SCIENTIFIC ABSTRACT SKURAT, N.YE. - SKURATOV, S.M.

SKMT, H. Ye .. Making a wider use of showers. Tekst.prom. 20 no.4:91 Ap 16o. (MIRA 13:8) (Textile workers--Diseases and hygiene)  SKURAT, V.Ye.; NOVIKOV, Yu.V. Medical and hygienic inspection of windowless factories (from "Deutsche Gesundh~eitswesen," no. 22, 10,56). Gig. i san. 25 no. 6:106-107 Je 160. (MIRA 14:2) (FACTORY SANITATION)  -46 1 - ., "."! S., BABOKIN, I.A., redaktor; BALBAC[UN, Ya.I, redaktor; BARABANOV, F.A., redaktor; BUCHNEV, Y.K., redaktor: VLRDI!tj'RSKIY, T.V., reduktor; GRIGORIYF,V, S. Ye., redaktor; DOOKIII, A.V., rr3daktor; ZHABO, V.V. redaktor; ZADIVIDY-0, A.N., redaktor; ZAITSEV, A.P., redaktor; IL'ICHEV, A.S., redaktor; KAGAN, V.Ta., redaktor; KRASNIKOVSKIY, G.V.. redaktor; KRASOZOV, I.P., redaktor; IQUVONOGOV, K.K., rodaktor; LALAYANTS, A.M., redaktor; I-IOGILEVSKIY, N.H., redaktor; OIJIKA, D.G., redaktor; OSTROVSKIY, S.B.. redaktor; OSTROVSKIY, S.11., redaktor; PEYSAKHOVICII, G.I., radaktor; POCIINNKOV, K.I., rodaktor; SIRfACIMIKO, F.N.;redaktor. SKOCIIINSKIY,A.A., redaktor; ST1JGjYJW, A.S., redaktor; SORKIN, K.I.; SKUR AT, V.K., redaktor; SOBOLW-, G.G., redaktor ;TERPITOREV, A.M. "i8dAtbr-,'KHLIDOCOVTSX7, N.M., redaktor; TSYPKIN, V.S., redaktor; SffE7YAKOV, L.D., redaktor; SHIffjKOV, A.A., redaktor;ANDBXM, G.G., tekhnicheskiy retdaktor. [Safety rules in coal and shale mines] Pravila bezopasnosti v ugollnykb i slantsevykh shakhtakh. Moskva, Ugletekhizdat, 1951. 207 p. (MLRA 9.1) 1. Russia (1921- U.S.S.R) Ministerstva ugol'noy promyshlennosti. (Coal mines and mining-Safety measures)  KU21MICH. A.S., redaktor; BARABANOVA, F.A., redaktor; BOBROV, I.V., redaktor; VLADIMIRSKIY, V.V., redaktor; GRAFOV, L.Ye., redak-bor; DOKUKIN, A.Y., redaktor; YERASHICO, I.S., redaktor; ZABIA)DSKIY, G.P., redaktor; ZADZ- MOKO, A.H., redaktor; ZAYTSEV. A.P., redaktor; ZASADYCH, B.I., redak- tor; KAGAN, F.Ya.. redaktor; KRASNIKOVSKIY, G.V., redaktor; KRIVOHOGOV, K.K., redaktor; LALAYANTS, A.M.. redaktor; MEL&HED, Z.H., rodak-tor; MINIELI. E.O., radak-tor; KOGILXVSKrY, U.K., redal-.tor; OSTROVSKIY, S.B., redaktor; POPOV, T.T., redaktor; SKOCHIITSKIY. A.A.. redaktor; Sfiijift V,&, redalctor; SOBOLEV, G.G., redaktor; STUGARINT, A.S., redaktor; SUMCa!&O, V.A., redaktor; TERFIGOREV, A.M., redaktor; SHEVYAKOV, L.D., redaktor; SY&LKOV. A.A., redaktor; ANDREYEV, G-G.,tekhnicheskiy redaktor [Safety regulations in coal and sbale mines] Pravila bezopasnosti v ugoltnykh I alantaevyldi shakhtakh. Moskva, Ugletekhizdat, 1953. 226 D. (MIRA 8-.4) 1. Russia (1923- U.S.S.R.) Hinisterstvo ugol 'noy promyshlennosti. (Coal mines and mining-Safety- measures)  ZAYTSEV, A.P., red.; BOFZOV, K.V., red.; BOGIJSLAVSKIY, Yu.K., -red.; BELOUSOV, V.G., red.; VODAKHOV, L.A., red.; IZRAITELI, S.A., red.; KOLI, A.N., red.; LIS=, S.S., red.; MOMM, S.L., red.; MELINIKOV, N.V., red.; MOROZOV, V.P., red.; MUDROV, P.A., red.; PCLYAKOVA, Z.K., red.; PODERNI, Yu.S., red.; POLESIN, Ya.L., red.; POKROVSKIY, L.A., red.; SLA32UNOV, Y.G., red.; SKURAT, V.K.9 red.; STRUNIN, M.A., red.; SOKOLOVaIY, K.M., red.; FEOKTISTOV, A.T., red.; CHESNOKOV, M.M., red.; SHUKHOV, A.N., red.; YAMSEICHIKOV, S.M., red.; BYKHOVSKATA, S.N., red.izd-va; BFaESLAVSKAYA, L.Sh., tekhn.red. [Unified safety regulations in open-cut mining] Edinye pravila bezopasnosti pri razrabotke mestorozhdenii -Doleznykh iskopaemykh otkrytym sposobom. Moskva. Gos.nauchno-tekhn.izd-vo lit-ry po gornomu delu. 1960. 61 p. (MIRA 13:7) 1. Russia (1917- R.S.F.S.R.) Gosudarstvennyi komitat po nadzora za bezopasnym vedeniyem rabot v promyshlennosti i gornoma nadzoru. (Strip mining--Safety measures)  IZRAITELI, S.A., otv. red.; MOISEYEV, S.L., otv. red.; SIWBLT,__V._K,_, otv. red.; SLASTUNCV, V.G., otv. red.; ZAYTSEV, A.P., red.; POLESINY Ya.L.J. red.; SKURAT, V.K., red.;SLASMIOV, V.G., red.; SOBOLEV, G.G., red.; FEOKTISTOV, A.T., red.; MIRDSHNICHENKO, V.D., red. izd-va; BOLDYREVA, Z.A., tekhn. red. [Unified safety rules for mining metalliferous, non-metallic, and placer deposits by the underground method]Edinye pravila bez- opasnosti pri razrabotke rudnykh, nerudnykh i rossypnykh mesto- rozhdenii podzemnym sposobom. Moskva, Gosgortekhizdat, 1962. 253 P. (MIRA 15:12) 1. Russia (1917- R.S.F.S.R.)Gosudarstvennyy komitet po nadzora za bezopasnym vedeniem rabot v promyshlennosti i gornomu nadzoru. (Mine safety)  IZ-IAITL'LI, S.A,, otv. red.; SKURA-T, V.K., otv. red.; ZUBAREV, S.N., otfIv. red.; MOIaYEV,___8 T., otv. red.; ASTAFIME A, A.V., kand. tekhn. nauk, red.; VASIKOVSKIY, Ye.L., red.; 'JISIIIIEVSKIY, Ye.L.p red.; KRIVTSOV, B.S., red.; KOROTKIN, I.N., red.; MITROFAIIOV, S.I., doktor takhn. nauk, red.; NORKIN, V.V., kand. tekhn. nauk, red.; NIKITIN, A.A., red.; RUDUEV, A.P., red.j SLASTUNOV, V.G.p red.; TKACITV, F.A.p red.; RAUKIWARGER, Ye.L., kand. tekhn. nauk, red.; FEOKTISTOV, A.T.[deceascd], red.; ZAYT.SV, A.P., red. [Safety regulations for the dressing and sintering of fer- rous and nonferrous metal ores] Pravila bezopasnosti pri obogashchenii i aglomeratsii rud tsvetnykh i chernykh me- tallov. Moskva, Nedra, 1964. 106 p. (MIRA 18:4) 1. Russia (1917- R.S.F.S.R.) Gosudarstvenryy komitet po, nadzoru za bezopasnym vedeniyem v promyahlennosti i gor- noru nadzoru.  POLESiN, Ya.L., otv. red.; _~KURAT, V.K., otv. red.; KAPELYUSETIROV, G.I., otv. red.; NIOISEYEV, S.L., otv. red.; HATNIKOVA, A.F., red.izd-va; -3CLDYY:t--EVA, Z.A., tekbn. red, [Safety measures in coal and shale mines; current regulations in effect applicable to mines in operation, construction, and reorganization] Pravila bezopasnosti v ugolInykh i slantse- vykh shakhtakh; nastoiashchie pravila rasprostraniaiutsia na shakhty, nakhodiashchiesia v ekspluatatsii, stroitel'st-ve i rekonstruktsii. Moskva, Izd-vo "Nedra," 1964L, 325 P. - [Collection of instructions.... I Sbornik instraktsi-i k.... 196z,. 262 p. (MIRA 17-.4) 1. Russia (1917- R.S.F.S.R.) Gosudarstvennyy komitet po nad- zoru za bezopasnym vedeniyer.. rabot v promy5hilennesti i gorno- ,,mu nadzoru.  - // (4 1 "1 - - ,..:' 4: 'I Ye. -~_-itsyrev Ll G. 1). 1'7 -Df D_*.a,~ara--s fo:~- -'U'7.r-- lnle'u- _jvzt:~:- ir. a 7 - :3 t r r O-V1 C 11i re P, 'L;:Y -I rm irl ~r -11 Ck i. -af-ra -In dljo. P_f_-.puslmoy s-Lste-..,.y STRAC 11 1c. mzs 'if ~.'.Clootancez; Stich as frea r_-..C.'icals -u' icli oasily with ..iol.als, it -1 's nece- '_;'ar'y -,U-o prepare -.-InL;.- diapl_ra~r::is tlirou-h .%,"ni.ch the -as flov"_::~ irlto thv; z,--DP- 2lot-hod _)f dic.- a 7.jr,3 n T'-L,." cmel, :)f L:L 1- tube havi-i-17, an of 1~ -~s Or~wq oLit to a C,.iamet(3r of 1-; -1. _L -- -1 Ll 1-3 tu~b~ is o'l.od, After thr: Orl-d t, - - 1. . --rd i-, lleuted imtil tri~~ -alai-is softenzi xq(l it is ths-_'l -ierced u.:r,-L_~-h a 7)lane -,r_-na:red in a way in (Re f I ';Inr;S S~J(~'_- 30 11 'hick. ancl fii-e~ i-to ~I-ie t ub 2.~Le soal I-s v, - c 11 -,.1 tir_)-~lt Lz.--.eL withstands atmos-)h-ric preosur.3. Tl I e ~-3 3 ovo red vrith paraff ia -Jr- which a  tM In-l.-,t S:-~hc-a i i 7% la J t r 0 - e U- C-" r ..~ac` c~ :ii.t1i n -a d' e i L~ . I C, ~i i-;-- r L V"-. aa7!- d t o 77 C D 31 in Mae a ~:~pplicd tc. it -Lro-..,l a -L;.~vinC :A GO !Acrofarad ss hy f I 1(, a ro-Lmd ane rt Lire I a 7 i t, r i Lh.,,_ The -c amet - r ~,C e- 0 - ! - --- ~ Ir t,,~.! o a T) e r' in, e D-i azact~_,n~ j--' to 51,_ .;o _.i_ in U-1i ~ ivaj . The dia:?Iara:~m .-,E',7 into U'-h,,--, of the. ;aass , , .- .-- Li - T~_-. - , -, ~r T. coll.fbora- ted. 2: no Labl.-.s 1 ASl'__',:)-~T -,1j T Iy-, .-:~licsl us - i" A-a le~i f u U,-L L j.j'R. (Institut khimicheskoy fiziki AN _g' _T !I'-' T"D : a 3 Uj F AVAID~=, : 1. Spectrometers 2. Diaphragms-Glass-Application  V V. AUTRORSt Lavrovskaya, G. K., Skurat, V. Ye., Tallroze, V.L.,20-4-27/5" Tantsyrev, G. D. TITLE: Mass-Spectroscopic Investigation of the Products of Discharge J _ r~ _n Steam (Mass-spektroskopichesl-oye issledovaniye produktov razryada v parakh vody)- PERIODICALj Doklady AN SSSR, 1957, Vol. 117, Nr 4, pp. 641-644 (USSR) ABSTRACTs The here discussed measurements were carried out with a mass spectrometer specially constructed for the determination of free radicals and atoms. The peculiarity of this apparatus is the introduction of the mixture to be analyzed into the ion source in form of a bundle of molecules. The molecule bundle is here coaxial with the ion-bundle. The system of the form- ation of this molecule bundle and the schema of the connection of the apparatus of discharge with the mass spectrometer is demonstrated in a diagram. Further particulars are given on the design and calibration of this instrument. The authors then discuss the results of the mass-spectroscopical measurements of the concentration of the atoms and radicals in the discharge- -products formed in the steam. Measurements were carried out at pressures of from 0,5 to 4 mm torr. and with a discharge Card 1/3 amperage of from 100 to 150 mA. The intensities of the  Mass-Spectroscopic Investigation of the Products of Discharge )()-!i " - I ., in Steam. PRESENTED: May 16, 1957, by V_ N. Kor-idratlyev, Academician. SUBMITTED: April 28, 1957 AVAILABLE: Library of ConUess Card 3/3  Application of Mass-Spectroscopy fcr Chemical Analysis SOI.,'/63 -4 - 2 - 4/39 Ref 17-18 7. The composition of analyzed mixtures is determined by absolute or relative methods. The absolute graduation coefficients vary in every spectrometer, the relative coefficients are more stable. A measure for the content of a substance is the "complete ionization" which is the sum of al! band intensities of the spectrxn of the mix- ture. Recently electronic computers have come to be used for calculat- ing the composition of mixtures LRef 24_7. Mass-spectroscopy has also been used for the analysis of esterified fatty acids, condensates from industrial fumes from the atmosphere of biffcities, et2 / Ref 29, 3o-7, for the determination of gases in metals Z Ref 31-33- 17, etc. The dis- tribution of the band interisitieq usually corresponds to the structure of the molecules. The theoretical calculation of the band intensities is possible only for the simplest case, i.e. the molecule H2. A theory of the mass-spectrum must still be developed. The kinetics of chemical reactions is determined by taking samples at the beginning and the end of the process or by the continuous method in which the reacting mix- ture is directly passed into the ion source of the mass-spectrometer. The last method can be used fop the determination of intermediate pro- ducts, like free -radicals. The use of low-energy electrons avoids the dissociative ionization of molecules. it has been proposed to use Card 2/4 photoionization, because the monochromatization of light is simpler  Application of Mass-Spectroscopy for Chemical Analysis sov/6-3-4-2-4/39 than that of slow electrons Z_Ref 9_7. Free radicals are passed into the area of ionization in the form of a molecular bunch ir. order to avoid reactions with metal surfaces, etc. The mass-spectroscopy of free radicals is applied on a broad scale. It is also employed for the de- termination of lors In the flames of hydr.),_,arbons and hydrogen . Ref 91, 92~_/. A system for the determination of the composition of free radicals has been developed by the authors / Ref 73, Fi).~-Ire 3,7. Recently the cross-sect.ions of iort-molecular reactions have been determined ZR'ef 98, 992. Levina determined the isotopes of Fe, Zri, Mg, N~, Gr, Pb and Sb by mea-lis of mass-spectro5copy R ~~ _7. Sol.4d bodies a-re evaporated L_ ef 1.06 in a vacuum spark. In substances with low lo~-Azatlor. potentials sur- lace ioni?~atior_ may be used. Admixtures o~ jo-3 to 1-0 5,g may be de- termined by these methods. 1_171iis is important for -the produ3tion of semi- conductors.. Pia-re meVals.. e-,,~. Mass -spectroscopy i-q used ir. t1he USSR for the control of the evacuation condilions of eleitrovacuum anoaratus Z Ref 116-: 7. Tan'syrev controlled the purity of inert ga5es by t'"is method. improvemerts of t-he method nons-ist In the axnlica~ion of new cathodes, e.g. a thorium-iridillim cathr,de Z Ref and +h9 utiliza- tion of an electrometric amplifier, a ziecondary electronic amplifier measuring currents of less thar, 10-15 a. in the USSR the mass-srectro- meters MT_ 1301, MI 1305, M! 1303 have a resolving powt~r of 4oo - 600~. Card 3/4 the apparatus W 2301, a power of 5,000.  Application of Mass Spectroscopy for Chemical Analysis SW/63-4-2-k/39 There are 3 diagrams, 2 tables and 126 references, 36 of which are Soviet, 55 English, 11 American, 8 Canadian, 5 German, 5 Belgian, 3 French, 2 Swedish and 1 Polish. Card 4/4  867L6 's7s'peo (,'., 4r.?, 1.7 ?.F, n? -) 3) 3/120/60/000/006/021/OA5 9032/Z514 0 AUTHORS, To I'ross,. Y.L., bokabmn, L. L. Z&%LAwx,,j__q~jL. Y..L., V-tlv. 0.0., LyubL-.. A.K.. L~v,rovak;y .;..G *K V.D.. Skur.t . . ~ - Zuk h or fd* Lyn,AT a C(aM_ ) a TITLN,A22 Xass Spectrometer DoaLan,d for StudYin,& ChamLcal ad the D.1ormination of Yr.. P&RIODMA.L. P~rtb-y L t-kh..k. k.p.ri...L., 1960. N-.6, pp.78-8~ TLXT: A double ...... pact'-:'It;, do, -4 for study- herfart P. to n L.::..:I, do Mi at f fr . ': ..r1b.d. T.. ..t~. method 'in - -a-. P-d11%th* i*,.. In the first the mixture to b:r i .-by charge tr ... far to specially produced to.. The1tar are to-. Md d in p:,4,t,,n1:n.gun by ..... .r is. .ar b..b.,d .. Zd .... _:.:1Y1 magnetic an,Lya!'1"" In the second, met G4 the mIxtur: obd., .::I :1r.etly b)r olocth. is ran bombardment. Q...i-a-hro.'tL-ti- is bY a method based on that report me fr ad by h be sr6Act*r" in intradu..4 1. the Cardal/6 into t-:t :!.r,.*f mr- Th. PMC 2 (RXS-2) x... Spentr ... tar Designed for Studying Ch..1.41 i . a Re-ctims: and the DoLermin,at-Lo. at Free Rod . I to- of . -1 ... I.r be- .1111h 1, ..ch..L..lly 1.t.1-pt.d atq he dlt , a. to the ..,hod d:,*.,j.Lb ad by F-r b.. are th!-.:,d.... or. c ... 1.1, iculsr, in the pro!:.tlb 'A Verve"tb which that wastr or . ....... ry for,tbe,:*Xtra Laos C the A". from the i L.^tinm t r:t *tk ".1 Ap;.;it..,.~ .:,t:;. .p:nd ,:tint;.&Lty or the backgrount be r .... t L..tLbe the measuring part of the -..t a td= as th :p tormentor) of X-otabLlizattom of P^r;motorh*.s,.ch,.a :I.Lr:t i" P inCatar, the r -1 is _r.:V:g%b:h%: 'gut: ..Atth. utpply voltage tar tk. is. -rc. c.tk;d -:.d*,.,rlb.d by th . ..... d 4rthe f the magnetic finl41 .urL Ipr:be rb!lh..). Th. ..L. . . am 'bybct a metric serang . t -,i.y d in . a- in FLg.Z. Products of chemical reacti. the ere 1,.:Atdr.tb. . L. :,,* XtR. t:k!.& Pl:.:ri'.rbL phr.&. Card 2/6 1hr :aSb -1.1Pttt t aIr,b*-,.,.Th as" or be.. is ft"rttrral the dL:*pk'r*:' !. :I::ul, from d tb in which 84.%atior:I :G"In: 11 roxiftitakes place. Aenable is pissed 1. front ort the : b ::d.!, b33 time. par .... ";adfLta a byrl, r*,, pv-d",1 I no tb: 110* a. be.. bin :dnIII t - -;air IV to d t or...141.bb.. an I .61.rred DD yb:.P". !;y 1:n be.., kingutu rr:d*oa intersect* th:,,*IIul.r be.. and IngLt the : I!s, barge transfer take place. 1. the case .f'. set,.. by Impact. ,be t:flh^l d:,Illb*d by.~Ib, tire. at at ure i: Rc.. four. hbe..,tI -hr ... ti..d elect,.. t. !.d.h.t'o. ., the is __d A. at .pl~y.d,..Th.*.-1 "rr:;t by -:1. lia'th.b..... tr!. happa--7sured either by ar Imult1pll The :,,ou,.1h of t;- . , ;,;_ d " . ::b:r b.Y.:; L!,:!T' -ta.t,,:.d :L 300 to, 3,50% ho;ore the :perati.. 1. begun. lust r:t Cord 3/  86746 3/120/60/000/006/021/045 1032/951% The FMC-2 (RM3-2) K&sa Spectroseter Designed for Studying Chwalcoa It.octi... and the D.t-inatlo. of Fro. Radical. the possible applications of the instrument, data are quoted on the f-tL- of free radical. in the pyrolysis of hydr-In.. In theme neVerLmente the hydrazine entered fro. . St... container into . quartz capillary th-rough a con tr:L -1- Th. capillary ... heated t. a known toooperature, as a raw It of which the hydr-in. daccapo-d into nitrogen, hydrogen, awasonin and soas unstable Hudson. Ref.18). Fig.7 distributto products (Fon.r and sh- the *f`.Ii1,rL,t** t1:: the -spectrum, of hydr.111: *bt.1.1" by tr:1 d f . sous :d at le ... b. 9 f h 10!5H, 1*1,..f*-,d r ;.. .I was now ". _5 d the p -.- 1. ..-b r r b . 11 L; or 4 x 10 now Hg. For comparison. the do tt:d Lin a shows the ma-spectr,us obtained on b* hFdr.a h 50 oV electrons. FLZA a the r O,dt i..:h:, i:btWI! t I C (d.1'.y butt.. stood -d:1Iii*l is t 0- t 4 It-.*) .ad 25% ( ... ... . ). ALckno'drdgments or. ..pr .... d to In. 1. I:i!y,*, 1. TiV-:blu- Gr.1,1uwr1..r. x -Me I - wo - rh Mann.- .ad or . tail 2; raf.r'..- 11 3--t and 9 Ca.rd 4/6 Th. PMC-2 for studying ChemicaL Reactions and th to to" or r ASSOCIATIOmi rnmtitut khimichoskay Cizjkj AN SSSR (Institute of Ch-i..l Physic., AS, USSR) SUBMITTEDt October 15. 1959 Fix.2 I reactor, III - ion gunr IV -11 -r..tL. -ly..r, V large magootic anal yea C-rd 5/6 =32MI'l Th. PMC-2 for Studying rh-I." Reactions and th D to ti on di I. 7 rix-8 Comepartso r: no.f Ch-S. t ... :':- - 11":!P byd- in. bL 1. r .1 hyd- i " d It: ." - bombardment t(40tted) and charge d..t. at 1000% we transfer fr" N Hi ion (Cull Lin Cdottd) .It .5*C (full Lin.). X*yg I reti' .t:., ity. 2nu.b- --------- - ZI IX/I Card 6/6  II- Iv.yc . Isoto lc c-'fcct t',.- J. J.-t.7-c fox-.,:.-,ti-n of c-,, 7rcm pol-'et, 0. 1. '-.,.t 21z.-'.':i "J. "R. cdot v Cno Pr a I V... -,ndratlyc"rw~'- !Iydrol-cn--I.-,~.,,to,)-r .1.770tillcl,c) P (Radi,,.tin!-)  VASILIYEVP G,K,- SKUFLAT, V.Ye., TALIROZE, V.L. Formation of hydrogen In low- temperature radiolys.4s of polyethylene. Izv. AN SSSR Ser.k-him, nu.10.1871-1873 0 163. (1,LTR-A 17:3) 1. lastitut khimicheakoy flziki AN SSSR.  L 12657-6~ E7dF PF(C)/EW-T(TP)/BDS ASD gr~/P - 9)0 W9 MA027A 8 AL;(;Y=UVN M. AP30 VO /0391 AUT14ORS: Skurat, V. Ye Taltroze, V. L. TITLE: The formation of HD during the reaction of hydrogen atoms,. formed in the gas phase, with solid deuteropolyethyl !SOURCE: AN SSSR. Doklady*, v. 151, no. 2, 1963, 388-591 TOPIC TAGS: HD, deuteropolyethyl, activation energy ARSTRACT: A functional relation between the rate of HD formation during the reaction of H atoms with deuteropolyethyl, contain1bg 98%: Of D atoms, and temperature is given. It is concluded that n6; possible "mixtures" in deuteropolyethyl participates in the'roactionj of HD formation and that the activation energy corresponds to'~ihe reaction H + M Ha + R where M is the hydrocarbon and R is.the free radical. Thus, it is shown that in solid PoIXethyl a reaction of type (1) is possible ~.Card 1/2  L 12657a-63 ACCESSION NR: AP3003563 during the activity of thermal H atoms on p2jLmer 5.1 ()r1g. art',. has: 2 figures. This report was presented by Academician V.N.Kondratlyev I Apr 1963. ASSOCIATIOW: Institut khimicheskoy fiziki., Akademli nauk SSSR (Institute of chemical physics, Academy of sciences, SSSR) SUBMITTED: 23Mar63 DATE ACQ: 30,TV163 ENCL: 00 SUB CODE: PHx CH NO RE? SOV., 005 OTHm 0o4 Card 2/2  VASILIYEV, G.K.; SKURAT, V.Ye.; TALIROZE, V.L. Gas evolution kinetics in low-temperature radiolysis of paraffin and.pQlyethylene. Dokl. AN SSSR 152 na.2.-356.358 S -1-53. (MI.IA 16: 11) 1. Institut khimicheskoy fiziki AN SSSR. Predstavleno akademikom N.N. Semenovym.   L 27630 6 A ACCESSION MR: UP !M359 . SOCIATION: none AS ' ' 1?ft63i i~ia.- `_0o WB~ CODE.", Yl 10 1w sove. 000 OTE IER p- t4 A~ i'L w ard 2/2 4 "114--I'-- .7-  ACCESSION NR: AF4016514 S/0020/64/154/005/1160/1162 AUTHOA: Lavrovskaya, G. K.;_�-4urat,.V. Ye.; Tallroze, V. L. TITLE: Radiation synthesis of xenon fluorides SOURCE- AN SSSR. 'Doklady*, v. 154, no. 5, 1964, 1160-1162 TOPIC TAGS: xenon fluoride, radiation, xenon difiUoride, xenon tetrafluoride, infra red spectrum, xenon fluorine radiation ABSTRACT: A mixture of fluorine and xenon was irradiatsd with a 1. 6--Mev 'beam of electrons (electron current 30-40 microamps, 10 mm. Hg pres'sure, reactor liquid-air cooled during reaction). After irradiatimunreacted F and Xe were measured an d removed from the reactor vbMe cooled with liquid nitrogen. After removal of unreacted gases, the reactor pressure at room temperature was 3 mm. Hg, ~oriesponding to the vapcr pressure of XeF2 and XeF4., After remaining in the reactor, the Xe fluorides decomposed to F and Xe. Xenon reacts to the extent of 30-50%. The xenon fluorides were identified by their IRI Card 1/2  ACCEgSION:'NR- AP4016514 spectra; and it wag found that XeF2 and XeF4 were formed to a lesser extent. The radiation dose was about 3000 megarads. The radiation yield,, based on xenon consumption, is 0. 4-0. 7; the same yield is obtained with larger doses. Orig. art. has: 1 table ASSOCIATION: Institut khimicheskoy fiziki, Akademii nauk SSSR (Institute of Chemical Physics, Academy of Sciences SSSR) SUBMITTED: 28SeP63 DATE ACQ: 12Mar64 ENCL: 00 SUB CODE: PH, Ch NO REF SOV: 001 OTHER: 017 Card 2/2.  TAIll,""CZE, V.L., doktor khi-,-.,. nauk, otv. red.; BAGDASARIMIN, Kh.,,;., 6o~tc,r 11-him. rauk, red.; W11,17:KENIGH, Ye.L., kand. -f'IZ.- '-7KU--AT - - . khi -atem, nauk, rr-d.; 11 y kana natilc, red, [Elernerttai-j processes of the chemistry of high energies; transactions-] Klernentjrnye protses3y khimii vysokikh renen,ii; trudy. L',Io.,3kva, nauka, 1,965. 317 p. (M I RA 18:5) T. 311upoziwi~, po eleruentarnym protspst~!,an khiraii Tjonkikh ellergii, Moscow, 1963.  MARKOVA, L.G.; SKURATENKO, A.V. Spore-pollen complexes in Lower Cretaceous sediments of the Turukhan key hole. Trudy SNIGG114S no.8:189-19. '60. (MIRA 15:9) (Turukhan Valley--Palynology)  . 11 ~I, r SKURATOV, A. 'days to eliminate stray currents. Zhil.-kom.khoz. 7 no.7:18-20 157. (MIRA 10:10) 1.Moskovakiy avtodorozhnyy instituta. (Electric currents, Leakage) (Electric railroads)  �~~OVL_A.J),. red.. V redaktirovanii prinimall uchastiye: SIKATOV, K.K.; FFDOROVA, N.A.; OVCHINNIKOV, I.I.; SIZOVA, A.I.; SIGELI, M.G.; KARVETSKIY, A.V.; KULICHKIN, A.V.; NIKOLATKVA, Z.A.; SEERVIOVA, V.P.; RYZHOVA, V.K.; MUZHIKOVA. V.H.. YEMIff, N.I., red.; KRAKHAM, Ya.M., tekhn.red. [Economy of Ullyanovsk Province; a concise statis,tical manual] Narodnoe khoziaistvo Ul'ianovskoi oblasti; kratkii statisticheskii abornik. Ullianovskoe knizhnoe izd-vo, 1958. 199 P. (MIRA 12:3) 1. Ulyanovsk (Province). Oblastnoye statisticheskoye, upravleniye. 2. Nachallnik Statisticheakogo upravleniya Ullyanovskoy oblasti (for Skuratov). (Ullyanovsk Province--Statistics)  K.ARVETSKIY, AN.; SIGEL', 1,.G.; IWLICHKR-,-, A.V.; Da"IF, A.R.; RYZHOVA, V.K.; FEEDER, R.M.; MAKAROVA, T.L.; MEMR, R.A.j STEPk-.IOVA, V.P.; SKURATOV, A.D., red.; IMUSTOVA, A.K., tekhn. red. (Economy of Ullianovsk Province; stStistical collection] Narodnoe khoziaistvo Ullianovskoi oblasti; athUsticheskii sbornik. Ullia- novsk, 1961. 271 p. (MIRA 15:5) 1. Ulyanovsk (Province) Statisticheskoye upravleniye. 2. Nachallnik Statistichesko o Upravleniya Ullyanovskoy oblasti (for Skuratov). ?Ullianov3k Province-Statistics)  S;JljlUTOv, ., 1. "Systems of Under, -around Ilininp of Placer Deposits." Sub 28 Dee 53, hosco-d Inst of Nonferrous Metals and Gold jiv,nni 1-1- 1. Kalinia Dissertationn presented for science and eaeinEe--irv dee-rees in 1-ioscow during 1951. SO: Sum. Ilo. 480, 9 MzV ,~  AUTHOR: Skuratov, A.P. 135-10-11/19 TITLE: Application of Roller Welding in Manufacture of Water-Reating Columns (Primeneniye rolikovoy svarki pri proizvodstve vodo- greynykh kolonok) PERIODICAL: Svarochnoye Proizvodstvo, 1957, No 10, PP 32-33 (USSR) ABSTRAM The production of household water heaters at the authorls plant is described. The longitudinal lap seam of the heater body is pressed flush with the outer body surface (Figure 1) - in order to eliminate the soldering and cleaning operations after weld- ing - on a special ma-chine with pneumatic pressure mechanism (Figure 2). Specialized roller-electrode welding sachines are employed for welding the longitudinal seam to the body and assembling the body with the cover, for welding the smoke pipe, and for assembling the body with the bottom. All machines are described and illustrated by kinematic diagrams. It is stated that the modernized roller welding machines have replaced the gas welding method and that the plant makes about 400,000 m of such seams yearly. There are 4 figures. AVAILABLE3 Library of Congress Card 1/1  measures for Reducing tile Currents Branching off SOV/1051-56-12-1106/28 Into the Ground operatin- the contact network, (2) the double voltage permits to use the existiniz railroad electromotors they are connectel in series and the common point is connected to the streetcar body (around). The defects of this solution are higher costs of the contact network, higher costs of new cars,the necessity of modernizing current collectors, startinC rheostats, con- trollers, etc. The advanta,,_,res offered by this solution arc the complete elimination of the stray current problem and Hll~ reduction of operatin[; expenses. There are 2 ficures, 4 tables, and 12 Soviet references. SUBMITTED: Au,-ust 2, 1956 Card 2/2  SKURATOVY A.S., dotsent I Calculation of currents in complex track circuits Qf electrified rollin stock. Elektrtchestvo no.9:39-45 s 162. (MIU .15:9) 1. Moskovskiy avtodorozhnyy institut. (Electric railroads--Wires and wiring)  SKIMATOV, A.S.; KULIKOV, A.A., kand. tekhn. nauk, dotsent Approximate method for the determination of an electric field in a uniform conducting media. Elektrichestvo no.8:29-32 Ag 163. (MIRA 16:10)  SKURATOV,A.Ye. Analysis of accuracy in manufacturing wire annular potentiometers. [Trudy] MVTU no.30:8-31 '55. (MIRA 8:10) (Potentiometer)  SKURATOV,A.Ye. Errors in the process of winding wire annular resistors. [Trudy] MVTU no-30:32-59 155. (MLRA 8:10) (Potentiometer)  3KURATOV, A.Ye~ kand.tekhn,naak-, dotsent Adjustment of the resistanoe llnearity of according to the standard, (Trudy] Wl"U' potentiometer winding3 no-105~104-1-19 'O'1. (I-MU 15~4) (Potentiometer)  I O"KUIUlT(Yly A.Ye., Adjusting the resistance linearity of potentiometer windings according to a standard. Prilborostroenie no.5;19-20 IMV 162. NRA 15:5) (Potentiometer)  BELEVTSEV, A.T., kand. tekhn. nauk; GOLIKOV, V.I., kand. tekhn. nauk; GOTSERIDZE, R.M., inzh.; YEFIMOV, V.P., kand.tekhn. nauk [deceased]; KOPANEVICH, Ye.G., kand. tekhn. nauk,- MALOV, A.N., prof.; PARFENOV, O.D., kand. tekhn. nauk; ROZENBERG, A.G., tekhn.; SEMIBRATOV, M.N.,-kand. tekhn. nauk;_�-VRATff,-1.Ye., kand. tekhn. nauk; SOKOLOVSKIY' I.A., kand. tekhn.nauk,-, SYROVATCHENKOP P.V.J. kand. tekhn.nauk; TISHCHENKO, O.F., doktor tekhn. nauk; USHAKOV, N.N., k"d. tekhn. nauk; CHUMAKOV, V.P., kand. tekhn. nauk; SHALINOV, V.A., kand. tekhn.nauk; SHISHKIN, V.A., kand. tekhn.nauk; YUZHM, I.I., inzh.; BLAGOSKLONOVA, N.Yu., red. izd-va; SOKOLOVA, T.F., tekhn. red. (Manual for engineers in the instrument industry]Spravochnik tekhnologa-priborostroitelia. Pod red. A.N.Malova. Moskva, Mashgiz, 1962. 988 p. (MIRA 16:2) (Instrument manufacture)  SKURAZgY,_E,!j, (Kiyev); MORYAKINA, V.M. (Tomsk); ZAMORSKIY, A.D. (Nallchik) Nature calendar. Priroda 51 no.11:127-128 N 162. (MMA 15:11) 1. Sibirskily botanicheskiy sad (for Moryakina). 2. Geofizicheskiy vysokogurnyy institut AN SSSR (for Zamorskiy). (Nature study)  SYMIAMM, 1. We are laying walls efficiently and choa.ply. Sill.bud. 10 no.2:15 F 160. (MIIU~ 13:5) 1. Tekhnicheskiy rukovoditell Putivllskoy mozbkolkhoznoy stroitelinoy organizataii. (Putivil District--Bricklaying)  8KURATOV,, I.I. New design of the chip-braking step. Stan.i inBtr. 33 no.1:39 Ja 262. UOU 15:2) (Metal-cutting tools)  I. ~.' 9.'.- DANICIPM-111Y ' N." V' 9 2. U-IM (6c C) 4. Dairy Cattle 7. Practice of a leading miklmaid. Dost.sellkhoz., no. 12, 1952. 9. Monthl List of Russian Accessions, Library of Congress, April - 1953, Uncl.  SKMTOV, I.S.. starshiy nauchnyy sotrudnik. I I ~ 11~~'% , I - - I __ - I Yorage lupine in poultry rations. Nauka i pered.op.v se:~Ikhoz-7 no.1:31-32 JA 157. (WJU 16 : 2) 1. Ukrainskaya opytnaya stantsiya ptitsevodstva. (lupine) (Poultry--leading and feeding stuffs)  I ~ L -, V I If L I ILI t fco- wi ~l 1,::. - I': i lcah.-~ 'rJ -n an VO r 1y ~!llsilar Ta  SKURATOV, I.S. Feeding corn silage to poultry. Ptitsevodstva 9 no.4:13-16 AP '59. (miRA 12:6) l.Ukrainskay.. opytnaya, stantelya ptitsevodstva. (corn (maize)) (Poultr7--Feeding and feeding stuffs)  OVj -,;;kgTj.on.-Serg(-,yevich, Fetr FilippoviA [-~-h,cherlmym, UZ 11 K MITIA M.F., red.; red. kand. sei'hhoz. nauk; SHCHERBINA, F.T~.] k-id. sellkhoz. nauk; GULEENKO, 0.1. Hulenko, 0.1.1, tel-Jm. f [Raising ducklings for meat] Vyroshchuvannia kaclieniat na r1inso. Kyiv, Dei~zhsillhospvydev, 1963. 39 p. (MIUA 17:1)  3KIJK~TQV2 M. (Ei'lga- T~,dzi-L..:~Fk;,,y ' t. G-,mrade direcLor. IiT.'! 5 ro.11:411-43 N '63. (MIRA IW2) 1. Spatslallhyy knrren-IQnderit. zharnnia '*Nplc'ano,--+,-qkhniihosk lye obshc;he9tva  I smj-zz.~aov, 1.1.10. 3' ~ , r 4-jn of rp-:,, ~ nc~'i. i - , - Two ~-'Ms ~ " 0`2-- - - - - (:,~ -*-~. "'1.9) 3) 5- 37 Ij, r'~-, 4'o  I rul NOVS K AYP T ~ F 5 KUI~A TOV, 0 . A. ye, FiC., -Rome de, iociide, and ri,rdte CcMiCUnd.9 th 3,"-dfr,;r4r; , neorg. kh im, 9 nc,.7: 630-1, 2 (M[FA rq,~ hnolo~r i cKe skiy institut imeri 1,erisoveta, .ek t kiffellra otshchey klil.m.1 i  -;KURATOV, 11 S. v,. POPOVI 1.11. i!.) r-TODOSSIYEVY 11. :.., and SORAT011, S. 11% CA: 205-1315/7 Trans. Sci. Inst. Fertilizers (USSR) No. 110, 23-34 (1933) The heat capacity of aqueous solutions of ohosphoric acid.  SKIJITIA'rov, s). :,% POKV, '~'. Sn-RATOVI S, !'. and :--tODCSSIFV, it'. I. CA: 28-1256/8 Z. physik. Chem. A167, 42-3 (1933) Determination of the specific heat of aqueous solutions of phosphoric acid.  11,0101:115*1116 AND 1,118#1111111ts iiitiI_ tosetkpti" Of mix Crytolisla. UL NI. %I. popOT S For "t-coliduclorsk the Hfilstauld-illaundler rqtm. x1litmova. J. Goom. CAOM. (U~Iq., 'can he Uwd. The beat cosparities of mix cryotsi. W): cf, C. A. is. ;NUMO.-A inalissivit W awl. NOU + :41% KCI and IV) mm. 0 lee KCI + 4(1% "Ictadlis: calorimeter with a resistance thennoma thaw 4S&I* aft gn*lrr by 1).d sind ().S;V. f"p.. tll&ll .00 without a Delm vollael was listed for the exptii. The . by the additivity r Pot the detti. of tile I-Swinctry was tit&& of ciertrilijitic CIA (99.97%) 131 the IM61: empadtisto a butd1b contg. a 4 9f. of the "t&6 .010 towns opt cylinder* sit vashmns slims W-A -32.0 C). The tv- w= Kiled. The velocity of the 6 tolint. of mix crysta lee th"OHNUCICs' Wall Inside fruit' phydoWly pum fit (it NaCl dad KCI io, a a r IMP. that for all (41.1 stint. diltill.. 700 Ittill. long), its frolisibiam as 11, practical sairpomorms the et .101 1 "Ile I dro~olllp. anti can be 1411114111 bring In ohins. The Caw with the oluxi'mfuled or"Incter twelimiritimil in a socialist V. Ive tetert-OLVA. IV .00 09 t W.. phscrd In & INI-L water therstumostat (eketrically Kim aysibb (Na.K)Cl 4 (J)- AL M, 1-14-1y, 9 heated with a temit. mIA1 - 10 "U-fXY1* (lit 20'))- In an- s. M. blurstov and At - M. 811cf, ve Jbij. zAr-I other arriets tit expts. a Models Hg thesimmiscler wait ussed Thft(N&.K)CIcrrystmU (NaCIIWI KCUWI% I Isorm fil't'd 0 stuotead .1 the tit fcliotonomv thertaimucter. The the"inal In an Qvm willow temp. duristIl The ciyAtIl. w&. pcvvtai : egli Ifirilia C4 the 2 thellstimucterm, Vim Ilmly Identical. drams beloolms the temp. o( fillossif fuu.", tho, yjjnj~ it-sill). sit thr valutimetorr wat sell d M mos. 61"ed wt" evoled ralstdir In a dry in films (twrr I'll).) And ow. 0013 1 she lilt thmmmirlort J-3 suits. Aftes the Int"Amtkin criscible was Initne"Od lit a Cu Instill 'I Ill. Itat Mile hot body Into the caluchtletef. The nusurr" value --oryidals Mmithird im. Fitaind In 0* dguir IIWK tat it"'I &W-1 Of of the ratorinseter cooling comt. I% nmly Idendcal (Ot both islodr4mlorwithNi.. Me 00 the PI and the lig themp,metm (4" X 10-11 and 4.WJ a appmarflom with sime ibi: heski t-4 linin, of the miit., Ims A it? 1, Coloill.). Iltering tilt Intrudurlinil'of a definite ount at beat into the cologinoottet, the change Ili tile lorsup. voistpil, tit the $Y~tftt. ill the "lo-kinctri la-ted 45 Aft mill t .1 tj;c cglortinct" rrsitto,ted by the therittortieteris In Well- (or monstilm sit -4 M. and witirs: 40, 111, fill, if- its to,mp 164ble error 1, 0.1%. In nicasud" the teltip. was The heal. of 4rortissipti. oil Ild-4 clyool'al. first; tx as* with the rrm"Imilice I befully"Iftell' the c"Inporn-tion -thW (NOCI 50%. KC1 .50% 1 were bound Ili Ix- liNks, lirt). lik:" *00 u~l It, clinjilliclion with alvitmillatom "how and 1141) cal./tit Hl%l, Tlw Is.-At, go% insililtntly with thur. Civrmlions; f of Wohl. of cr W40 rtmsw do of the Tilt& tpres-II.I.Nillits, I*Ill 41 'at V%, hattle Its the 4 the heat rillacitiom of W-A Kilt, DO% Kilt f 1071, Kt, N K lit f 30% K 1. 0- !1*0 h., ductol--an tic det.l. fly extiallulstill" 19 'lit f-d- K fir 4 IM K 1, m 1% 1! 1 "It ISI, 111% X Its iImIg in, 2=11 of the calixiincirr fit the final Period of the expit. xf and 1A KI more. re, j1p,21. :1.7 J.,.. It i. P11 -32AXI, -:11.(X -30,2N Cid./S. Thv IICA( S I. A at?ALLURGKAL LITISIATME CLASIWKAItOR of %oln. of mixts. of KlIr and KI (Nmtg. 7,(Y W% J K Ill 1 WH 141U.J .4. Qbs 14411210-41 4111AW 00 G.V Ill 3 a 0 SO TV If,' All 1 11 1 not a m is i as so 9 sa Is U AV so lit "f tFaill'OF41C Kit 0 0 : 0 0-0 a "AL 0 0 0 0 0 0 0 0 a 0  0 9 Igo so :,oD :0 0 010 90 so 040 so so 00 00 00 00 00 mac"Ase" slowly wt(h tileat - henCe Mix cristah'ilir formed at to= temp. The heavi of soln. of untempartird crystals, 0 hr. aft a.) conts. 9u% KHr + 10% K1. 770% KtIr + M80)11M, .50% KHr + S0% KI (1.3 hn. after Inclus.). :10 Kilt + 70% Ki and 10% KHr + 00% KI are, rftp.: -314.70. -34AM. -.N).M slid -:a). I I -*I. /g. rhe heat rat solo. of untualpered cr"W* K 111 90%) it-" not change with time (up to 4 months). i'lle beat cal -acAn (,( untruiperral crystalm roants. Kite 70% tlasr~ trial Otange with time (up to 3 momflai). The beat of %oln. at untruilwired Crystals cuntit. Kilt 30% Inervisw% with (ittle(byll.2 value after it (-W.A) Caldg. 1~ 11..0 of -An I onteltil"Cil rl"141, "11:4. Kill Ilia" Ins,cmm" slowly with little illy .11r: 4 mmah.). ~T' ie.. of the lerillword anti ii'llvinpervil cry-fain cral4c. Kite IWV% InVirdscal cft-idre ashly wit It I mir; the rNtritt thr chansir Igor t~w tempered and onivililartrit ellymalli is different. but Ittv Inuit Of their Change I- live -Qatar. The treat of sign. cal rystab kept in .limit air changr% ctinkiderably room titan that of Car ma , Y I ail heroiclicallv.~ealed containers. 11, tirlearvir "17,91tastable for- of halides agad of 0 0 0 gia '.6 Go 00 "Uj sietels. NI. Nt. lNqxjv. via. P. bunoulov. S %I skuraw, and M. N. suaia *L,.vx. Ibid. 21UN 4t, X-ray invarolpticarts showed HIP-9CIROluriall fin- In nia% cmtah KCI-Kftr of an . and obtained tlY -any "ujm N' i h f 1 IL sta n. call eat o 1 ng va Hear 0. the methw; the To W - emuce In the "tallographic lattice of . - li IN h 1f h ti to - ere were u ermal treatments t ercat t K 41 . Y 046 of KCI whirb difftor from each cathrr in I heir - l= by 1.6% anti in tlW TWf-- of "v%vvaivv** =. h 00 weak Un" in their it-my p"roraph,i. The my lllllk~ ' 00 I 1h.e. ."k th. , -1.* const, caW. feram A 117 aw,11"arv N L lit"tragraphia I. a, - 11.2711 %~ 0-itill A. It-la" 1h- J-7 l 00 inaft them err allian tstwrvnl 16 very weak lines Ilia - 00 lg,&% a, ().III A. - (2 X (laIT) - 0.01 A. 1. 14 vvty w-L Jimat let - 211M)a o 11.111 A. - (4 X 11-27,111 A u,M A.1 and 00 & Very weak tin" Ill. - PA1,231 - IMM A. - (H X 0,21*1 * " 00 linral(al Ole Wall 0,(%A.1. The On. no. ill thr "PlIt'viladvv paqv . remains strictly curaml. A"41tadcauslibeaultileltitair" 11119 observed In Kilt, NuCl. N&F. KI and Crillar. X-ray in- 00 vestiptioras of Aff. Au and Pt prepans, obtained by differ- ill cut thermal trarsitaratents at,~ ~hnwed that th" differ %tit 00 am another hy the prewitce or slaencir of -rxrrs,ive'* 90 week lines. These lines are in ail-in. to th, %total line, 14 Aq. Au anti Ill ni.,erd 41 % lav photographs. hlr%-it *0 W. M. Items so 00 00 0*00000000004000000:0 a le 0 0 0 M M sh, a a a  SYUR,~_TrV) S. M. UM/P]~Yslce Sep 1946 Specific Heat Calorimetry "Specific Heat of Water Boundary by High-Polymeric Substances," S.M.Skuratov, K SShkitov, 3 PP "CompteB Rendus (Doklady)" Vol LIII, No 7 The article describes a special calorimeter for measuring the true specific heat of liquid and solid substances. Accurate values would nermit a method of determining the amount of bound solvent, as suggested by Dumanskiy. Tables of calorimetric results are given, on gelatin and starch-jelly. Pk 21T111 21TIll  A I? S. 161. Skuratov. ](I. Lho'!d. hea icil-m-MY-A-Wrtanor- - Z C..J. 3. Zhur. 9, 1*1(1947)) 1. ~, ~ ,.1 1. J. IlIkerman  Lleat c acijt of the IRWo&ssiurn chloride, potas- mt s it and pota dide at high temperatures. ~S. n.W.I.tov and S. A.,;aL.1;Ain ~Nlof;cow State Univ.). Vr - en "I .) ZI, ZZ11-1:1](In t7hur. 5TV =ieshim 'U. 317~ fligh-acutracy det"s. %vere made by the mixing method in a 01 calorimeter, with a resistance tlicrinometer reading ivithin().001'. Thenleartheatcapacityin thetemp. ranges ~0-400* wid 20-660* for KCI and KlIr, and 20-350' and 22-660* for Kf, is a linear function of the tenip. 0, and is expressed by cqtiafivn5 of the type ~, = X + ~~ X 10-1 0, with the following vahzes of TIrtd li. KCI, A - 0.1612, B - :3,21; K13r, 0.1m,11 ayid 1.9-1: KI, 0.0728 and 1.69. IThe deviatimis of the expti. valtses from the equations arc Ke"Crall", 0 1 rit" or and ovilv occasionally attaiii (t3%. '['he tra, 1Y.-heat capacitimc, = d[?,(0-20)jdO, irlCal./g_ are described by c, = A 4- 13 X W-1 9, Ivith KC1, I - 0-1605,13 = 6.4; KBr, 0.1017atitl3A); KI, 0.0725and 3.4. Vor the 11101. heat caparities C, = A + B x 10-10' KC1, 111.06and-1.79; KBr, 12.11 an(14.61; KI, 12.01 and i.60. N. Thott  SIC-HEUTOV) S. M. USSR/Chemistry - Oxidants Jul 51 "Specific Heats of Certain Peroxides and Hydroxides of Alkali Metals," A. V. Bedeneyev, S. M. Skuratov, Lab of Inorg Chem, Phys Chem Inat imeni L. Ya. Kar- pov "Zhur Fiz Khim" Vol XXV, No 7, pp 837-84o With aid of heavy (large capacity) adiabatic cal- orimeter constructed at Thermal Lab, Moscov State U, measurements vere made of av sp heats in temp range 19-1000C of X02, NAO2, NA202, BaO2, KOH, and NaOH.  Mu" trwisdormali= 4f Hap and linew polymers, 1. Calortmowle dwy 91 t1w jodyniffkadon nection of - K.anar%kaya (VnIv. Mow9w). XdW. Zkw. 14. IW9l (195.1).-Tht total beat Q of reactim of o-caproUctam with 11,0 to give polymer H(UN(CHAC01.011 is 29.3-29.0 r.J./jr. Independently of imp. and the amt. of 11#0 (z %) Added. The beat evolution starts after a latent period of 40-W:n4n.at230'aud9Gmla.*t21O*. Thentherateol' best evolution increaws to a max. which is sharper and oc, cufs earlier, the greater is x. Thms the wax. rate w= ob- served during the 3rd hr. (54% of Q) at x - 2%. 5th hr. (3 1 W- of Q) at x - IPr. and Sib hr. (17,5% of 9) at x - 1) 5 at X*)'- at 210- it occurred during the 15th hr. at x - A diffr~tial alwiade *-a3 built of 2 Identical bol- low As blocks filled. ane.with caprolacutra and the other with lZCI, provided with elm, linters and thermocouples. aujimmerved In an oil thermostat. 1. 1. Mprrm-In  Abst, 48 No. 9 !"Ay lot 1954 Cal Chemistry General Lnd Phy9i gs and Unear polymers. L mutual tranqforlnLn~, aej.- I - reaCti a of CaloriMetric inv t1gatlon of the tre ikheev, and. V52PP NI Skuratov. S nIv. o oid J. -T ~' a Le C.A t, nslation a ra 14(1= 4,20 - -9 8506c.  09>~ 10056' The Therntal Effect of the Proc- of INstural Ag. ing of Al-Cu Alloys (514;u) Aft" Mw4emins ansi Berate". -Aia. 7 mal %I. Skurww and S. S. Podol*sk hu Objhchri )an. 195-2 p, 31,38. The Il%vnuJ effec-ts wrfv studied in it spcviall~ r..'jimt-d AW) Nik-cullusly Were ILMIM4 It 19.2 &M 28.0'C Lta Are tilyi- Wed.  USSR/Chemistry C&loriue+4.ry -Jan 52 "Calorimeter for Determination of Latent Heats of Evaporation of Highly Volatile Liquids at Dif- fdrent Temperatures," S. M. Skuratov, 0. IN. Yachin- skaya, Thermal Lab imeni Prof V. F. Luginin, Mos- cow State,U "Z-hur Obsh.ch Khim" Vol XXII, No 1: PP 76-81 Describes- construction of heavy copper calorimeter and methods for using it tomeasure latent heat of e,v;apn of highly volatile liquids at temps from room temp to 1000C. Latent heat of evapn of toluene was 207T15 USSR/Chemistry - Calorinetry (Contd) Jan 52 measured for exptl checking of method. With this method, only a few grams of the substance are needed. The-margin of error is 1%. 207T15  USSR/Chemistry - Synthetic Fibers 21 Oct 52 "The Kinetics and Heat Effect in the Polymeriza- tion Reaction of Caprolactam," S. M. Skuratov, -x, A. A. Strepikheyev, V. V. Voyevodskiy, Ye. N. L4 Kanarskaya, Moscav State U imeni M~ V. Lomono- sov "Dok Ak Nauk SSSR" Vol 86J, No 6, PP 1155-1158 The polymerization reaction of caprolactan was carried out in a specially made calorimeter an& the kinetic and heat effect of the reaction stud- ied. A formula is derived for the rate of t~e_ reaction at any point in the temp range of 200-2400. Presented by Acad N. N. Semenov 27 Aug 52. 234T35   SKURATOV, S. X. Docent, ISTREPIKHEM, A. A.,Prof., MUROMOVA., R. S., KA.CHINSKAYA, 0. N. BRYKINA, Ye. P., SHTREKHER., S. M. and SHUKO, V. D. "The Heat of Combustion of Lactams and Amino Acids,it a paper given at the All-University Scientific Conference "Lomonosov Lectures", Vest. Moak. Un.j No.8, 1953. Translation U-7895, 1 Mar 56  -ion il ~,13  VHeat of ~Com of lieterucyclic to pounds. 1. 4u thods. . ivL.- bkUratipy, A. A. Strepikheev, 0. N. chlnskaya-7S77;r. SfftMWrr, a uchenyd ___- ..I- - , I I I . - - - W-95;7--a I- Referal. ZwUr.7 7Mw IOSA-,IVo-. 3743S.-The set-UP for*thg '~sc ca I' detn. comprbing a',&w-calotimetric bomb and secial ther-  lain and kinetics .01, ad" A Uch eflyd ZOPLIN Moko v. 0SU44TS9. Unw. M, La"?,M019M No. 164,87-11 -The results raponea : 13687s) are descriW In greater de- b3: S., et al. (CA. 49, tal -,,.p..,.ctam is polymerized In the presenceol fields, the stiax. irate of polymerization occurs at 30% trans- or 42% when pure 11,0 is used. When HuN112 IS present. the value is 46-6% and " neg. Ions affect with NaOH, 50%.. Since both pos. and the reaction rate, the amino acid formed during the poly ster werization must net as a dipolar Ion. It. M. 1xice! %0o  5.M - ............. Tfie- strl~ictllfe of BY111tht-6c WY .1116 fibeili with vmtv. 8 -of cisiIron teval beat of wetflii? ~ , ~ ajnbvig. _Keodv U. V~ r, X~I C.A.-_,47. il,7401f,-The hCal wettistg ot dry.,iin&ivtk(1 (1) fibcTs jnctcas~-d with tittic~*frofn, i,g., days, (6 .5J5 f It tmainc -const, there. r!. 4 monflij aftir q.tiry; orictriml-Y v;~;&j'j,'O,JI~batejj to batch hilt illercas, -C-1 with fitti4k W am: bhtch;~ t~g.; it till Itith atill 11,~ 7 viaiithi' uKi Ali, tov gill" Vv in~limc, while in 11.1011ritted fulmi, (61, At dvt~r: tilt,, Q nr   kinetics it heat effect of the reaction of of vie vi~.121 Of naj th"O"Jact~ V :V V'- skil, A. A. i I if Ova an(] 1q. V. Fole (1v 11.k.. Moscow Poklady Akad. Nank-,.Y..Y.S.R. 95 IYJ E~4 j (1915-1).-~*Ikv lltacatalyl.Ld polyincrizati"41 of ena,titholac- tam (1) wai studied calorimetrically in a manner analogutis to the inethud used previously in studying the pofyincriz-Ation of caprolactaux (11) (cf. Ctl. 46, &')W)c; 49. 13Wi). The Polymi:rizutiou Of I is autocatalytic, with -.in induction period somewhat smaller than that of U. The, period required for the attainment of the max. reaction velocity decreases as die aint. of catalytic 11,0 is increased, but the degree of conversion, 3G-2%. of I at the point,of Max. velocity is independent of the tunt. of 1l*-G present. The heat of polymerization of 1. 5.19 kcal./nuile, is about 2 kcat./mole greater than that of 11, which indicates that the ring strain - in l'is 2 kcal./mole greater than in 11. An effective acti- vation energ of 23 kcal./mole is required in &e polymer- ization of I! A rate equation, derived from a proposed reaction scheme, on introduction of the activation energy becomes IV - A*e-1*-w1[Ff-01[Bj(jBtj' - [Bj')'1-, wh re IV is the rate of change of B, B is the.concn. of 1. and Bi the initial conca. of 1. Donald B- Miller is  SKURATOV,__5-,R,,,; VOYEVODSKIY, V.V.: STREPIKEWYEV, A.A.; KANARSKAYIL. Ye.N.; --'-----'---'.--MUROMOVA, H.S. Acid catalysis of the polymerization of ~ -caprolactam. Dokl.AN SSSR 95 no.4:829-832 Ap '54. MaA 7:3) 1. Mookovskiy goeudaretvannyy universitat im. M.Y.LomonosoTa. 2. Veasoyuznyy nauchno-iseledovatellskiy inetitut iskusstvannogo volokna. 3. Institut khimicheskoy fiziki Akademii nauk SSSR. (Polymers and polymerization) (Caprolactam) (Acids)  SKURATOV. S.M.; VOYJIVODSKIY, V.V.; STREPIKHEYRY, A.A.; KANARSKATA, Ye.N.; - XMOIKOVA, R.S. Catalysis of the reaction of polymerization of E -caprolactam by bases. Dokl.AK SSSR 95 no.5:1017-1020 Ap 1.54. (KLRA 7:4) 1. Hookovskiy gosudarstyennyy universitet im. M.Y.Lomonosova Voeeoyuznyy nauchno-iseledovatel'skiy institut iskusetvennogo Tolokn& Institut khi- micheskoy fiziki Akademil nank SSSR. Predstavleno akademikom V.N.Kondrat'- yevym. (Polymers and polymerization) (Caprolactam)  ~'UR A T 0 V) UM/ Chemistry - Organic chemistry Card 1/i Pub. 22 - 26/49 Authors I Strepikheyev) A A., Skuratov, S. M.; Kachinskayas 0. N.; Noromovas R. So' pi, Brykina, Ye and ShMEW',9M. 'Title The intensity of lactam Periodical i Dok. AN SSSR 102/1's 105rlOSO W Is 1955 Abstract t Experiments were conducted to determine the heat of~combustion of cerlu"'. lactams and to estimate their intensity.on the basis of data,obtained. -.The simplest and most direct way of dotermining the intensity of the cycle:wa--S. found to be the comparison of the combustion heats of a monomeric.cyq3ic:-1' compound to that of a homologous polymer. Another way of determining-,the intensity is also described. Six references: 4 USSR; 1 USA and 1 Fr. (1947-1954). Tables. Institution The Moscow State University im. M. V. Lomonosov Presented by Academician I. L, Knunyants, December 13, 1954  M USER1 Chemistry - Organic chemistry Card 1/1 Pub. 22 - 33/62 Authors I StrepiYbeyev, A. A.; Skuratov S M Shtekher,, S. M.; Huromova... R.. S.; Brykina) Ye. P.; and Title t Interaction of amino- and carboxyl groups in amino acids PeriodiCal I Dok. AN SSSR 102/3, 543 - 545, May 21s 1955 Abstract I It is Imown that the interaction of atoms in a molecule or the interaction' of molecules in a substance in different phase and states of aggregation' is one of the most important factors in determining the properties of chem- ical compounds including their reactivity. Results obtained duringthe de-,.~ termination of heats ofconbustion of several amino acids.of the fatty series having the amino group in different arrangements relative to the carboxyl are presented. The interaction of amino and carboxyl grol%ps in amino acids was als6 used as a basis in determining the heat of combustion of salts of alkylenediamines with alkylenedicarboxylic acids. Three references: 2 USSR and 1 French (1927-1954). Tables. Institution The M. V. IAxmonosov State University, Moscow Presented by: Academician 1. L. Knunyants, December 13, 1954  -/-A1  SKURAZU,,,,";,,.STRXPIIMY3T. A.A. Cdoceasedl; SliTFKHXR, S,H.; TOWKHINA# A. V. Polymerization enthalpy of avelic formals. Dokl. AN SSSR 117 no.2: 263-265 N '57. (MMA 11:3) 1. Moskovskiy gosudarstvennyy universitet im. M.Y. Lomonosova. Predstavlano akademikom A.A. Balandinym. (Enthalpy) (Acetals)  20-3;i~/ AUTHORS: Skuratov, S. M. Strepikheyev, A. A. (Deceased), Kozina, M. P. TITLEt The Reactivity of 5- and 6-Member Heterocyclic Compounds A (0 reaktsionnoy sposobnosti pyati- i shestichlennykh geterotsikli- cheskikh soyedineniy) PERIODICALs Doklady AN SSSR, 1957, Vol. 117, Nr 3, PP. 452 - 454 (USSR) ABSTRAM The enthalpy on the cyclization can characterize the reactivity of a given cyclic compound in the well known manner during its trans- formation into lineEwcompounds. The main problem of this paper is to extend the conclusion drawn to )_ - and cP -monosaccharides the polymerization of which may play an important part in the bio- synthesis of natural compounds. Besides, it was possiblej in this paper, to clear up several other interesting problems. The enthal- py of the cyclization of a given cyclical compound can be computed in two ways: 1.) By comparing the experimentally determined com- bustion heat of this compound with its combustion heat added up from the increments of the corresponding groups. 2.) By comparing the combustion heat of the 5-member and 6-member compounds of a given series. For the determination of the enthalpy of cyclization of the 5-member cycle a formula is given. The experimentally de- Card 1/3 terminable quantities are the combustion heats of the respective  20.3-26/52 The Reactivity of 5- and 6-Member Heterocyclic Compounds compounds. The calorimetric apparatus and the method for measuring the combustion heats have already been described (reference 6). The combustion heats of all investi-ated substances are shown in a table. The data obtained allow, among others, the following con- clucionst The enthalpy of the cyclization of a 6-member cycle is nearly equal to zero, but for a 5-member cycle this entbalpy is rv 5 cal. The authors intended to verify the method on any pure hydrocarbon (or a substance of similar structure); for this pur- pose they selected Wd-glucose. quite simple additive methods of computation may be applied in the case of the c3ms of hydrocarbons. It may be assumed that in hydrocarbons the enthalpy of the cycliza- tion of a 6-member cycle is nearly equal to zero. This permits estimation of the enthalpy of the cyclization of a 5-member cycle of Bd-CH -glueofuranocide by comparing its combustion heat with that of he 6-member cycle of the Bd-CH -glucopyranocide. There are I table and 14 references, 4 of which are Slavic. Card 2/3  2()436~/52 The Reactivity of 5- and 6-Member Heterocyclic Compounds ASSOCIATIONj Moucow State University imeni 11. V. Lomonosov (Moskovskiy gosudarstvennyy universitet im. M. V. Lomonosova) PRESENTED: May 25, 1957, by A. A. Balandin, Academician SUBMITTEDt May 16, 1957 AVAILABLE: Library of Congress Card 313  SKURATOV. S.M.; SHTEEM, S.M. Heat of combustion of cyclohaptanons. Ehim.nauk i prom- 3 no,5:688 158. .(MIRA 11:11) 1. 14ookovskiy gosudarstvennyy universitet im. M.V. Lomonosova. (Cyclohaptanone) (Heat of combustion)  q .. J.J:qi I , ~, PT'l-t Poop . q jj% .01I.Sla-2 OYJT -I.. q% -Tq% 3. 11-:1XIV. q% S.Ut ... Tt-q jow n -1*;A%- 0 V..a ....: . vu: :. 'Isa I lop. ;o ..% jo P.1 12:1 1 1. 1, % J. V.tt - f2 J.11so "I I. -IIA %. J.jm"I I- q U.11-11". t-j" :qj P-d tjj~; ........ "T..q Pa. j.t T.T.4 Tq P.S.Ta-D :q,0, T.T . ....... 'o, '401 q 0 4 jo., o I 9.$.j.jt -It V%T. joj -ftlux.41 I -T "Is qs sII-is *-,(IT q% Pa- -Tvu.. jo jjjj;,T..od 1-3-2 . . A-- - 01 IJ-3.9";j.d . Ozj "-I$ ... ,: I.PTP." -~11 d --,, 1 1 *11. 4 . .9 "'. A 1 :1 -TjTtv.T.. aq ;o rl,~I 1 olp. 1 . 11. 4, 1.. P.Tv..J.p : 34-4- Vol .1 - 1 .11 -.J*ql t-A 6 .... To. t d p d J. T-., 1 .4.. P.v I-OTI-C.41 i .2.2. "A tip-41 ~q 12 V..j 04-ij- T-1- J. d. p.lj;j_t jo 011-p: Pa. "j -OTU;d- -RI .1 P.Tp,...r j lzonzsff (8rcn) siz 5Q, dd 1,11711 111ol-A 'IT*1aOIWjj (. o I-T-1-Pod-d .., o I 'u. -.tmTlq J. vo. "FIAZZ -Gpn.=y  3-56-7-3/36 AUTHORS: Gerasimov, Ya.I., Yeremin, Ye.N., ~-iselev, A.V.,.,,~kuratov, S.11 c ; 0--4-4- Y,'.V., Frofessors; Shakhraronov, ~I.I. r 0 Chemical Sciences and Lebedev, V.P., Dotsent TITLE; The National ",;,conomy Needs Phy-Pico-Chemists (Narodnomu kho- zyaystvu nuzhny fiziko-khi:riki) PERIODICAL. Vestnik vysshey shkoly, 10'-0, .11'r 7, pp 14-16 (USz!R) ABSTRACT: The authors stress the necessity of creating special faculties on physico-chemistry in universities. At present, faculties train chemists whose knowledge of physics is raTher limited. The student is not trained in a special branch of chemistry, nnd the shortage of time does not allow him to develop his knowledge of practical methods. ASSOCTATION: Moskovskiy posuderstvennyy universi~,et imeni Lomonosova (The ~'oscow State University imeni Lomonosov) Card 1/11  GERASIMOV, Ya.l.; YMMIN, Ye.N.; KISPMV, A.V.; LEBEDEV, V.P.; SKURATOV, S.M.; TOPCH=A, K.V.; SHAWARONOV, M.I. Methods of preparing scientific workers and teachers of insti- tutions of higher education. Vest.Mosk.un.Ser.mat.gmeldi.,astron., fiz,khim. 13 no.1:235-238 158. (MIRA 12:4) (Science--Study and teaching)  .)(4) -TH IORS: =07/--72-1 1-!P/~~2 I I F., Skuratov, S. TITLE., U~;ine th- Electrifc Arc in Calorimetr~- (ispollzovaniye elektri- cheskoy dugi v kalorimetrii) PFRIODICAL: ".11,~r-al filzicheskoy khir-ii, 1958, Vol 12, Nr 11, pp 2580-2585 U S C:,.q ALSTRACT: A s-ceci-t! cclorimetric bomb t.,,,as constructed (Fig). The com- bustion of the sample is c3r--,ir--d out bdy mea-S of ar -electric arc fc-rmed bbet,,---t--,en a tungstc-n electrcde and the shell(for the sample) made of tantali.,,- or heat resistant steel. --'-n open calorimeter v:ith an isothermal water jacket was used. In the latter the tem-c-erature -xas exactly maintained at 0.010. To determine the, enerCy of 'he electric arc a special electro- dynar-nic d.c. --,IF~ter ,,;as constructed (with V. A. 111'atsnev, ~nEineer, ta1king part in this -.,.rork). The results obtained in cali'--rating tl~e meter are eiven (Table 1). The heat value of t"IE- ca~or "as de~er-;ned accordi-E to 'he diatherma, met',,od. A stan--ard berzoic acid was used that. had been syn- the 34 zed '-y -?e Vsesoyaznyy nauchno-issledovatellskiy institut I I Q Card 1,11" metrologii, im. D. I. i'Vendeleyeva (All-Union Scientific Research  SOV/-16-32-11-19/32 Institute f.--- Yetrology imeri D. 1. I'llende-leyev). The ch"ained values are given (Tables 2 and 2a). The enthalpy of the magnesium oxide formation -,;a-s determined by means of the calorimeter described. The combus~-ion took Place at a-n oxygen pressure cf 1.5' atmospheres absolute pressure. The experimer'.al (Table 3) agree .Vell the values given (11,-C3 3-18). It is a,)sumed that the mearsuri~- Ment m,~thod will I:,-- lipp'lod Y;Jthill a wide fiold of measurementz of tKe hea-, c-ffects of 1-,i&.,--tempQrature reactions. There I fiCure; " tables, and 0 references, 1 of zhich is Soviet. ASSOCIATION: Yoskovsrki,~ Cijo,,-itiarstvennyy unIversitet im. M. V. Lomonosova (Yoscow State University im,-ni I% V. Lomarioscv) I -. 3U31YI'2TED: Blay 25, 19c~7 Card 2/2  5(4/1 SOV/2o-122-1-30/44 T JT TIORS: Skuxatov, S. I.I., Kozina, 111. P. TITLE: ie Combust-icn Heat of Tetrahydropyrane (Teplota -oreniya tetra- -:idropirar,a) I YERIODICAL: Doklady Akademii nauk SSSR, 1958, Vol 122, Nr 1, pp 1o9-11o (TTSSR) !,93TRACT: in the Thermochemical Bulletin 1957, Nr 3, the values of Uie combustion heat of tetrahydrofuran and tetrahydropyrane were published. (These values were found in an English and in the difference !i 3oviet Laboratory). For tetrahydrofuran, between the reoults of tho 2 laboratories is relatively small, but it amounts to 0,5 ~"'O for totrahydropyrane. Such a difference cannot be explained by the errors of the calori- metric -..ieasurements, but it is caused, evidently, by the insufficient purity of the substance. Therefore, EnClish authors ~~nd the authors of this paper deckbd to rePeat the measurements of the combiistion heat of tetrallydropyranes The value found by English authors was practically equal to tkat -,published in the Thermochemical Bulletin. This Card 1/2 paper, however, -ives the results of the repeated determina-  The Combustion Heat of Tetrahydropyrane SOV/2o-122-1-30/44 4._~on of the combustion heat of 'betrahydTopyrane. This sub- stance was piirified in various ways. The combustion heats of these s~:mples were equal within the limits of experimental errors. The results of this paper are given in a table. ;.ccording to these re~ultbs, the tetrahydrdpyrane investi- ~-,ated by tllie z~uthoro nay be considered as being sufficient- ly pure. There are 1 table and 2 references, 1 of which is Soviet. PRESENTED: June 30, 1958, by ,l. 'T. 7rumkin, z'.cademician SUBI,T'IT"'ED: July 1, 1'958 C-rd 2/2  50) SOY/156-59-1--26/54 AUTHORS: Bcnetskaya, Lt. K., Skuratov-. S. M., M-onayenkova, A. S. TITLE: The Det(2rmination of the Purity of Organic Substances With the Aid of Melting Curves (Opredeleniye chistoty organicheskikh veshch,:3tv po krivym plavleniya) PERIODICAL: Nauchnyye doklady vysshey shkoly. Khimiya i khimicheskaya tekhriologiya... '959, Nr 1, pp 113-116 (ussR) ABSTRACT: A method is proposed for which only small quantities are required (0.4 mole). The apparatus shown comprises an alu- minum block, which is electrically heated from the outside and in which the cone-shaped measuring vessel is introduced. In the measuring vessel (which consists of 0.ij mm. thin silver plate) a solid silver cone is centrically suspended with a clearance of 0.6-0.7 mm.between the cone and the wall of the measurin.- vessel. The cone contains a thermocouple of high sensitivity. The temperature gradient between the aluminum block and the sample is maintained constant by another thermo- couple. The sample is introduced in a molten state into the measuring vessel and the silver cone is suspended in the ves- sel to urge the sample as a thin layer against the wall of Card 1/2 the vessel. The -~,,~,oaratus was tested with diphenyl--amine,  SOV/156-59-1-28/54 The Determination of the Purity of Organic Substances With the Aid of Melting Curves diphenyl and caprolactam, to which up to 1 mole-percent of other substances had been admixed. The tables show that impurities between 0-3 and 0.7 mole-percent were indicated with an accuracy of + 0.03 mole-percent. Ye. N. Kanarskaya, I. Ye. Paukov, V. V. Ponomarev, and Yu. I. Rubtsov assisted in this work. There are 1 figure, 2 tables, and 9 references, I of which is Soviet. ASSOCIATION: Kafedra fizicheskoy khimii Moskovskogo gosudarstvennogo universiteta im. M. V. Lomonosova (Chair of Physical Chemistry of Ibloscow State University imeni M. V. Lomonosov) SUBI"',ITTED: June 28.. 1958 Card 2/2  5W SOV/78-4-6-3/44 AUTHORS: Kolesov, V. P., Popov, 7. M. (Deceased), Skuratov, S. M. TITLE: The Formation Enthalpy of Beryllium Fluoride (Entallpiya obrazovaniya ftoristogo berilliya) PERIODICAL: Zhurnal neor.-anicheskoy khimii, 1959, Vol 4, Nr 6, pp 1233-1236 (USSR) ABSTRACT: An experimental determination of the formation enthalpy of BeF in crystalline modification was carried out. A direct methd was used for the determination of the formation enthal- py of the crystalline beryllium fluoride from simpler compo- nents. The following reactions were taken into account: Be + 1 0 BeO; AH (1) cryst 2 2 gas ~ 1 BeO+2,tT-F solution 342HF.1300H 20 = BeF 2 solution BeF 2- 340HF.130IH2 0 + if20solution BeF 2- 340HF.1301H2 0; '5H2 (2) BeF 2 cryst + solution 34011F.1301112 O=BeF 2 solution BeF 2-340HF- Card 113 . 1301112 0; A 113 (3)  The Formation Enthalpy of Beryllium Fluoride SOV/78-4-6-3/44 2 gas + F2 gas + solution 34011F.1300H 20 2HF solution 342HF. 13001120 A H4 (4) + -L 0 + solution 340011F.1300 H 0 2 aas 2 2 gas 2 solution 340RF. 13011120 A H5 (5) Be cryst + F2 gas= BeF 2 cryst; AH0formation A III formation =AH1+ A H2+ AH4; A H3- AH5 Beryllium fluoride was produced by thermal dissociation of 0 ammonium beryllium fluoride in the argon current at 360-380 The compound (NH 4)2 BeF4was pro 'duced by 0. 1. Voroblyeva. The calorimetric determinations were carried out in a platinum calorimeter. The temperature during the calorimetric determina- tions could be determined with an accuracy of 0.0002-0.0003 0 Card 2/5 The enthalpy of the reaction BeO with hydrofluoric acid  5W SOV/78-4-6-4/44 AUTHORS: Kolenov, V. P., Skuratov, S. M., Zaykin, 1. D. TITLE: The Formation Enthalpy of Lithium Oxide (Entallpiya obrazovaniya okisi litiya) PERIODICAL: Zhurnal neorganicheskoy khimii, 1959, Vol 4, Nr 6, pp 1237-1240 (USSR) ABSTRACT: The enthalpy of the reaction of crystalline lithium oxide with water was calculated. Purest lithium oxide was used as initial material. The analysis results concerning the purity of lithium oxide are summarized in table 1. The calorimetric determinations were carried out with the apparatus mentioned in reference 6, the results are given in table 2. The reaction enthalpy of lithium oxide with water amounts to AH = 31-41+0 'j8 kcal/mol at 200 0 to AH = -142.8 + O-37k1al/mol at 25'- and that of Li , 2 There are 2 tables and 17 references, 3 o7f which are Soviet. ASSOCIATION: .Ioakovskiy gosudarstvennyy universitet im. M. V. Lomonosova (Moscow State University imeni M. V. Lomonosov). Termokhimi- cheskaya laboratoriya im. V. F. Luginina (Thermochemical Labora- tory imeni V. F. Luginin) SUBUITTED: 1,11arch 5, 1958 Card 1/1  ~?000 66897 /Z 1.2 / 0 SOV/12 -8-1-15/25 AUTHORS: Popov, M. M Timok-hina. Ye, N- Skuratov, S.M., and Kalinina, Ye. N. TITLE- Latent Energy of Plastic Deformation of Alloy of 1\ Aluminium withlicIpper PERIODICALz Fizika metallev i metallovedenive, 1959, Vol 8, Nr 1, pp 103-113 (USSR) ABSTRACT. Sortie of the w-ork of plastic deformation is stored in the metal as internal stresses and only appears as heat when these stresses are removed by annealing, This laterit energy of deformation can be found from measure- trients of the difference between the specific heats (or apparent specific heats) of the deformed alloy in the uri-annealed and annealed states, In the research described this method was applied to aluminium-copper alloys (3 and 5% Cu) deformed to 30% by forging. The authors review published work of a similar character (Refs 1-16) tabulating the material, type of deformationi work., method of measuring work, additional measurements for some (Refs 1-12), In their own work the "apparent" Card 1/4 specific heat was deterinitied by a method described by M~ M, Popov and G. L, Gal,chenko (Ref 29), An unusual LK  66897 SOV/126-8-1-15/25 Latent Energy of Plastic Deformation of Alloy of Aluminium with Copper calorimeter (Fig 1) was used, consisting of a squat cylindrical heater on either side of which two initially cylindrical -3pecimeris 20 mut in diameter and 30 aim high were placed., The outer ends of the specimens were in coritact with thermocouple-containing silver cylinders. The assembly was I)otaid with i-rire and suspended inside a massive silver contairier itj a furnace. Systematic errors in the results were of no significance in the procedure adopted, Fig 2 shows specific heats as functions of temperature for the annealed and for hardened undeformed alloys, together with the correspond- ing additive functions. Deviations between the former and latter and the complex shape of the "apparent" specific heat functions indicate exo- or endo-thermic transformations, Specific heats of annealed and hardened 3% Cu alloys for successive reheatings are shown in Fig 3 as functions of temperature. Since annealed specimens gave unreproducible results, tests on deformed alloys were restricted to the hardened or semi- Card 2/4 hardened (i,e, cooled from 520 to 800C in 16 hours) alloys.  b 6 6897 SZOV/126-6-1-15/25 Latent Energy of Plastic Deformation of Alloy of Aluminium with Copper Card 3/4 Deformation, limited to 30% by a ring, was effected by a free-falling bob, Fig 4 shows specific-heat vsc temperature curves for hardened deformed and undeforined 3 and 5% Cu alloys, Further experiments were carried out in which determination of the latent heat of deformation was reduced to 1) defor,.iation of a semi-hardened specimen, 2) determination of the difference between enthalpies at two given temperatures for the first heating and for the Second and Subsequent heatings. This was carried out with six pairs of the 5% Cu alloy (Figs 5 and 6 give the corresponding specific heat vs. temperature curves), showing that 1) less heat is required for the first than for subsequent heating between the same temperatures,, 2) the latent heat of deformation for the six pairs varied from 0.4 to 2,3 cal/g; the latent heat of deforma- tion is released over a wide temperature range. The authors consider their experimental errors such that only the order of magaitude of the latent heat of deformation can be found, e  2 4 (8 ) SOV/115-59-9-18/3": THOR: 'kUra".v~ S.IVI. TITLE- The Problem of Units of Yeasure of Hea+ Quan't,ities P E"ZIODICAL: IzmeritelInaya tekhnika, 1959, I-Ir 9, PP 32-33 (US" ) OR, ABSTRACT: The author discusses the introduction of the joule as the basic unit for measuring the amount of heat in- stead of the outdated calory. GOST 8550-57 "Therriial Units" introduces the absolute joule as the unit for measuring the amount of heat. However, the calory is still widely used. Nevertheless, the calory should be replaced by the joule. Reviewing the history of the introduction of the joule as the ba- sic unit for measuring the amount of heat, the au- thor lists different ratios of the international joule to the absolute joule. These differences were caused, since the methods of determining the absolute joule have been ccnstantly improved. Since 1948, the international joule is not longer used; 1 inter- national joule = 1.00019 absolute joule and 1 calory Card 1/2 4.1840 absolute joule. Although the absolute joule  SOV/115-59-9-18./37 The Problem of Units of Measure of Heat Quantities should be used for all scientific work, the author recommends indicating which ratio of the joule Tho the calory has been used, if heat units are expres- sed in calories. There is 1 Soviet reference. Card 2/2