SOV/24-58-9-19/31 On the Flow of Gas in a Cylindrical Tube in the Presence of Friction and Heat Transfer SUBMITTED: There are 3 figures and 4 Soviet references. March 6, 1958 Card 2/2  16-76oo AUTHOR: TITLE: 7 Mezhirov, 1. 1, (MQSCG~N) Turbuletit Boundary La:;ev Cor at,, 1mp4L:c*'(_-.,t-, Cor~-,~c(235,lble Gas PERIODICAL: Pr1kiadnaya matumatliza I me,oiaiiiXal i tJ1,1 V~_1 _4t, 14r. pp 93-91-i WSSf~) ABSTRACT: AveraGed bc..i. .J,_Lvy lalye,- tf:e "low 01' 111 JMj)(2A'1*E'Ct , '01'1 p 1'(' 0 0 1.ble aboull u Lc,ci,, ave der-ved. Stavtlll.L~ I'VuM Ut(' (--cl at t! Le equation rn(At,,t1, arid (pl)-j (plI) p X j for tl,e piutl(j I ,:.e replace all poneW. Uiid pu!.;.V,1()i,:i1 l-'r%, - ~t v, c a.,-,",; Card 1/14 the~3e F--VJ,1'_1uf.s. re;  Turbulent Bouikdary Layer ~tr. Compressible Gao Card 214 1, secritid UL-1, condu'. t 1v atid ( I , 1 ) b( - (- u I rTI I I I ;A ZI with thf- Tit,- LICCO1111t, W;,! f,, a1r)n_ !w. L. I.. I !i T:l w' %,:it t8 the L(A'/ -I! J !t' :~!- 'IA, V. III w I t h and vc) .11-0. t1w [.,I! ' I mass 1*1;i.~ und d I I A 1-1 1 manl,, jla! I:. T., (Allf--r (:'llull )11.; 11;1v.. I !I,- '~:Ifw r'Irl :I., VP i, :iv, j*;I)-.'"j Cur a Pf-r-j*' t., . "") 1, 1 '~ '.' ;11 !i . 1, J'~'l examplc~i . ) I, 7t. t 1 ~i w ! I ;i .-ii~:3 betw,ell tJI'. I)ffj.-" -t:A :t .':; -; ; .'  Turbulent BOU11(kLi-y Layev C,-)v ~u: lmjjf-vf'~ Compreosible Ga2 body, arid b,)tf, t1w I'I'Li[Ldtl U11d Fvundtl tul-bulerit m1x1rig flumbel. eqllal to I Ij equal to It.; valtif: cutL;Ide the boundavy layt-v. uuc~ j-!v(-:n dc-plctin,, I low t i W (' I L t I 1~i I P~j C[, I - d II a 1, ( d U I I - V;t IW I t, i. t I i t(niperatuct- cuv i1rcet-utit ()t' t-io: A oecotid ~2.-urnpl(-- thc: tt--mpu.atuv(: alid u - U U11 tfiL~ I)udj, t~,t pr-(-'LiLW1'U --'011,;tunt, ut;d tix Prandtl IlUrnbui-L~ at'alit -mlltj. A !'ur-mala I.; j1-1vt-i, velatitiC 1, Ltj val~o-L; ~~n the wall arid ujt.;Ide tite boundavy lajuv, to it und lt~; v~tk,t-- Lit. LiXl;~itj. T! i I,- IJ LIL!k2d tG .;11(-)W LhLtt~ tht- HU.'L;#'1L ikumb(--r' LLi;d heificAdL; I I Urn b e i~ a i -u ce I Lit (-- Jb~ : N /ec, wheve c v 1 .. t I ;,I la 1 1, t' .Ai. upf--u.~Ima'Lu veiatlunLihip L.; ~_,Jvt--ii ljt.-twt--ci~ I ~,Liid t!i(: Iii ti,e case of a 6taLioiLavy tdi-bulent boundavy layer, near- a plate Cur Pi-andtl nurnber-~3 whicti uve not ui,ity ai,d 'Gr Card 3/11 constant pvujsuvt-- aiid (-!uiiL3taiit ternpevature ci, lliie plate.  T~rbulent Boundary Layer Vor an Im; ~ '(7'-,U"' ~ Compressible Gas 3OV/ 4C-24-1-131,26 SUBMITTED: A formula Is obtained J,eiteralizzing, the usual relation for N. The author states that this form Is more useful in questions of heat exchange between the wall and stream since certain relations which follow from the basic equations do not change the t'orm of N. There Is 1 figure; and 2 references, I Soviet, I German. May 6, 1Q~)q Card 4/4  Gas flow in a canal in the presence of heat exchange. Izv. AR SSSR. Otd. tekh.nauk.Mekh, i mashinostr. no. 1:102-106 Ja-F 161. (MIRA 14:2) (Fluid dynamics) (Heat-Transmission)  MEZHIROVR I.I. (Itskva) Imperfest-gas f1w In the presence of heat transfer. Jxv.Aj sssR.Otd. taW"duk.VAd1hA miashinostr. uo.3sl84,-185 W-jzs 161. (M33?A .14:6) (HuNdynamiam) (Beat-Transalssion)  S/207,'62/000/001'0l 5 016 1028,1228 AUTHOR: Mezhirov, 1. 1. (Moscow) TITLE: Calculation of the one-dimensional flo%% in a variable-scction duct in the presence of friction and heat exchange PERIODICAL. Zhurnal prikladnoy inckhaniki i icklinickskoy fitiki, no 1. 11)(12.92 9S TEXT: The influence of the frictional forces and the heat exchange on the gas pressure is investigated: the problem of finding a low -.)f variation of the duct section ensuring a given distribution of the M numbers for a given law of heat exchange is solved; the law of variation of the total gas temperature ensuring a given distribution of the M numbers in a duct Of given shape is determined , a numerical method of calculation of the distribution of the M numbers along a duct of given shape for a given law of heat exchange is described All calculations art: based on the assumption of one-dimensional flo". SUBMITTED: February 13. 1962 Card 111  ~-TOP C bmi d t lose ener loss, V~essbr& n ary-layert-ma5en i g3r tictor Via& t el ch b r~-7prifsure-rocovary unn ^tY AONM V9 b I At + I%- attv.,gb-. -~Wft it a+,MA A-~- - .   ~I t- '- 't ", I- GRANW. A.A.,kandidat meditainskikb nauk (Kiyov); ICIMIROV. L.S. (Kiyev) NedIcal problems la "BorresisanDr." Trach. delo no.1:97-99 J& 157 (KLRA 10-4) (MDIC INYA-PiMIODIGALS-HISTORT)  GfL4jlD(,, Ale~sandr Abi-amcvich semenovi c h [ iAez,.y [History of lWgiene an(., .3ai~itatlor. iri the Uk-air-J.; h,'b.~cw,rai.hIca: ;-r- ta b,' : . 1 4 ..,. .,,,,ra* P,,.,.,y. 14. - 0 - : ~ - ", U A  I ~~QVAJOP~YAKOVLZVA. M.K.; AAMMA, A.V.: ADKIN. h.D.; KHOmIKOV- I= -'--RIT. P.M.; aDV=V. S.S. Polyuarization in "u1sions under the action of )r-radiation. Vy9ske".sood. 1 no.1:68-72 Ja '59. 04IRA 12 - 9) 1. Fitiko-k-hisicheskiy Institut im. L.Ta.Karpova. (Poly-,erlzation) (G&,,a rays)  ,57 66876 SOV/76-33-11-47/47 AUTHORSa Abkin, A. D., Sheynkerp A. P., Mezhirova, L. P, I d TITLE: On the "Carbanion" Mechanism of Polymerization"Under the Effect of Gamma Rays 14 PERIODICAL: Zhurnal fizicheskoy khimiit 1959, Vol 33t Nr 11, p 2636 (USSR) ABSTRACTs Data from publications (Ref 1) on the polymerization of iso- butylene, and data of the joint polymerization of isobutylene with vinylidene chloride and of the sty:-ene with methyl methacrylate, obtained by the authors (Ref 2) show that at low temperaturesland influenced by nuclear radiation, the poly- merization occurs according to the carbonium mechanism. Up to present there is no information in publications on the course of a "carbanion" mechanism at the polymerization under the in- fluence of nuclear radiation. It has been established that the polymerization may proceed according to both mechanisms (carbonium or "carbanion" mechanism) and that this is not de- termined by the chemical stnicture of the monomers, but by the nature of the medium. Data on the polymerizntion of a~ alic Card 1/2 . acid nitrileland st renelat -780C (Table) under the influence  66876 SOV/-[6-3"-11-47/47 On the "Carbanion" "Iechanism of the Polymerization Under the Effect of Gamma Rays of GaLima rays, show that the polymerization of the acrylic acid nitrile in solvine agents with electron donor substituents (triethyl amine, dimethyl formamide) occurs -nd that none occurs in ethyl chloride (which is usually used for carbonium polymerization) containing electrophilic groups. Contrary, styrene polymerizes only in ethyl chloride. These data show kI that acrylic acid nitrile, which has molecules containine electronegative groups, polymerizes, under the Civen conditions, not according to the radical mechanism, but according to the "carbanion" mechanism. It is mentioned that more detailed results of the investigations carried out will be published later and that the authors thank Academician S. S. Medvedev. There are I table and 3 references, 2 of which are Soviet. Card 2/2  Nil 11 3 1 - 11 b I lie 9 "is d 8  "On the carbonium. and z:arbonion mecran_'s;:is of gamma-ray inducei polymerization." report presented at the International Polymer Symposium, (IUPAC), Moscow, USSR, 14-18 june 196o.  837M 2/1 90/60/0021006/W9/01 2 -3. 1. -011n. k. D, Whomk,,ol- 4-0', V. P- chlItt- T., twkm - ALLU&UA-1bj*- mat-to... a. 1. I-Oft, Z. 0. Ism. ftlFtort"tIonkor 11,byl-Ituder %be ISM-. of I -- PWIMICAL. 1960, V.I. 2. pp. 904-915 IM- TM poly .. t--tt-- -f ethylene IS the C---- p1tego Sad in orguald oub.te,eaom see Lavesti,,%*4 at dIff-st 'Ptees-e had we"ItAl.. d... 0. Sell - .... P-Prts.. f the CID 60 r the L..tlt.t I.. X-P f-ra4latlcos mr- . - v) 0400, IWO, and ZOOOO,gT- *2- a:, ::4 'p-, st-o. 00 St., radl.tios 4... cof I In 1 5 . d 5*C ( .... .. .0- M40 at 50*c) --r- be Th. -p-to-te .... .. .&.4 ..1 LA a oerm.,asitleg #*vice (Ft,, 1). Ths ethylene "e4 m" mea.- C.J4 1/4 speet-s-ploell, -I,. S.W. . -d 1 1. tat. - thl. -.11 b CA, It I p- I. v0 I tL. h: t": 'h' . 1.:p . It ,, 254r, (10 In ... d (T.bl. '-be' ---t- ropl&ly I- the cagma =80'. Th Poly- fumed "we Might of 200c0- 0000. Y- f th: 't-t- C%,CCI, n ) (20%) rem In end 71-1d ta .-I,- s-schl-id.. PoIJ-1 in 100-)W 00 t;- 65 25" nad 50,C). Th. P-ly- YL.14 ..4. 1. %be 'It yet I MI. % Iya -1 . ..... :.:f. ..Lrb% -4 th. L-1--tt. ".1&r f the V:.Iy. ........ .Ith "- %t C:t. -.-%. 1. 6.9 f 24 he-. ead -412.11- 1... cof 12 r1-, -4 the c&rd 2/4 to '5 CA.b-r (TtAl. 4). Th. ..tgh, end .1 .... ity f P-,Y-tbyl ... (T bl; 3)lrl . -ith (i ... %b. thyz ... .......... the "'S'S"S .%: P' ":ri-tlOl --het -11h the ree,- pr p:,t 4ne.: I O.T. --tcht r -th -3-1: the -41 1. 1... .!Ih . f..t- r C. trt- ...th d- ... I., -dt.tt- I ...... ... . io'c .1 Ih'I ... ... In %te, 1- .~ - (Tbl t by, LLW4. 'h S. IS I, -1JL- 0.1,11A r., -i-I., 1, -71" 4 D.Irsea. cerd 514 ftb~7 14, 1960  85731 S/19 61/003/001/015/020 B1 19YB216 AUTHORSt Mezhirova,_ Sheynker, A. P., Abkin, A. D. TITLE. The carbanionic mechanism of polymerization under the action of gamma rays FERIODICALt Vysokomolekulyarnyye soyedineniya, v. 3, no. 1, 1961, 99-104 TEXT: The present work studies the polymerization of acrylonitrile and its copolymerization with styrene under the action of y-radiation at low 60 temperatures for the purposeof explaining the reaction mechanism . Cc was used as radiative source. The experimental temperatures ranged from -50 to -1120C. Polymerization was performed in the solvents dimethyl formamide, triethyl amine, isopropyl amine, acetone, toluene, acetonitrile, propio- nitrile, ethyl chloride, heptane, ethyl acetate. The reaction rate was measured dilatometrically. (The volume change of the reaction mixturG during polymerization was measured by the change of electric resistance of a platinum wire and a mercury thread inside the dilatometer capillary). The acrylonitrile polymers were separated from their solutions by means of Card 1/3  86731 S/19 61/003/001/015/020 The carbanionic mechanism of... B119~B216 methyl alcohol and the styrene copolymers by a heptane - ether mixture. The copolymers were microanalyzed for C, H and N. In some cases the results were checked by infrared spectroscopy. At -780C, and a dose rate of 128 rad/sec, the polymerization gate of acrylonitrile (initial concentgation 3.5 mol/1) was 1.57 mol/l.sec-10 in isopropyl amine, 6.7 mol/1-sec.10 in triethyl amine, 9.7 mol/1-sec*106 in dimethyl formamide and 2.1 mol/1-sec-14 in the "bulk". The copolymerization constants were rl = 33 (acrylonitrile), r2 - 0.'005 (styrene). Resultai Acrylonitrile polymerization occurs only in the solvents dimethyl formamide, triethyl amine and isopropyl amine, but not in solvents with electron acceptor properties. The composition of the copolymers obtained at -780C by the above method and that of the analogous copolymers prepared by a radical reaction exhibit significant differences. The polymerization rate of acrylonitrile increases proportionately with the dose rate. A reduction of the reaction temperature from -50 to -1120C produces a great increase of reaction rate and molecular weight. The findings indicate a oarbanionic reaction mechanism. The authors thank Ya. A. Tsarfin and K, G, Nogteva, both at Vladimirskiy nauchno- Card 2/3  88731 S/19 61/003/001/015/020 The carbanionic mechanism of... B119YB216 issledovatel'skiy institut sinteticheskikh smol (Vladimir Scientific Research Institute of Synthetic Resins) for carrying out the elementary analyses. There are 4 figures, 2 tables, and 8 references: 5 Soviet-bloc, and 3 non-Soviet-bloc. ASSOCIATIONs Fiziko-khimicheskiy institut im. L. Ya. Karpova (Physico- chemical Institute imeni L. Ya. Karpov) SUBMITTEDs June 9, 1960 Card 3/3  120, '00 BI 10/B'4' 9 ha K'! V , V D Me z L i ro va Galat-a, L A Kh,.j ~, n,i I (I no va S . M & 6 e v , S 3' , A u x r. K h c m i k 1) v k. . v , F INI Polvmeri7at v r P ne q nd hu t, ad i e n e w,, n r - i~ Pmu 19 i on s !in I 9r trie a,: ~ i %)n of in it, l at i ng red c x s 19 '.em i I E~f e -, t cj f t ne na u f [)Pro x ,d e ~cmnound s or. ne -;i ,) f p - 1.ym e r i z t i , r, F? '0 D A L V k 1 p K u -iar r. y ve nen i v;i "FX.T ; A . m f ~ :-.p -, r P~r n *, w,)rk % ~iq t he :i e I F, rm', nat the m . i o f h u t a I i e n e w i r 'I %v r-d,j x A v? t pms f,~ r, ~ "IP im(, r ~i )r .r: om~; .9 airi .)f' ne e I" p t n e n a t ~,, r e o c- r, x x., t n e !, ~i , n , ,, m c- r ; i- r) r, . N e ka : w 1. n 0 N a 2 SO 4 a n r N a'~- n .T ra - j m u r P f-, Na sa I t q li o n i c a c i I li e ~t i r. a F 'Na i th Nu r v -d a f-, emu ~' s P rs Pp ro x i d e, r- r",  ~w P~- ' tmor : zar .,,,,n of BlIM91,vt s - x d a r, t a b a.,i s I u m 4 e r rc, .,,-tn i J e and fe rrc),.i s pyrcpn,,~ m r) y V r p d -i r Ju i r w ~t w n. Tn e r a e Y-m r i f r Li lp e r r r r fr,~a!j~, in C, I a r i rire fl v t e r r MC v 1 r T L, r a i Ir, r r a, r ir J7 a g"  29741 S/ 190/6 1 /oo 5/o 1 1 I/o 1 Ilr,, Polymerization of styrene and... B110/B147 of TI, only the initial rate increases. The total yield is lower than with 0 1 1, by weipht of II. Between 0.75 and 1 % ,y weight of' II, initial rates and total yield are much lower. With 0.02-0.2 % by weignt of 1, initial rates increase. Since the total rate decreases at 0.2 % by weiqhl, *he dependenc.~ of the reaction rate on the hydroperoxide concentration is nrobably linked with the inhibiting effect of the decom 'position products of hydroperoxide. With 0.1 ~- by weight of I and an equimolecular amount of K 4Fe(CN )6 , both total yield and initial rate increased with increasing temperature. The activation energies were determined according to the Arrhen,us e uation and found to be: E .,1.6 kcal/mole for II and E =5.7 kcal%ole for I. Reduction of E by 5 kcali'mole at -~ OOC corres:-ondg to a 200-fold increase of the reaction rate. Since the rate is twice as nigh at 0011, the pre-exponential factor in the Arrhenius equation increases by 102 times with decreasing activation energy of I. For the cooolymeriza- tion of butadiene %ith styrene (ratio 70 :30) at 50C, the following was used Nekal (2.8 and 1.4 ~( by weight added to Aater. 0.44 % by weight C)f ferropyrophosphate (related to iron sulfate) of the monomer. The ratio pliase *aqueous nhase was 1 :4 (by weight). In the case of 0 34 lard  29741 S/190/61/003/011/013/C)16 Polymerization of styrene and... B110/B147 by weight of hydroneroxide of' II (equimolar ratio to the monomer) optimum rate was achieved -,t:, IV. The highest yield was achieved with aryl-alky, nydroperoxides (I and 1,1-diphenyl ethane hydroperoxide (III)) (Table, With an emolsifjor concentration of 2,8 /,,, maximurn conversion (70-7~, 9"') was achieved after 2 hr with 0.2 % by weight of I and with 0 5 % by weight f I[I. With 0 34 % by weipht of 11, optimum conversion I ( -j 30 %) was acn, after 2 hr. Polymerization of I and IV with 1.4 or 2.8 % by weight of emulsifier was constant up to 50 % conversion, then the rate dropped With 1 4 by weight, the initial rate was lower and the decrease more dist-n,'. With an addition of 0 1 % by weight of hYdroperoxide +0.26 % by weight'-,` IV ',after 1 rir new addition of 0 1 % by weight of hydroperoxide and 0 18 by weight of IV), constant polymerization took place up to 60 % convers_-.,. Thus, the consumotion of the initiating system causes a decrease in rate The efr,(.iency of redox sYs,t-ms an] ini'iators depends on the reactv,-,~ the ra i i r% I :r. the solubili t -)m y of the -), roxiJp c -., ou r; d 8n I ~q Mers . Tne oAer tne solut:. , ity ir. iow-- i r 't~, :- Iror,.,,er the initiating action I - IV ca-ise a I' reaction than 11 - IV due to lower activation energy and .QAPy- Solub i I ity in wa ter- For 11 IV, the redox reaction occurs at th- ,.ard 4/0  297t.l S/ I 901i) 1 /,0(" Po;ymerization of styrene ani Bi?C)/BI47 phase boundary, for I +IV also in the aqueous phage " h e e x t r, n c ma Y. imum " the ra t f, ) f rio I yme r i zit t i e-Jr, f o r I and bu t y I iq~-,p -c py I n.y.j - peroxide :a caused by polymeri zat ion i nhib i t ion dup to tho If--imp '-'i . products (~~ the hydroperoxides The authors thank A G P,),j " ya L ~- . ~ K;i ,or help Aith experiments and T r Yurzhenkr,~ ',LlvovsKly industrial ny s t . tu t , L, vov Industrial Institute); for suopl:trip Tnere are ~ fip-ures, 1 table, aril referer~:es ~~'; v , 2 t -ht! two re fere,,.cps to Eniv i i sh- lariguatie f I -A-:~ F. A Povey, T M KcIthoff, Emu,qlon somE-~ r;- T e r x 1- 4 Scv.,e*, and , r., .:,,ib I i --it r-,:,] ..-- Polympriz;iTicr. N-P Y-rK Fry i ng n lus t r nd Eng-~,, n,~ m . 4 A.- SC- 1 AT 1,:1 N Fiz.-ko-khimicnesf.i.v ins-.tut iL 1, Ya Ka-p- ~i P,"v n e~ ir. i c -1 1 1 n t i t t ~ i m Y ~, K ~i r Q. T Decemb~r  I I L4 S 90/ 6 1 /'00 B I 10/B' 47 U!jhakov V D jLlezhirrlva, -I P , Galata, Khu,inutdinova, 7, S , She-yniker, A p 0 meivelev, Abkin, A D , KhomIKOvskiy, P M Polymer)zat~on of styrene and Dutadiene witn Ftyrere r, Pmulsions under the action of init.,atling rc-J,,x --~stem-- IL Fl"ect of the nature o~- the reducirp, ap,,ent ~)r tre of Polymerization V y a o k c. M', 1 e k u ~A r n fy e s:)y ej i n ri i Va . v 7 ~j e 01 T f-, l r~' " 7 M n k? n '. t a r ij '3 . on e r, ')r. trie rate -~f ;!r r -r jig p n t S to:" e 1 7,,, r-, :-,.,,qtems of hydropercxiies i H? f i F D r") D y -r i- - rt butjI ls~).propy i benzeno 11) wilri ferr,~pyr-3p~'J3~ t) ;j pctass~om lfprrr~cyani-Je IV/, ferraus 9~, '. fxi w n ir. i n;~ , c, r c om p', x e -q o a a - J i F. vr , .1 w 2 (j -(a . i I . lm i t ~ :in -~f- 'r. . f i ~r-' ind e ' -n p .-~ e f v- i t  T: rn r0 f-f      Li which-has-been h 6a'te-_d-. -Ni t. i2O~ 'de our ~(ZnO-aV306C-and~MgO at7150-Qafid adde to,fill the whole monomer volume. Increase- of the reaction -surface -decreased.rather than increased the polymerizWLIon rate of the acryloni- trile.~ ~To~irie'rease.'Yas-_ob'served*ith-ZnO and TiO2 In-type semi condu cto rs) other oxid.14sIp-type) con'side'rably-Increased the polymerization rate - hje lyrne' sariLi--~!ippUe&-to.-the-a-er-ylbnit-rilL . . . es-niole lymerization in triethylatnihe under the -same -conditions. -No6uchef- 6 _--splution P feet-o ceur ed at: g er- tempe ratures (OC) -.At ---:196CI g-` r VT 0 and.Cu2O increased be~explaine_d by the ionic sol d'actylphitrile ~ol~xnorization two fold which may- -mec.~h.OLhi-~rri,-bf--t~e--p-olymerizationLu-ide r these- conditions; --IR sp6etroscooy indicat- 6dthis_'t__O-_- d at both _C procee Euid-C-N-bonds. Similar results were obtained--_ -with-methylm4~.thaerylate--in- the7 -p rees- en cE~ DIf 740 attemperatures slightly below or, - --above it-s-me ting p -r obt in' -56C had high density which I oint; polyraLe a ed'at indicatea'ifsstereo -regular nattwe. Results are corn ared with those obtained un- 'der: Iftiilir!con&i6nFi for cation-rplymeriziii~'-. monomers.- - Th rnechar ism-of -M -in-unknown-to M art. ~'a -2 figu eb and 11able. Or r -1 Card-; ~.2/ 3     -i ~, - , . 'n 11. 1. A. 36122 Vo=Dzhnosti wwn'sheniya napr7szheniy PL-uchonlya burilfnygb trub pri rotornom burwili. &-wrget byulleten'. 19". go. 10. S. 20-23. SO- Latoplal Zhrunall tWkh Statay. No. 49. 19"  ,V,E7J1XF1CV, A. A. PA 152T7 USSR/Engineering - Drilling, Rotary Nov 49 Generators, Cas- cade "Utilization of a Dual-Induction Motor Drive in a Cascade-Generator Scheme to Reduce the Turning Stresses of Drill Pipes During Rotary Drilling," A A. Mezidumov, 3 PP "Energet Byul" No 11 Discusses new prin~~iple for prutecting drill pipes from buckling by using regenerative breaking of dual-inductiun motor drive. In- cludec sketch shoving cancade layout, and ersiph. -M 1=  ~/Zlectricity - Moore, induction Ifty 50 Calculatima,, Ovorload wForsulas for Determining Power of Drill Hoist Rlec- tric Motors," A. A. Kezhlumov, 4 3/4 PP "fterget Byul" No 5 Xxisting formulas do not allow for specific condi- tions of work of motor. Derives own formulas and applies them to calculating permissible overload of modern type MAD induction motors.  MWIMV, A. A. PA 171T92 MU/Petro2sum - Driulm 849 50 Electric Driven "Protecting Drill Pipes Prom Torsion in Rotary Drill- ing," A. A. Nezhluaov "Energet Byull" go 9, pp 26-28 Use of electric rotor for drilling decreaset; fly- vheel effect and increases efficiency. Rotor can be made to operate automatically as motor or for iegenerative braking to protect drill pipes for torsion. Especially valuable in rapid well drill- ing at 500 rpm. Gives equations to calculate par*- meters of electric rotor. 4w 17110  1 - !,]HaiLUI.0V, A. A. 2. UjsR (WO) 4. Electric ~~nl3ineerjn, 7- "'a.wiraj electric ,ngineerink,." 71,1ektrich'St'vo no. ""s, -Viewel' 19"3 List of Russia Accessirns, Llbr~iry Of Congr,,ss, AP-~IL  MEZHLUNOV, A.A. Increasing cosinus Y and the efficiency coefficient of asynchronous motors of deep-well pumps. Energ. buil. no.6:18-20 Je '53. Oa-RA 6:5) Ollectric motors, Induction) (Pumping machinery)  TAlunav. B.M., professor, doktor tekhnichnskikh nauk; GIKIS, A.F.. dotsent, kandidat t9khnicheskikh nauk- KNZHLUMOV, A.A., dotRent. kandidat takhnichosicikh nauk (Baku); dotsent, Icandidat tekhalcheskikh nauk (Kazan'); YUKATOV. A.A.. inzhener (Kronshtadt); RA IMOV. G.R., dotsent, kandidat tekhnicheskikh nauk; KONSTARTINOV, V.I., Inzhener (Moscow); NZYMAN , L.R.; ZAYTSNV, I.A.. dotsent, kandidat tekhnicheskikh nauk-, LUR'TE, A.G., dotsent, kandidat tokhnicheakitch nauk. Terminology of theoretical electrical engineering. Xlektrichestvo no.2:74-82 F 154. MILA 7:2) 1. Veesoyuznyy zaochnyy energeticheakiy institut (for Taroyev). 2. Hostovskiy institut inzhenerov zheleznodorozhnogo transports, (for Gikis). 3. Sredneaziatski7 politekhnicheskiy institut (for Rakhimov). 4. Chlen-korrespondent Akademii nauk SSSR (for Neyman). 5. Laningradskiy politekhnicheakiy institut im. Kalinina (for Neyman, Zaytsev, Lurlye). (Electric engineering--Terminology)  Subject : USSR/Engineering Petroleum Card 1/1 I'ub. 28 - 4/13 AID P - 2795 Author Mezhlumov, A. A. Title Automatic bit feeding In turbine drilling Periodical Energ. byul, 8, 10-14, Ag 1955 Abstract Since even the best driller can not keep steady manual control in feeding the bit in turbine drilling for an 8-hour shift, and, therefore, never attains the full potential, the author offers a new method of automatic bit feeding in turbine drilling. His theoretical reasoning, supplemented by mathematical formulae, is Illustrated with a diagram of the device performing automatic bit-feeding in turbine drilling. Institution : None Submitted : As above  XICZELUXGV, A.A. --- Using the awthod of electrical analogy to study torsional vibrations In drill pipe. Inerg.biul. no.5:7-10 MY 156. (WAA 9:8) (Oil well drillinC--Zquipmnt and supplies) (VIbration-Blectrowchanical. analogies)  K=EUAMV A. A. - ":s-- ".Qx:Tr-- Ilectric rotary oil-well drills. Energ.biul. no.9:11-16 S 157. (mm 10:10) (Oil well drilling)  FUKS, V.L.; NEZHLUMOV, A.A. Measuring and controlling stresses on electrodrill clamps during drilling. lzv. vys. ucheb. zav.; neft' i gaz 3 no.10:99-104 '60. (MIRA 14: 4) 1. NIPI, Neftekhimavtomat, Azerbaydzhanskiy politekhnicheskiy institut. (Oil well drilling, Electric) (Strains and stresses)  MEZELIJ14DV, A.A. Aeration of drilling fluid In oil well drilling. Purenle no.2: 10-13 165. (MIRA 18:51 1. Vaesoyuznyy nauchno-isaledovatellskiy institut burovoy tokhniki.  MEMUMOV , A.A. , kand. tekhn. nauk, dotsent ( Baku) Regenerative braking of an asynchronous drive with a long shaft. Elektrichestvo no.4:62-65 Ap 165. (AURA IF:5)  GEYMLN , M.A.; -~ ~ZHIjI40Y,Aq.j MUSINOV, V.I.; SAFIULLIN, M.N.; YUZBASHEV, G.S. Using electrodrills and turbodrills in aeration drilling. Neft. khoz. 39 no.4:21-26 Ap 161. (MMA 14:6) (Oil vell drilling Slectric-Squipment and supplies) -1 [TiWbodrills)  I..; ' i: 1! ~" ~ee. '~. . '. . .. . ' . 4 ~' 1 :*1 -! . !.; .: '. . , ~ y , .. . ., . . L I . . ft:;r , elektr, Moskva, Nedra, !9t)4. "2 p. ~ M I.,A ...  KEZHWHOV, G.A. Our experience in repairing coal elevator chains. Sakh.prom.30 20-5: 46 NY - '56. (K[aA 9:9) I.Spitakskiy sakharVy zav*d. (Hoisting machinery--Repairing)  MEULUMOVP L.A. Prospecting and completion operatioM in offshore oil and gas fields of Krasnodar Territory. Neft. khoz. 40 no.10:9-12 0 162. (MIRA 16-7) (KriLsnodar Territory-011 well drilling, Submarine)  cc;Z so - :.-. - , " w .-, Licopter,*--. rvf er 4hipDesiLiriers-:hdldreceiitlyinNovo-~.~-:-7-1~l-. aAW~H-Cbmfcr~6d&16f Air 'that-dir%lb, e -.was- Stresded i's possess valuable characteristis  ~ "if th 'c6s -of ;,~estirnates eloii-kilbrni ete'r" t Aranspo A6dbfding- to- raw fir eight A I -Ifibcostlor.tlie belico tdr-would arnount to 5.65 ----dir-fg'lb-l- be ofily: 0.'33. w 64t*auld -Orig# art o has ~ Ifi ' UOt tat& t*vu Ineft SUBM IIROI C*lXs AC 00 . , ATD P=Si,-." ~tl OW Ov L 0 V 212 a P 4 K -  WKWHOT 0. A - Portable pressure PVAP for caning pressure maintenance. Nov.neft. tekh.:Bur. no.3[1.fpi2J,2, 146. (FT-RA 9:4) (Oil well drilling) (Funping machinery)  P-,L:"_J! 1.7 ,, . Subject Card Authors Titlo Periodical Abstract USSR/Mining AID P - 332 1/1 Hezhlumov, 0. A., Belyakova, A. S. and Varshavskly, G. E. Three "are or double bore drilling In Dagestan Neft. Khoz., v. 32, #5, 27-30, MY 1954 A comparison or single and double hole drillin in dir- ferent depths (about 900, 1100 and 1500 meteraf is out- lined. The rates or drilling In each case are presented in two tables. The results indicate the appreciable advantage or double bore drilling. 4 Russian rererences (1951-52). Institution None Submitted No date  EI-MIJUILOVA, Ye.M.; MIRSKIY, Ta.V.; STAROSTIN, I.I.; MEMUMOVA, A.I.; BIMN, K.F.; MYAKOV, D.I. Experimental industrial preparation of catal7sts from Asimn clay by acid activation. Trudy GrozNII no.4:82-90 159. (MIRA 12:9) (Aakanits) (Catal7gto)  tr,,~ LTA ;,r J, FIASR I BOOK EXPWITATION Sov/6246 Soveshchaniyo po tesolitam. let, lAningrad, 1961. Untetiaheakiye twoolity; poluchenlye, looledovaniye I primenaniye (3ynthetlo Zoolites: Production, Investlgation,and Use). We- cow, lzd-vo AN SSSR, 1962. 286 p. (Series: Itsi Doklady) Rrrata slip Inserted. 2500 copies printed. Sponsoring Agency: Akademlya nauk 333R. Otdelenly* khlnloheokUch nauk. Komlsiya po tasolitan. R*op. Ndm.s X. M."Dublnln, Academician and V. V. 3orpinakly, Doctor of Chmalcal-Saiences; Zd.i Ye. 0. Zhukovskaya; Tech. Md.s 3. P. Golub'. FURPOSSt "do book Is intended for scientist@ and engineers on"ged In the production or synthetic soolitoo (Molecular gloves). MA for chemists In general. cam 1/0  Synthetic Zeolitest (Cont.) 3OV/6246 COVERAM The book is a collection of reports presented at the First Conference on Zeolites, held in Leningrad 16 through 19 March 1961 at the Leningrad Technological Institute imni Lensovet. and is purportedly the first monograph on this subject. The reports are grouped Into 3 subject &romat 1) theoretical problaw or adsorp- tion an various types of asolltes and mothods for their Investl- gRtlon, 2) the produatIon or zoolitem, and 3) applloatlon of zeolites. No personalitles are mentloned. Reforeness roilow In- d1v1dual articles. TAELK OF CON Foreword Dubinin, X. X. Introduction Card 21A& .9  Synthetic Zoolltes: (Cont.) SOV/S246 Main, N. 3., L. M. Vakalmova, V. A. Lltvinova, and L. B. Khandros. Production and Adsorption Proportion of NaA, VaP, C&A and CaP Zeolltea 135 Main, M. 3., L. H,_ _r.-*nimova, V. A. Lltvinova, L. B. Mandros, Po-lyako-ia) and L. 3. Urin. Production u " - ti of N&X,, CaX4nd Agl Zoolites and Adso;v 143 Rtguzovas L. I., A. V. Agafanov, A. 3. VItukhIna, F-F. ~Mitrlyevaf A.-_T. 3lepneva V,-,L, -Bui7lov, and N. A. - - -M- l Unthosia n di ions and Thermal 3t;ibIllty ,ChepuibxZ of Type X Zoolltes 152 MrWqy, Ta. V., )L -G--Yjjtrqranov, " T. N. Br*dIkhIn&. Ion UoUng-W-60 N4 for Ca In Type A Syvithetle Zoollts 267 Nlrskly, Ta. V., N. 0. Ydtrofanov, B. N. Popkov, L. T_j_ Bolotov, and A. 1. Nezhlymova. Production 6f-970thetle -- rT W 6 xndustrl& ltlono Seclifies Vbd M 2 9 Cam J;w  8/08-'/62/000/021/031/069 B149/8101 AUTBORSs Mirskiy, Ya. V., Mitrofanov, M. G., Mezhlumova,.A, 1,, Bunin, K. F., DuLlskaya, -Ve'llnik, A. N. TITLEs Preparation of ex erimental samples industrial conditFons PLRIODICALt Referativnyy zhurnal. Khimiya, no. 21K106 (Novosti neft. i gaz. tekhn. neftekhimiya, no. 2, 1962, 15 - 15) Bolotov, L. T., V. N., of molecular sieves under 21, 1962, 519, abstract Neftepererabotka i TEXTi Molecular sieves are prepared in the following ways a crushed silicate chunk is cooked in an autoclave with live steam, transferred to a collector, diluted with steam condensates cooled and transferred to a container; whereupon sufficient condensate is added to make a working- solutionv which is left to settle. The clean solution is pumped into another container. A strong alkali solution is transferred from the montejus into a mixer which has a paddle and heater, followed by the con- densate and A1010,; the mixture is heated for 5 hours with stirring. After this the Na-aluminate solution is transferred to a collector from Card 112  S/06 62/000/021/051/069 Preparation of experimental samples ... B149YB101 which the strong solution can be taken to a vessel where it can be diluted with condensate to a working concentration. The latter solution is pumL~ed through a rotameter and fed into a jet mixer together with the Na-silicate solution. The mixture then passes into a continuously working paddle mixer where the gel is formed as a thin pulp. This pulp iz; transferred to the mixer in which the aluminate solution was previously prepared. The pulp ~s heated in the mixer until the gel crystallizes. The mass is then transferred into the collectors which previously contained the aluminate and the zeolite is washed by 2 - 5 decantationB, then filtered and washed in a filter-press. The cake is divided into two parts, one of which under- goes preliminary drying in a chamber dryer and is transferred on to crusher-roll mill while the other is transferred directly to the mill. inere the zeolite is mixed with clay into a mass which is made into tablets,and the latter are dried, calcined and sieved from crumbs in a drum sieve. Part of the zeolite is treated with CaC12 to prepare a selective adsorbent tor separating gasolinu fractions. The weight of I m3 of sodium zeolite is 0.(5, and its sorption capacity for water is 0.25 CMI/g. 5 references. (Abstracter's notes Complete translation.] Card 2/2  s/o65/62/000/011/ooi/006 E075/E436 AUTHORS: pal'chikov, G.F., MezhIumov- A.I., Krichko, A.A., Kaganer, G.S., Stepuro, S.I., Brovenko, A.V. TITLE; Extraction of aromatic hydrocarbons from middle petroleum fractions and catalytic gas oils with aqueous pyridine PERIODICAL: Khimiya i tekhnologiya, topliv i masel, no.11, 1962, 19-25 TLXT: Following the laboratory work reported previously (Khim. i tekhnol. topliv i inasel, no.4, 1961) trial batches of aromatic extracts (400 to 500 kg) were obtained on a pilot plant scale from a catalytic gas oil and kerosene- gas oil fractions from Anastasiyevka crude. The extraction was carried out using aqueous solution of technical pyridine (boiling point range 114 to 1346C). The feed saturated with pyridine vapour meets the pyridine solution in the extractor. Countercurrent extraction takes place, the raffinate and the extract solutions leaving the opposite ends of the extractor. For the extraction of the kerosene -gas oil fraction the r&ffinate contained 30% by Card 1/2  -S/065/62/0C)0/r01 I /col /C;06 Extraction of aromatic ... E075/E436 volume of pyridine (water free) and the extract solution - 80.7N pyridine, 105; water and 9.3,u' extract. The a.~traction was conducted at 15*C. The extract constituted 32 to 35% of the feed and contained about 60% aromatic hydrocarbons. The extract with 509 of the arottiatic hydrocarbons was obtained with the yield of 70%. The extracts were subjected to high temperature hydrogenation. For the extract from the catalytic gas oils the yield of naphthalene obtained by the 1,,,.,rogenation was 30o. For the kerosene - gas oil fraction about 2M, yield of naphthalene was obtained and We of a solvent containing 95% of aromatic hydrocarbons. There are 1 figure and 7 tables. ASSOCIATION: SNKh Checheno-Ingushsk. ASSR Card 2/2  KELICHKO, A.A.; MHLUMOVA, A.I.; PALICHIKOV, G.F.; TITOVA, T.A.; Prinimali uchastiyes CHMASOVA, V.F.; RAVIKOVICH, T.M. Hydrogenation of aromatized petroleum crude without oata4sts for obtaining naphthalene and other products. Nefteper. i nefte- khim. no.900-33 163. OGRA 17:8) 1. Groznenskiy kreking-zavod, Groznenskoye upravleniye neftepere- rabatyvayushchey i neftekhimicheskoy pronrfshlennosti i Institut goryuchikh Iskopayemykh.  ACCEWION NR~ AT 4016001 S/2625/63/000/01S/0165/0176 AUTHOR: Mrskly, Ya. V.; Mitrofanov, M. G.; Popkov, B. M.; Ruchko. L. F.; 4o~otoy, L.J.; Mezhlumova, A! 1. TITLE: Development of the technology for the industrial preparation of molecular < slaves SOURCE: Grozny0y. Neftyanoy nauchno-isaledovatellaidy institut. Trudy*, no. 15, 190. Tekhnotogiya pererabotid nefti i gaza. Neftekhimlya (Technology of processing petroleum and gas. Petroleum chemistry), 165-175 TOPIC TAGS: adsorbent, zeollta. molecular slave, hydrogel, aluminosilicate ABSTRACT: The characteristics and industrial production of adsorbent synthetic zcolites having good molecular-sieve properties have been investigated, using micro- granular sodium zeolito with cubic crystals of 0. 1 to several microns on a side. The results show that the propeMcs of zcolltos are affootod by the following factors: method of preparation and composition of the hydrogal, temperature and duration of crystallization. concentration of the gel-forming solutions, stirring. of the hydrogel, ion-exchange condi- tions, washing of the crystals. and granulation and hardening of the zoolites. Zoolitee of the structural type desigmated as Type I (Type A in the West) aro of great lat*rg4t. A Card 1/8  ACCESSION N& AT 4016001 study of the adsorptive properties of sodimn and calcium zcolites showed that the adsorptive properties of zeolites crystallized from hydrogels of th-2 same composition, but by different methods, are very similar. The best method of preparation is to mix solutions of sodium alu.minato and sodium silicate. A stable Type I zeolite can be made from hydrogels for which the molar ratio S102:AI203 is < 2. ften this ratio approaches 3, a zoolito of Type 11 results. Hydrogels crystallize at a satisfactory rate at 75-100C. The effec' on the crystal size of the concentration of gel-forming solution ana the stirring rate (2 hours at 90C) and the effect of the -crystallization time on the adsorptive properties and crystal size of zoolites (oryst"ization without stirring at 90C) were also investigated and the data tabulatv 1. A now apparatus for preparing zeolites to described in detail and illustrated. In the preparation of the test samples, the yield was 68-74% of the theoretical. These zeolites with their pronounced molecular sieve properties, obtained under indu4trial conditions, made It possible to crystallize large amounts of aluminosWca hydrogels in large-sized apparatus. Orig. art. his: I figure and 6 tables. ASSOCIATION- Neftyanoy nauahno-isaledovaWlskly lastitut, Groznyoy (Petroleum Sclentfflo Research Institute) C.'d 2/3  SOURCS CODE: UR,1 r/64166 /~/0015/t?r ~-AUTHCRVI- A* emisvich, D L Al!chikovAP G* .: ~d alti Industizi Grozn7y JGI M an of Petroleum Conversion and Chemical (Upraille lr~ yushchey i Whimicheskoy promphlennosti); Crac 0r;o6W,,:~1 nenskly kreking-savod) IFT. MIES. Hydrogenatiodlor petroleum products in a fluidized solids catalyst layer SOURCE: Nottepererabatka i :%eftekhIslyag no. 12,v 1964v 15-20 TOPIC TAGS h enation,, catalysis, navht alene. altroA _ydr ABSTRALM Odlalofzid fractions with 83 aromatics and an average mo1ecular'v#iZbt;ot 16505-169.6 (boiling range PO-3000) were extracted with aqueous pyridin* tram a catalytic crackind/was oil and subjected to hydrpgonation an an Al-Co-Mo oxides catalyst In a fluidized bed. Th* t, onditions ror the production or naphthalene by this process com- "Op Inum c prised 90 sAo pressure, ~W temperature, hourly space velocity of 0.8- '0. 9 1 kg/i.br, a1pply of hydrogenating gas (0% H2 and 90% CH4) . 10 Under these codditions, a 50% lain mating to 1-1. a Ag raw material. cos'- version of the raw material to products boiling below 230o was obtained and* tke, yield of Mapbualego "a 12-14% by vel 4 in, a *LESS* hydre- genat an stage. Tne-authors Are grateftd to V. It , and G. F. Si~ienov I - f A3LTt hA for, their help in this vorke Orig. arts has: 3 figUrMj MUIA-15-, -a-nT3-=e a. SUB 'CODES W SMU DATES none CRIG Ws -005 / OTH R1W: 006 1ALA. UDCt 665s581  DRONN, A.P.; ZAMAI:07, 7.7.; KRIGHKO, A.A.; LOZO'107, A.Y.? 5.7.; 14EZ]fWMOVAJ A.I.; PAL"'IfIX070 (,.F.; STEMR0, S.I. Combined arran-emen'. for the we of thermal--Qra(-k~ng k,~r)u Inot. Khim. i takh. t-,pl. i masel 9 rn.6.-iP,114' J,9164 (MU. 1. Giprogrozneftl , In:ititut t*(-ryu-?~,3,.h iszopayemykh AN SSSR i Grozneftekhimzavr,dy.  KR I C11KC., I.A. Y, L. V ~IKCW 04EY B. K. Obtaining dearom&tizeci gas s r Nefteper. i neftelchl-m.. no.3-.12-14 165. 1. Institut gcryi-i,!KL vseSO3-uzny-j nefT i i gamL t c, ,a  1-: L jW47mt-66____8NUm)/I I ACC NRs AP6013820 SOURCE CODEt UR/0318/65/000/012/0003/0005 AUTHOR: Pallchikov, G. F.; Mezhlumova, A., I.; Kaganer, G. S.; Stepuro, S. I.; -Krichko, W_.A. ; Titova , t_. ROW'*--l~__ ORG: Grozneftekhimzavody Association (ObOyedineniye Grozneftekhimzavo4y of Mineral Fuels, M SSSR (N-s-tirt-ut goryuchi~h iskopayemykh, AN SSSR) TITLE: Processing of catalytic gas oils by extraction with pyridine and hydrogenation SOURCE: Neftepererabotka i neftekhimiya, no. 12, 1965, 3-5 TOPIC TAGS: pyridine, solvent extraction, gas oil fraction, hydrogenation. naphtha- lene, petroleum product, gasoline ABSTRACT: The paper describes the results of an extractive separation of catalytic gas oils from low-sulfur and sulfur feed stock by means of wet pyridine and the re';ults of the hydrogenation of the extracts. The extractive separation of the gas oils was icarried out in a continuous unit with a vertical countercurrent extractor provided with a pulsed packing of perforated metal discs. The output of the unit was I liter/ /hr. The degree of separation of aromatic hydrocarbons from gas oil was 70-75%; for bicyclic hydrocarbons, 95%. The extract from the low-sulfur gas oil was used direct- ly as th* feed stock for the hydrogenation. It is concluded that catalytic gis oils produced by refineries in the southern and eastern regions of the Soviet Union can be UDC: 665.5.521.4.66.061.5  L 30247-6 ACC NRa AP6013820 4- used to obtain naphthalene (10-13% yield), high-quality diesel oil (53-66% yie~~), and a stock (18% yiold) for the production of carbon black and aromatized psojAne. N. F. Danillchenko and 1. L. Tsitron participated in the study. Orig. art. has- tabres. SUB CODEW )07/ suem DONS *. t*ov%e COOC 9.m: t 43GAr 2/2  DEMBOVSKAYA, Ye.A.; KOWASHINA, R.A.; ~EZHLUMOVA, PALI~HJKOV, G.F. An&lyz!ng the chemJaal composition of the ectract of gas o!ls from catalytic crackIng. Kh1m, I trkh.topl. I masel 10 no.11, 16-19 N 165. (MIRA 101:1) 1. Tnq,.Itut gory-uchikh 's~orayemykh,  vi KE ICHKO, A.A.; -1p P rod t;c catally,. c r J'l k. I 10-L4  HURLUMOVA I R.Paspirant I flow "optical" bleachea. Zhil.-km. khoz. 11 no.8:3C Ag 161. (IAIR.A 14- 9) 1. Akaeemiyu ko=mnallnogo khozyaystva. (FlLwresconce) (Bleaching)  MEZHLUMOVA, R., inzh. rv Use synthetics correctly. Zhil.-kom.khoz. 12 no.602 Je 162. (KIRA 15:12) (Cleaning compounds)  -NEZHL-MO-V--A-0 R.P., aspirant The role of additives in vashing with dobtergents. Gor.khoz. Hook. 36 no.1202 D 162. (MIRA 16:2) 1. Abdemiya kommalinogo khozyaystva imeni X.D.Pamfilova. "ft (Cleaning compounds)  M F_7, 1 '7  1 1'4'(, C aturyany Kh. Astvats "E TV c r i - - - _uzunlzed ulOw lny,~~ 31-'kT.fly, tic, i-,, 14 Auril."t  KRULUNTAll % B. -_ _ __ Genesis of the 3varante iron ore deposit. Ixv. AN Arm. 30. Geol. i.geog- nAukl 13 noolsl3-23 160. (MIRA 1399) 1. Inetitut getlogicheskikh naUk AN AroWanskoy SSR. Servants region (Armenia)-Iron ores)  NZYMONTAK. G. B. Pind of spinel In titanomgn*tlte W64 of the Svarants deposit. Izv. AN Ara. SSL Geol. I geog. wmmkl 13 no. 3/4:123-126 160. (MIRA 13:9) 1. Ins titut geologichookikh vAuk AN ArnSSR. (Svarants Megion (Armenia)-Spinel)  --16ZHLUKYAN, Gib. Sooond"7 quartzites in the area of the Swarants iron ore deposita, Isr, AN Am, SSR. Gool. i geog. nauki 24 no,2:63-70 161. (MM 140) 1. InStitUt POIO icheekikh nauk 0 Armyanskoy SSR. ~Goris Ilietrict-Quartzites)   77- lrr 5/018/004/010 ~;C. NIN SOMZ CM: UWOOW6 1/0105 U. Too; Gevorftan# Vo,A*;.5&Iarjaqp F. P.; Sh 00 A%r (Ters"Nekly _7 univer 13 of IMIMSOMOO Of acOL71 acetonstoo of samrl OWWIU4 and SOMM .-AN ArsM. Isvestlya. Berlya fisiko.-smiteoioticheskikh miukq v. 18# no. 14 101-01" 16~ 12161018 sseperjum cempound# suroplue, compoundp terbium campoundp luminesc*wev - Abscrytion 8~eatrvwa - --two dependowe, rare earth element, lusineacence I~C'z. I of possibility of dbtainift a large quentum yield from organic of rar4-sarth elownts' tae authors synthesized acetyl. acetonate ecuplexes Za~ aM by of a technique described by~ B. D. Anurr and A. N. Ib 9'_TO'M#- IWO, IF 19"p jak). on absorption of the solutions of the cowlexes- ,-cf the r1sre-eartb. elements me Inwestigated with the aid or a quartz spec- wd ybotqp-sphic photometry wez a*- A P-73 ploWledl: In- the visible reglone 2be:sesples wo cooled with nitrogen vapor. fte ab- ghowd Vw Frusence of two absorption. regions with a slight contriba Abs"Auidawscent =%obtal"d at -105C a 0 a-strom uldch bft4ww straftes t watUre., 16 the cium'dr ft cW* a fow lualuescewe lines was ob- env" St ram, tQqPOMtweV but Mrs at -165C. Ow ft aestyl aestwinte had Intense  ~ q lkl .. - --l-, I  I t r-of i Vecherynya "Oskva  -- , 1 0 a 0 1 0000000000 6 0 to 4v W-& -fF - -*#-&--4- 46- &A& S a a 5 W V 192 ,u u - 1 60 F fin ajob J*Vxp I i 4CO, 12 b s O 00. AT 0 a : -00 0 00 Cri"hal WbW~ bel4ad 69 420k NANO 00 IIWWONI. 1"Al .00 -00 M4 Mf" 14. 3. 3"-9u. may4ww Iva. as 0 A thin-vallrd gykwkwW Awl is mmnwd to tw cusogw~wAp -00 00 1 afti to Qlmry In tbr plook f%qp a drtmmamim law oldAmulatbon - 00 a sith Imardeoift Ilapff a eqmAmmd w a r"Iwtim 4 Iow, "Pa 00 MA"Utal c4usum" to a qskut 44 fswth-os4" uedinwy -06 tud "Jusuaw ilm klaw W 1 6 1 - wftt.. For tim urisitud 1~uw- A 0 Wkao of ibs pndAm the rvadm is mimw to ti. wk w % As., ' " 7biW%M" AA" IMIN M4WMW'IAMiW4FMk (k4giffUlMillf. 1 WO 0 00 low) amw im ww"ab of advind ow P60W440W bmadwy. walm- pn",m to tho wwk of Ilyawkin JAMIl 4. Itew 20131 roo C..'bey of JW&%Armwmw merl"m Ii, I AmmAV, ITMA SOO 0 0 06 44 CIOQ, It 0 40 0 0' 0 0 0 0 0 0 a 0 0 4 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 4 * 0 0 0 0 ,b 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ' I 0 0 4,  ,:F,47, _11:T 7 ~11_ ;k Ihi, Mejj"44~.. IL -ke-yo-nd 1h6 oludc WWI Aid and WOW of WUAUU -A 2; 0). Nauk SSSR. PrikL Mat. "Meh*. 14,537-54 5 _ (Rueslan) ` ~qu~60- ID i~e ktlcdal prinripte -is used -to bbtam f _ A v4M e I Re: is thin Aelt in thei;*i0wof.arnall gastic;d4brmaii-On ts. ob in -out 6 ed paper y_ c_authbr Came 1 253-7264 (t950'.; these -Riv. 12 373J ~rc vswd. in Journal 4i tion. 11~ L A tiso -Mrinica, Calif.)., the nva J? (1.5anta wo 07 0 J-4 Y,  C:31 Cf, t e c ry -r Montt-I.Y E-  'IEZHLUMYAN, R. A. OM/Natboustics, - 21"tIcity Nor/Apr 51 Orwt*raining the Bearing Capacity of Thin-Walled Construction With Consideration for Re W orcement of the Material," B. A . Xezhlumyanj Iftl Air Eng Acad, Moscow *Prik Matemt I Mekh" Vol IV, so 2, PP 175-182 5tudies distribution or forces and moments beyond "inodulus of elasticity, ratio of forces, and moments, and computes bearing capacity. iTM49  am/ftysics - berormation Jul/Aug 52 "The Function of Transverse Deformation," R. A. Mezhlumyan, Moscow "Prik Matemat i Mekh" Vol XVI, No 4, pp 491-494 Constructs the function of transverse deformation which permits one to det Poisson's coeff for any deg of deformation in a material. Gives a method for reconstructing the diagram of monoaxial tension from graphs of stress-strain relations.  R. A. KKZ!,'J.M4YA!;, 'i . A. -- "',e r th i - T~l-l' --.,3 r) I *~.P- A~T " ',- 4 l'! I ~ 7- '.' -, ' ~ ' ~-. - - '. - : - ~j . " Dr Tech Sci, Inist -)' A-P., ~-, ,- j-r '. . . - ---a 5 Jan ~11 ) 30: SUM lf~R, -),) III , I r)C; I. ..7 .   j.jEZnUMYAINj R. A. "Spatial Elastic Plastic Stability of Thin-Walled Bodo During Central Eccentric Compression," by R. A. Mezhlumyan, Moscow, Inzhenernyy Sbornik, Vol 23, 1956, PP 3-27 Methods of determining critical flexibility, based on solutions of problems concerning the spatial elastic-plastic stability of bars, are pr"ented. Calculated data are compared with experimental data. Result- ing data are compared with other previously published works. Sum 1239  AUTHOR: Mezhlumyan, R.A. (Moscow) -:DV/24-58-12-25/27 TITLE: The Converse Problem of Applied Theory of Plasticity for Statically Indeterminate Beams (Obratnaya zadacha prikladnoy teorii plastichnosti dlya staticheski neopredeli.mykh balok) PERIODICAL:Izvestiya Akademii Nauk, Otdeleniye Tekhnicheskikh Nauk, 1958, Nr 12, pp 144-14? (USSR) ABSTRACT: The previous paper in this series was published in Izvestiya A-Kademii Nauk., Otdeleniye Tekhnicheskikh Nauk, 195", i~'r 12 (Ref.i). The present paper describes a method for the calculation of the shearing forces and bending moments acting upon a beam which is deformed in a given way. The formulae used for these two quant it ie s are Ei M = EI WX W (1.8) QY -:-: x x2 using the notation cf Ref.l. It is pointed out that the deformed state cannot be chosen arbitrarily. It is Card 1/2 necessary to assume some additional result such as the  ,"CN/24-58-1 :f-25/27 The Converse Problem cf Applied Theory of Plasticity for Statically Indeterminate Beams hypothesis of the conservation of plane sections. The method is used for delimiting the zones in the cross- section correspondin respectively to plastic and elastic deformation M~.3). There are 3 figures, 1 table and 2 Soviet re erences. SUBMITTED: 10th July 1956. Card 2/2  RAZUMOV, N.A., kand. ekonom. nauk; MEZRUJIVAN, S.G., aspirant Evaluating the consumer quality of prodLction according to organoleptic indices. Standartizatsila 29 no.3:7-12 W 165. (MIRA 18t5) 1. Nachallnik Tekhnicheskogo upravleniya Moskovskogo gorodakogo soveta narodnogo khozyaystva (for Razumov). 2. Akademiya ob- shchestvennykh nauk pri TSentrallnom komitete Kommunisticheskoy partil Sovetakogo Soyuza (for Mezhlumyan).  L-41OT-66 WW/a - ACC Nits- A-P--5M740- -UWVMOU SOURCE CODE: - UR/O /00130018 N. As (Cmd1dato of economic solincos,.&SA); yadd 0 So ir (Ene, inee t'Asp~Um*) gorsamarkho -(ToMmicheskoys apravienip 941" DOW vW of ~:Bo" Sciences, TSK KP3S (Akideidya Acade varg~st nYvI& nauk.TSK.M?83 Ibehanization Of Soviet IP!AqtZ7 8. 1965. 13-18 =302-': 11ekhanizatsiya, i avtomatizitsiya proizvodstva. no. 'TAG$:' industrial production, industrial management, industrial organizations industrial automation, production engineering, labor employment, labor policy, The:1966:10 plin for industrial i*parision iLnticipates overall mechs~d-; -JMRACT: Zatio-n:- Of production.. processes with emphasis on the. elimination of Andirect heavy manualIabor. According to the authors, these objectives are very stry of the city of Moscow, since they consider it to appropriate. for the, indu the~most adiiwwed and best supplied with hfg~ly skilled personnel.  L 41W-66 ACC NR, Much 1abor Is lost In ass na. pecifically,, the assembly of twelve embli S -tran.sfer. machines forturning and grinding races, manufactured by Moscow0s _7'niac! flne. tool p640 lant -, r the First State BearN Plant (IGPZ), accounted for otafe. ----Me-half of this figure constituted *%.4-tfiei oft of theme macHnes. _,,!Vut 'Yow or. installing and.setting up the equipment. Analysis showed that this was attributed,to low precision of machining and poor preparation of ~diitgn di s4ingc_ This esulted-iri a large volume of manual fitting during r embly'operitions, thus lowering the quality and reliability of transfer w-a- ass As.of T January~ I 965i 44%of all the Workerk industrial establishment@ the Mosicoiv So'vnarkhoz were performing manual labor. Nine percent of all the: T _:-,:work!ers, were performing heavy manual labor. This situation. according to %the authorsj was -caused by the fact that throughout the whole of Soviet Indus- tri the efforts to step up labor. productivity were centered on direct produc- -j -involving'direct labor, and very little attention was paid to problems of Ion :Andiiec~t labor,. including managerial practices. Ibis attitude brought about a ~*j Oning~ gap- between the: high. techino. logical level of primary production pro- r id the - large shar4of mabwkl: labd 'and imperfect organization of sup At riti. web functions, ss,:16adl ii-W unloading, transportation. 0 M ape OW& ng P stor age',. p. which C and Clem u ould easily be mechanized with vim Is. in4m -P. C