. Moskovskiy lenotekhnichaskiy inatitut. (Laminated plastics) (Mechanical wear)  SHOFril I.I., inzh. &perimental atudy of the Itrength and veer of cogvheels from resin indurated plywood and tertolite. Nauch. trudy MLTI no.llg 85~-100 261 (MM 18a1)  SHOKIN, A. 1. 04a-lpjrw.r~~.-.,~1-11~.,:_--,~- Retention of fitness during elbow ailments in tennic players. Teor. i prak. fiz. kul't., 18 no.10:792-794 155. (MLRA 9:1) (UBOW, diseases, tennis elbow, continuation of training of tennis players in)  11 107-57-1-6/60 .iVIEHOR.: Miokin---Ir First Deputy of the DUnister of the Radio-Engineering Industry, USSR TITLE; Scientists and Radio Specialists Answer Questions of Editors (Na voprosy redaktsii ot-vechayLit uchenyye i radiospetsialisty) PERIODICAL: Radio,- 1957, Nr 1, pp 6-7 (USSR) ABSTRACT: The questions of the "Radio" journal were. (1) On what problems should radio amateurs work at the present time in adopting radio and electronics in the national economy ? (2) In what field of radio engineering is their experimentation particu- larly desirable ? Mass radio amateurism in the Soviet Union has a grgat importance for radio industry. Radio-amateur work ~s a source of skilled radio men, who are always sought by Soviet radio plants, design bureaus, and research organizations. Developmental work and mass experimentation by radio amateurs can help in solving many problems of improving radio circuits and radio-equipment parameters. To facilitate this work, better relations are necessary between DOSAAF radio clubs and radio-industry enterprises. At present, manufacture of radio receivers and TV sets has reached 1-million pieces a year, and saving in material is of great importance. A few rubles saved on me receiver or TV set can result in an overall savIng of millions of rubles per year. Amateur designers can help greatly in this matter; they should improve radio circuits, tran istorize them, and try to cut power consumption as far as possible. Amateurs should help in developing an inexpensive 3-band radio broadcast receiver with a VHF band. Amateurs Card 1/2  Scientists and Radio Specialists Answer Questions of Editors 107-57-1-6/60 should also help in developing receiver kits, TV sets, etc. Other possibilities of amateur work are listed. AVAILABLE: Library of Congress Card 2/2  __ - .- -'- -,- ~ ?_ . - , "I - , II . LIKHACHAVO M.; SHOKIN, A. World fair. Radio no.1:28-30 Ja 158. (MIRA 1l.-1) (Bruesels-Fairs) (Radio-Recelvere and reception) (Television--Receivers and reception)  107-57-5-3/63 ATHHOR: Shokin, A., First Deputy Minister of Radio-Engineerinp, Industry, USSR TITLE: The Ways of Growth (Puti rosta) PERIODICAL: Radio, 1957, Nr 5, pp 3-6 (USSR) ABSTRACT: May 7th has been the "Radio Day" in the USSR. It has a special significance in 1957, the 40th anniversary of Soviet regime in Russia. A review of develop- ment of radio engineering and electronics in the Soviet Russia from November 7, 1917, up to 1957 is presented. All main events are noted and connected with policies of Soviet regime. Of later events the following specific points are worth noting: First Soviet radars "Reven1w and "Redut* were designed and manufactured at the Radiotelegrafnyy zavod Morskogo vedomstva (Radio Telegraph Factory of the Navy Office) before WW2. In 1955 the radio-enginee ring industry (MIUP factories only) produced 20 times as much as in 1940. In 1956 the production was by 29% higher than in 1955. In 1957 a further growth by 23% is expected. Over the Fifth Five-Year Plan period the radio-engineering industry has started production of 750 new items. Over 6,500 items are being manufactured now. The number of research institutes and detached design bureaus has increased sixfold, and the number of specialists employed there tenfold over the period from 1946 to 1956; new are coming in 1957. At the present time the following items are being manufactured: 73 types of electron-beam devices, 225 types of shf devices, 229 types of receiving and amplifying tubes (some of them of a rice-grain size), Card 1/2  The Ways of Growth 107-57-5-5/63 31 type of x-ray devices, 99 types of gas-discharge devices, 44 types of phototubes and counters, 287 types of special and conventional lighting lamps. Over 100 million electrovacuum. devices, and over 20 million semicon- ductor devices are being turned out per year. Among many other things, various types of magnetrons, superpower klystrons, carcinotrons, TW tubes, etc. are being manufactured. Nearly one million capacitors and as much resistors are manufactured per day. A new material, "segnetoceramic", permitted creation of a new type of nonlinear capacitors. Extensive work is being done on moder- nization of processing and on organization of mass line production. The Sixth Five-Year Plan envisages introduction of 300 new mechanized, semi-automatic, and full-automatic production lines, of 700 new special machines. It is expected that these machines will be equivalent to 40 to 50 thousand workerr.- Despite a very steep rise curve the radio-engineering industry is still con sidered as lagging in its technical level and its economic conditions. AVATTART : Library of Congress Nine photosin the article. Card 2/2  AUTHOR: None Given SOV/108-13-8-11/12 TITLE: IT ransactions of the] Conference on the Occasion of the 40th Anniversary of the Nizhniy-Novgorod Radio Laboratory imeni V.I. Lenin (Konferentsiya, poovyashchennaya sorokaletiyuNi- zhegorodskoy radiolaboratorii imeni V.I. Lenina) PERIODICAL: Radiotekhnika, 1958, Vol. 13, Nr 8, PP. 71-79 (USSR) ABSTRACT: From May 22-24, a conference took place at Gorkiy which had been organized by the Gorlkiy Branch of the Scientific and Technical Society for Radio Engineering and -Electric Tele- communiqation Service imeni A. S. Popov. The conference was attendea by: B. A. Ostroumov, A. M. Kugushev, A. A. PistollkoTs, N. A. Nikitin, G. A. Ostroumov, V. P. Yakovlev, V. K. Ge, N, N. F. A. Lbov, A. S. Nikolayenko, I. P. Koterov, S. I. Pallmov , Morugina,, Ye. S. Sorokin et al. as well as by a group of formc~r collaborators of the Tverl radiostation. A. M. Kugushev spoke 1. Lenin, about "The Nizhniy-Novgorod Radio Laboratory imeni V. I L. A. Kopytin on the development-of the technique in radio enE:ineerin-, the establishment of radio communication facilities and television apparatus. A. I. Shokin spoke about the developmet Card 1--LA of the 5oviet radio-en.-ineering i-n-dustry during the Pa3t 40 years.  SO V//_1 422-58 -`, -30 /30 AUTHOR: Gaplichuk, O.M., Engineer TITLE: Conference to Commemorate the Founding of the V.I.Lenin Radio Laboratory in Nizhriy Novgorod (Konferentsiya posvyashchennaya pamyati aizhegorodskoy radiolaborat- orii imeni V.I.Lenina) PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy - Radiotekhnika, 1958Y Nr 4, pp 521-524 (USSR) ABSTRACT: On May 22, 1958, a conference began in Gortkiyto mark the 40 years anniversary of the founding of t.Lie V.I. Lenin Laboratory in Nizhrij Novgorod. Participants, who numbered over 400,inc-Luded V.A.Vol-kova, Secretary of the Party Gorkom in Kalinin, and V,Yo-.Skvortsov, Area Chairman for Communications in Kaiinin. Speakers such as V.M.Leshchinskiy spoke on developments in Soviet radio engineering, and particularly on the radio laboratory in Nizhriy Novgorod. L.A.Kopytin spoke on "The development of radio-engineering, radio Card 1/3 and telewision"; Professors B.A.Ostroumov and A.A.  SCV/142-58-4 3:D/30 Conference to Commemorate the Founding of the V.i.,,enin Rai;'t- Laboratory in Nizhny-y Novgorod Pisto2kors, N.N.Izotov, and N.N.Pallov spoke on their work with the radio laboratory;Ye.A.Popova-*andskaya (daughter of A.S.Popov) discussu" the work of her father. Ya.M.Sorin examined "From the Crystal to the Transistor"; the Confer-nc~e at -rrent transistor production in the USSF. '!a.N.Niko- layev assessed the worK of the uor1kiySchool regaraing the oscillation theory, with s,.ecial mention of Academician A.A.Andronov. Later, D.V.Agp-yev spoke on the work of the Radio Department, Polytechnical Institute, Gor1kiyand B.L.Lebedev discus~,ed research on radio measuring. Professor L.L.Myasnikov evaluated the work of the Research Institute for Radio physics in Gor1kiy. O.N.Malakhov looked at the observations of radio-phy.si-ci-sts-during a recent expedition iri China, April, 1958, the time of the solar eclipse. Finally, A,I,Shokini, Deputy Chairman, State Committee, Council --ji ministers of the USSR on radio-electronics.,gave a Card 2/3 survey report "The Radio-Engineering Industry on the  0 0 0 0 0 9 0 & 0 0 6 0 0 0 0 0 9 0 0 0 0 0 a 0 0 0 0.41 9 0 9 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a 0 050 0 ru a I U, it 2 --n- 2- 0w C, C, Sol ;)UVjU,,%rq3 pamaj.%al li, 41n,11sul 11 )1 it, 31XIM -Iqj_ 0 'R!W -!Dx M lot !,ItIIV 'cc !dpa iT 'WlIA3IIqsnA od w-s -n) '"-w '1"I 'rxDjLr- -V!310qs PUW q= 'A ul vd4ni v ;1A 90 04 vy'T--i -Y-1 tv -7-0 -3a A V I If 11 1 w toot aw at( fin Iforif v a vv upra VIIIN64 wit I it it 14 md I 1 0 1 t f I Ie  a of$ be= *09 a or 0 0 41 9 9 e 6 0 0 0 0 0 0 0 0 0 Ale 0 0 0 0 0 0 6 0 0 9 0 0 0 0 a 0 0 0-0 0 0 :0 0 0 0 0 s 0 a a 0 0 6 0 0 0 010 9 0 0 s 0 0 0 0 a 0 a 0 0 0 a 0 0 0 a o 0 0 e A a c a a G w x I. a 0 0-00 O's i' A L- I I sz, ~661, -AU1.0 -a 101. paAGIU31 vt 4123ftm WO jo *10 *X PUT MON ' 110)wD -ulm 'I'll U`4 'Pd"g w! ':) ~41 x,,Ln jjtj Aq i( Pn . alnmu%A v3 - !,I:)rg qqA, f" mm 10H U! PzArxmp fm -UM 2q1 altq ,Pidd 33V sit" M Pul 'P" 6' 4041 .V 3 ,0:) pun qMod lp!O P-11"'I 11 pampoila! 5! ;'lux 00 qlkjTm3a *VMT .1r.103 I V Ptm Utso.4 'Y 'Y PRO* Isedgwitic Wigan ItX 00 sllicwl~ -0-t C.; I I a d W ff i T-T-IrJr t a 09 u K Q a 11 n $I ti 11 it 6 1 1 1 1 0 1 1 1 ee oil  '~~Jlk I fff~ h S a At Ar it v IJI! Pv~ SMOV'. 01 POW014 0 Ai F- *0 0 * * concentration ol! sulfur dioxide. Z. P. Roscultnols atul 0 1. Njftjjjg. Ross, Nov.31), IV371 Claws t ro ml with P.M. tmerated ljy hm(Itic (INH, 'j'),e nlixt. of Sot anil Nil, i!i wa4ird with a sc7,),., 'K)~ and thc concti, suln. of sulli(cli (Nif.),SO. and N11.1f. thus kktainrd is trvited with SIMISO, forluell in the 9 KencrAtion of Nil. fimn (\'1lJSO,. z j! 00 z iA~ W A IMI. S L A AETALLUNGKAL UtINATUAt CLASSIPICATIOM SA"NO -4 tylatj .&, opt. 0.1 -0 .1 .1 K' a, Is 4 " 0 40 4 00 so -00 -00 -00 -00 800 49LI33 CA ale, Ist u a 6 1 Ir 61 1 43 a 3 UO 111a a T 0 0 0 .9 0 0 9 0 0 4-0 0 0 0 0 0 0 see see tie 0  0 64 ~_4,g a C571 w P rv! ;-Ji -_ Is 11 U a It 16 A U a p a At U 0 0 to it it 11 14 %6 11 14 1t 7 11 a jai a SAS v 0 3! go AME W.m _A__s --a, - _ 1.0 kV 1. 4 4 0 9 :0 A ;- ~~ .titrtl tions at the us. of %*ate State with la ' go sulfur dillidde. 1. N. SNAW, 1. M. I`.gtXkl1i AIM M. 1 3 Khaltovialt. J~`Mrl;a. W. S. N. R.1 15, No. 7. IMM-141, '11W va1w)r I%tk-tltt~ of the c%l1llIUytw11t~ ~ 00 11 Ihe 'I'll, 11, so, NIL 10) AnAvid., and (V.,Ill them llllallr.l~ i-l de of tile IAL! I.V :0 0 hv h,m M. U.-k-wi 00 0 * 'y x . 00 00 00 5 I V " ago 1 - '00 :3 a 0 - S L A -[TALtUNGKAA. UTINATURE CLAWFKATION it 4ALIZI CK a.. Lit T U 11 1, 10 '%1; to ever isit iti xact trot LA Art I S a w a K w : 2 Q a 2 0 'v.11 T " lop g 4, : : T 0 0 0 e o : : q . o ( s s 0 0 0 *  Statistics of the process of uAonatin of iturnitil ated Shokin and A. S. Solov'eva (D. I. Mendeltev brine; 1. N. Zhurl., Niklad. KAire.,I. 26, 59"5(1953)~A nicthod for calcg.'thc.caml:m.-,o,.- liquid and gmeous Phases In Solva~ carbonation Mtera at equil. Is '- ted. From reactiong. NHAN1jjCOj + 2H,0 ~~ !N14,1n1CO,-+ ISU1,011 vi h HA NIL  SHOKIN, I. N. SHCK IN, I. N, -"Imrestigaticn of the Process of Carbonization of Amnontated Brine in the -Production of Calcined Soda.* Min Higher Educationw)-me Moscow order of Lenin Chemicotechnological Inst imeni D. I. Yendeleyev. Mosccw, 1955, (Dissertation for the Degree of Doctor in Technical Sciences) So; Knizhnaya Let2piol No 3, 1956  AUTHORS: Sytnik, A. A., Shokin, I. N., Krasheninnikov, S. A. 153 -58-1 -16/29 TITLE: Investigation of the Process of Carbonizition of the Soda Solution in the Production of Purified Bicarbonate (Issledovaniye protsessa karbonizataii sodovogo rastvora v proizvodstve ochishchennogo bikarbonata). Communication 1: Kinetics of Crystallization of Sodium-Bicarbonate in the Course of the Carbonization of Soda Solution (Soobahcheniye 1. Kinetika kristallizataii bikarbonata natriya v protsesse karbonizataii sodovogo rastvora) PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Khimiya i khimicheskaya tekhnologiya, 1958, Nr 1, pp. 100-107 (USSR) ABSTRACT: The crystallization of the salts from solutions can only begin and take place in the case of supersaturation of the latter with respect to the respective malt. The extent of initial supersaturation does not only cause the beginning of the crystallization-process, but it also determines its further course. With high values of supersaturation, but low degrees of agitation of the solution, the born crystal Card 1/4 begins to grow so rapidly that a zone of concentration which  investigation of the Process of Carbonization of the Soda 153-58-1 -16/29 Solution in the Production of Purified Bicarbonate. Communication 1: Kinetics of Crystallization of Sodium-Bicarbonate in the Course of the Carbonization of Soda Solution is lower than in the main mass of the liquid, is formed almost instantly around it. Under these conditions, the further growth of each crystal is determined by the diffusion-ratio cf the dissolved substance toward the crystalline surface. It is assumed (references 1,2) that the process of crystallization is in this case within the range of diffusion and that its velocity is proportional to the lat degree of saturation. With intense agitating of the solution the diffusion-ratio becomes so high that actually no weakening of the solution on the crystalline surf4ce takes place. The velocity of crystallization is determined in this case by the slowest process taking place on the crystalline surface and depends on the degree of supersaturation which exceeds 1. This range is called the kinetic one (ref. 2). A survey on the works of the kinetics of crystallization is given (references 2 to 5M. Works of this kind on the velocity of crystallization of sodium- -bicarbonate from soda solutions are lacking, however, Card 2/4 2 processes take place simultaneously in the crystallizing  Inveotigation of the Pro(,cj.,, cif Carbonizatior of the Soda 153 Ii8 !,.161'20 Solution in the Production of Purified DicarbGnate, C ommunic at ion 1: Kinetiss of Crystallization of Sodium~Bicarbona~e r in the Course of the Carbonization of Soda Solution Card 3/4 column with the industrial production of purified bicarbonates a) Absorption of C02 and b Crystallization nf sodium bicarbonai-:~, The process b~ must obviously influen.--..= the kinetics of carbonization in a certain way and viceversa, In the first communication the influence of supersazuratioll, of the temperature and of the agitation on the ve7Lo(.':1tY of crystallization of sodium bicarbonate from the soda solution. in the process of carbonization. is investigated. A device developed for this purpost~ is glven in figure '. The test.-method is described, FiVre 2 Ehovs the dependen-t of the preciluit-ated quanti.-41-y of bicarbonates on the period of carbonization of the solution and that for 2 numbeT-s of revolutions of the stirrer 0340 and 2000 re-olutions pe*z minute) at 20', It was proved that the velocity of crystallization -of sodium bicarbonate the rang!5 of diffusica; depends or, the supersaturation of lq'~ degree,, whert-as it is proportiona-1 'ro the! 2nd degree of supe7r- saturation within the kinetis rang-3., A different dependenas  Investigation of the Process of Carbonization of the Soda 153 -58-1 -.! 6/29 Solution in the Production of Purified Bicarbonate.. Communication 1: Kinetics of Crystallization oil Sodium-Bicarbonate in the Course of the Carbonization of Soda Solution of the velocity of crystallization on the temperature within the range of diffusion and kinetics was proved- Within the first range, this velocity decreases according to the increase in temperature with a given supersaturation, whereau i1v increases in the latter range. A method of calculation of the velocity of crystallization for the two ranges of the process of crystallization was proposed. There are 10 figures and 7 references, 7 of which are Soviet, ASSOCIATION: Moskovskiy khimiko-tekhnolcg_ichesk_Jy institut imeni D. I. Mendeleyeva. Kafedra trAhnolog-li svyazannog,~ azota 1. shchelochey (Moscow Chemi-lal Technological Institute imeni D~ I. Mendeleyev, Chair for the Technology of Bound Nitrogen and Alkalies) SUBTAITTED2 September 9, 1957 Card 4/4  AUTHORS: Shokin, I. N., Ogloblina, I. P., Solovlyeva, A~ S. 153 58-1-17/29 TITLE: On the Non-Equilibrated State of the System in -che Carbonization-Process of the AmmoniacalBrine (0 neravnovesnom sostoyanii sistemy v protsesse karbonizataii ammiachnogo rassola) PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Khimiya i khimicheskaya tekhnologiya, 1958, Nr I , pp. 108-118 (USSR) ABSTRACT: In this process sodiumbicarbonate begins to precipitate from the solutions highly supersaturated with it (references 1,2). The supersaturation decreasing after the be-inning of 0 crystallization is preserved until to the end of the process of carbonization. The permanence of the non-equilibratoed state in the system to be carbonized, as a whole, is caused by this. Approximatin the equilibrium, not only the con- - 9 + centration of HCO and Na ions is changed in such a solution., the surplus of whLh is converted into the deposit, but also the concentration of other components of the solution (CO 2- NH coo and OH_ -ions) since the conditions of Card 1/ 4 3 .2  On the Non-Equilibrated State of the System in the 153 -58-1--17/29 Carbonization-Process of the Ammoniacal Brine (Rassol) equilibrium of the reactions in the solution change. Taking furthermore into consideration that the crystallization of NaHCO involves a certain change of volume of the liquid phase, N becomes apparent that the composition of the non-equilibrated solution must differ from the equilibrated solution with respect to all components. The composition of the former can be determined rather accurately by means of analysis. The same is to a large extent also the case with ammonia-carbonate(el). The non-equilibrated concentrations of other components HCO non-bound ammonia = m1and the carbonic acid bound 2s f') can only be determined by means of calculation. For his purpose, strictly speaking, only the equations (1) and (2) can be indicated which do not connect the non-equilibrated concentrations of individual components: d' = e' + V + 2g' (1); M, = a) - - bt - dt + gt (2), in which case a' is the total quantity of NH~, dI = the total CO and b' the bound NH From this, fur her equations for tKe constant (K f N, reaction I- t_ 2) HCO + 01 C02- + H 0 (3) are derived for 3 3 2 Card 2/4 the connection between the non-equilibrated solution and  On the Non-Equilibrated State of the Sy3tem in the 153-58-1-17/29 Carbonization-Process of the Ar:imoniacal Brine (Rasool) the equilibrated solution (4), (5), (6) correj,.w;nding to it. A complete composition of the equilibrated solution can be calculated from its 3 known components for the given temperature (ref. 6). When the non-equilibrated concentrations of the 5 components: a', b', cl, d' and el are determined by analysis, complete compositions both for the non-equilibrated and the equilibrated liquid phase can be calculated at a given temperature. Results of the former for the process 'referred to in the title at 20, 40 and 600 are given in table I to 3. They are substantially different from those of the corresponding equilibrated solutions. The degree of the distance of composition of a solution from that of an equilibrated one depends on the temperature. During the whole course of the process referred to in the title, a carbamate supersaturation exists which is crystallizing in the final stage. The total vapor pressures of CO Nll~ and H20 at 20, 402 50 and 600 above the non- -equi~lbra ed ammonia-salt solutions during their carbonizatio process were determined here for the first time. An Card 3/4 equation was deduced which allows the calculation of the  On the Non-Equilibrated State of the System in the 153-58-1-17/29 Caxbonization-Process of the Ammoniacal Brine (Rassol) 11metastable" CO partial pressures above the solutions in the aforesaii carbonization according to a known, non- -equilibrated composition of the liquid phase. The authors finally proposed a method of determination of the vapor tension above the solutions by means of a static method. There are 6 figures, 3 tables, and 9 references, 06 of which are Soviet. A33OCIATION: Moskovskiy khimiko-tekhnologicheskiy institut imeni D. I. Mendeleyeva, Kafedra tekhnologii svyazannogo azota i shchelochey (Moscow Chemical-Technological Institute imeni D. I. Mendeleyev, Chair for the Technology of Bound Nitrogen and Alkalies) SUBMITTED: September 9, 1957 Card 4/4  ~~-'Ov/ I--~6 -2 - .yt nik, '"-hak in ,I . fi K ras rieni rina ic-,')v n -., ~-s L j lga t ion o f t h e Carbona t i on CEroc e_--s o F t 'h R;'~'oda ',iolution, Ma (1-si-dov ni.- - rn:~ L-n'~~"acturp of Purified Bicarbor.~~te E: e a ~' r- protsessa kirbonizatsii sodovogo rastvora v Droizvodstvp. ochishchennogo bikarbonata) Communicazion 11. Kinetics of tiie Carbonic Acid by Soda Solutions (:3oobshc~pniy'~_ Kinetika absorbtsii iiglekioloty sodovymi rastvorami) ~2~;RIODIC~',J,: izve:;tiya vyz.,shikh uchebnykh zavedeniy. Khimiya i khimicheskaya tPkhnologiya, 19j8, Nr 2, PP W-95 Ltlieugn the problem mentioned in the subtitie has allready betnn treated in numerous papers (Ref's I-b'), the results of these investigations are so contradictory that nc uniform con- ception can be achieved regarding these kinetics. In. tfie pre- sent paper, the action of ttie concentration of 'the sodium 3i-- carbonate solution and its degree of carbonation on the ab- sorption rate of carbonic acid under various hydrodytiamical condition,', were studied. An absorption-equipment o' trie film- t.vve was used for this purpose, the constiuction and mode -,)f bard iuncticn of which are described. First of all, i~ was to be in-  S)OV/ 1, 5 j8-2 - -,6/ 50 investigation o he Caroonation Process of the -'!-oda Solution in -.-~ ~I.a n-.i - faoturt~! of' Purified Bicarbonate. Communication II. Absorption K2.netics cf the Carhcnic ~'.cid by '~'cda Solutions vestigated ,-.-hether the equation of thp absorption ratq: IN K . 8P a complicated by the chemical reaction, applies for this case (IN a being the rate of absorption, b - the chemical DafaMe~er %,n-ich sho ~~ b., %,;hich amount the rate varies in the prt-z,~-nce of a chemicall.,., nctive component in the solution; V - coeffcient of the absorption rate, AP the motive force of th~ pr-jc~,~,s which is P '01 P, the partial pressure of CO -n tnt Co- CO t 10 2 2 2 ca rbona t ing gas ,PI for carbonation dearees Pra- CO2 1 tically eaual to zero. The results for 2 different ,,f-Tting densities: 0.5 and 1.4 m~/M hour, gas velocity 0.511 vi/spc, 0 0 temi)erature 20 and carbonation degrpe. 106,',~' (Fig 1) nave dem- onstrated that ecuation (1) applies for the ustem aiv~---n. 7i-ures 2 and 3 illustrate the deDendence cl' the CO,-abs~,-p- ~a r-,  Lnve.--itigation of the Carbonation Process of the Soda Solution in thr,, Muroi- facture of Purified Bicarbonate. Communication II. Absorption Kinetics of th-~ r, larbonic Acid by Soda Solutions tion rate on the concentration of the solution. It can be seen from this that the velocity mentioned exceeds a maximum at a chan.-e ot concentration of the solution. The authors exDlain this by an increase of the degree of hydrolysis of' the sodium carbonate .-.,ith the dilution of ;he solution. If, however, the soda concentration becomes insignificant because of further dilution, the rate of absorption drops and comes close to ~ha!- of water. Tn order to investigate this, the pH was measured (Fig 4). '-.ccording to the results the T)H-curve during the dilu- tion is a reproduction of the course oe the curves of the ab- sorption rate. Thus, this rate depends on the OH- ion con- centration. This was expressed by equation (2). The innuence exercised by the carbonation degree of the solution uDon the absorption rate was studied by means of an installation pre- viously described (Ref 9). Furthermore the authors apply the term "Degree of transition" instead of"Degree of carbonation" of the soluticn. Figures 5 and 6 show the dependence of the "0 absorptJon rate on the degree of transition for differenu Card 5/5 1 2-