SCIENTIFIC ABSTRACT YAKOVLEV, I.P. - YAKOVLEV, L.

87407 B/020/60/135/006/023/03't B016/B060 AUTHORS-a Eydus, Ya. T., Nefedov, 13. K., Yakovlev, I. P., and Lobzova~ A. V. TITLEi Alkylation of Cyclohexene Under Conditions of the Reaction of the Destructive Ii3obutylene Hydropolymerization PERIODICAM Doklady Akademii nauk SSSR, 1960, Vol. 135, No. 6, PP- 1409-1412 TEXTa The authors describe their experiments in alkylating cyclohexene admixed to an isobutylene--hydrogen mixture. Apparatus and methods were -the same as those used in previous experiments (Ref. 1). Preliminary ex- periments were conducted with the mixtures.3 cyclohexene - hydrogen (results in Table 1, experiments 1 and 2), and isobutylene - hydrogen (experiments 4 and 6).'The following conclusions were drawn from resultst cyclohexene is chiefly hydrogenated to cyclohexane in the presence of hydrogen at 1900C and atmospheric pressure at the Co-clay catalyst, and is catalyzed irreversibly. Cyclohexene is to a certain degree alkylated by the CH radicals resulting from its hydro-cracking. In the presence of 2 Card 1/2  87407 Alkylation of Cyclohexene Under Conditions S/020/60/135/006/023/037 of the Reaction of the Destructive B016fB060 Isobutylene Hydropolymerization Isobutylene a,-fid hydr~~gpn, cyclohexene ig by 3.5 to 4 times more strongly alkylats,sd thai,.i it would be in a mixture with hydrogen only. It is there.- fore concluded that isobutylene offers an additional alkylation source and the autho:rs' former scheme of the destructive hydropolymerization of i.sob-otyle-ne. seems to be confi-Tmedi one part of the Isd"butylene molecules decomposes in the presence of hydrogen on the catalyst surface, and cyclo- ~hexene is methylated by the resulting radicals. Under equal conditions, abut without cyclohexene, these -radicals react with th-.k initial iBobutylenet to form 2-methyl-substituted h drocaTbons. A method by Ya. T. Eydus and T. L. Pedichkina. is mentioned knot described in the text, Ref. 8). There are 1 table and 8 Soviet references. ASSOCIATIONg Inst-itut organicheskoy khimii im. 11. D. Zelinskogo Alcademil. nauk.SSSR (Institute of Organic Chemistry imeni N. D. Zelinskiy of the Academy of Sciences USSR) PRESENTEDs July 7, 19600 by Bo A. Kazarxskiy~ Aoademiciaxi SUBMITTEDs June 30, 1960 Card 212  YAGUDAYEV, M.R.; POPOV, Ye.M.; LAKO22~EV,_ ~.; SHEYNKER, Yu.N. Frequencies and intensities of infrared absorption bands of thestretching and deformation vibrations of the NH9 group in prinary amines. Izv,, -JUT SSSR Ser. khim. no.7:1:L89-].196 Jl 164. . (MIU 11: 8) 1. Institut khimii prirodnykh soyedineniy AN SSSR i Institut organicheskoy khimii imeni Zelinskogo AN SSSR.  EYDUS, Ya.T.; NEFEDOV, B.Xt; YAKOVLEV, I.P.- LOBZOVA, A.V. Catwilytic: hydrocondensation of carbon monoxide with olefins and their hydropolymerization under the action of carbon mowxide and hydrogen. Report 31: Behavior of 2-methyl-l-batene and 3. .3--dimethyl-l"butene in hydrocondenzation catalysis. Izv.AN SWI,Otd.khim.nauk no.6:1127-U34 is 161. (MMA 14:6) .1. Institut organicheskoy khimii im. N.D.Zelinskogo AN SSSR. (Batene) (Catalysis)  BOGDANOVA A.V.; PLOTNIKOVA G.I.; YAKOVLEV, I.P. P .9 I----------------- Derivatives of diacetylene. Report No.9.- Synthesis,of nrqa tSIA alkoxy- and thioalkyl acetals having C7 - C3.5 carbon chain in their molecule. Izv.AN SSSR.Otd.khim.nauk no.10:1841-1846 0 16.1. (MMA 14:10) 1, Institut organicheskoy khiml-i im. N.D.Zelinskogo AN SSSR. (Acetals) (Butadiyne),  S/048 62/026/010/012/013 Bl 17YB1 e6 AUTHORS: Lopatin, B. V., and Yakovlev, I..P. TITLE: Determination of the number of methyl and methylene groups in organic compounds containing hetero-atoms by infrared spectroscopy V PERIODICAL: Akademiya.nauk SSSR. Izvestiya. Seriya fizicheskaya, v. 26, no. 10, 1962, 1288-1290r .TEXT: A btudy wasmade of infrared opectra'(2800-3100 am-') of compounds belonging to the furane and tetrafurane series., of'boranes and diboranes, and of organo-silicon-and organo-germanium compounds in CC1 4 containing 0, S, B, Si, and Ge as hetero-atoms. The number of methyl and methylene groups was determined from absorption bands corresponding to the asymmetric stretching vibrations of the CH2 groups and to the doubly degenerate stretching vibrations of the CH3 groups.rjIn most cases the position of.theBe bands agreed with averaged data from publications (L4.L391L~ami, Infrakrasnyye spektry molekul (Infrared spectra of molecules)? P. 16, IL, 1957); 2962 + 10 curl for the CH groups, and Card 1/2 3  S/00/62/026/m/012/013 ,Determination ofthe number of B117/Bla6 292 1, ns: Hetiro-atoms produce 6 + 10 cm- for the CH2 droups. Conclusio a various effectsf for exampld;,,the absorption band fre4uency of the CH3, and CH2 groups is noticeably influenced by 0, S, and B, but is hardly affected,by Si and Ge.~: The greatest.change in'frequency was established in the groups closest to the hetero-atomd Hetero-atoms lower the absorption'band intensity'to a greater extent tfidn alkanes, the effect of 0, S, and B being stronger than that of Si and Ge; When several hetero- atoms are present in the molecule their action becomes *stronger, but it diminishes rapidly with increasing le'ngth of the alkyl radical and virtually ceases when there are more than two links. It. is shown that the methods developed for alkanes can also be used to determine the number of CH3 and CH2 groups in compounds containing hetero-atoms, but the intensity drop of the two groups closest to the hetero-atom must be allowed for and a corresponding correction has to be made. Using the method proposed by R. N. Jones (Spectrochim. acta,' 9, 235 (1957)), it was possible to examine the structure of products obtained1by alkylating furani4nd tetrahydrofurane and to determine the number of CH 3 and CH2 groups with a relative error of 10-15/5. There.are 2 figures,and 1 table. I ASSOCIATION: Institut organi'cheskoy khimii im. N. D.' Zelinskogo Akademii naul: MR jinstitut of 0 ante Chemistr imeni N- D. Zalins Y o the Acagemy oFg 'Card 2/2 1 Sciences USSR  LOPATINj B.V.; YAKOVLb'V) I.F. Wriared spectroscopy method for determining the number of methyl and methylene groups in organic compounda containing a heteroatom. Izv. AN SSSR.Ser.fiz. 26 no.10:1288-1290 0 162. (KIRA 15:10) 1. :rnstitut organicheskoy khimil im. N.D.Zelinskogo AN SSSR. (Heterocyclic compounds) (Chemical structure) (Spectrum, Infrared)  YAKOVLEV I.F MAKSIMV, Vyach.I, Structure of C~ -amino acids with a tertiary atom of nitrogen stud:4 by the method of infrared spectra. Izv.AN SSSR Otd.Ichim.nauk no.5:877-8~3 My 163. (MMA 16:8) 1. Institut organicheskoy khimli i N.D.Zelinskogo AN SSSR. (Amino acids- 4rAsorption spectra)  GOLIDFARB, YA.L.; LITVINOV, V.P.; FETRUKHOV, V.A.; jAKOV:FV, I.P. Thiophthene, series. Report NO.4: Quantitative composition of the product obtained by the cyclization of 5-ethyl,2-acetony-Imercaptothiophene in the presence of aluminum chloride. IZV.LAN SSSR. Ser.khim. no.9:1627-1631 S 163. (MIRA 16:9) 1. Institut organicheskoy khimii im.,N.D.Zelinskogo AN SSSR. (Thien!6thiophene) (Thiophene) (Cyclization) V LI-I ~ --M - - - MW~42'-   I.CC_ N SOURCE-CODE:--'tM/0058/65/000/013L/DO14/DM4- VIM~61id,t3J.'r rq,16~P.;-Gheynker, Yu. N.; Popow. Ye. M. Jr atbin of normal - 6scinati one or methylamine I ief 4: 11"a of il~ CU Tr.~ I(amis. - spMroakopii M SSSR. t. 3. vyp. 1, 1964, lo-18 WXC TIA064 I'mIsoular, spectrwo molecular theory$ amineg Oscillation vIOOwOvr-,O#, -7 the basis or a'-dalculation of the v-ibrational gpect re of AetbyZaalneq It's deuterium derivatives, the authors determine the force field of the molecule*&:, 6i-`_fr6MmcIes ~w id form of.the normal oscillations of metbyl- and ethylamin W; characteristic 'nature of the. oscillations pertaining to the amino-gioup is in- it, ill - shown In particular that the frequencies and inteiksitice of the I.Clualtio-69~'don-Micted with the NN in the spectra of different amines 3 _9=14P a" Itermined.- essentlaW by -the f4 and electrooptleal pwasaters of this rrwsu~i6d if  y ~ Vi-Iji T, p (TV ARv cinMG3, V.T,,, minfal'ov, Pm of c:.T Izv,pi nc.1~3.4(~-148 066. (KIRA 29!1) klovill Ira. Subril.f.Wd Ma,,l 5, r-)65.   Dissertation: "'Tvansport Capabil-ity of the Amu Darlya Irrigation L~rstems.tl Cand Thch St-,ip Inst of Farming, Acad Sci Tarkmen MR, Ashkhabad, 1953. Referativnyy Z-hurnal-Mek-Piaaika-, Moscowj* Jul 54o SO: SU14 No. 356, 25 Jan 1955  YAKOVLEV3 1. S. "The Interrelationship Between th6 Alluvial Regime of the Irrigation Source and the Irrigation Systems." Izv. AN Turkm. SSSR) No 4. 22-273 1953 The author at-tempts to calculate the transporting capacity of channels and the degree of purification in the flow'i as indicated in the settling tanks,, corres ponding to a given transporting capacity of a shielded channel, using the example of the Amurdarlya irrigation system. He employs the formula of A. G. Khachatryan to determine the transporting capacity. (RZhGeol, No 3, 1954) SO: W-311871 8 Mar 55  BOV/112-58-1-258 J Translation from: Referativayy zhurnal, Elektrotekhnika, 1958, Nr 1, p 37 (USSR) AUTHOR: Yakovlev, I. TITLE: On the. Hydraulic Design of Irrigation Canals on the Basis of the Flow- Carrying Capacity (k gidravlicheskomu raschetu orositel'nvkh kanalov p0 transportiruyushchey sposobnosti potoka) PERIODICAL: Izv-. AN TurkmSSR, 19,57, Nr 1, pp 38 -45 ABSTRACT: A new method of calculating the transport capacity of irrigation canals is suggested, which differs from the A. A. Uginchus method in that calculation of stream capacity is based or, a relationship between silt conditions of the canals themselves and the silt conditions at the source of irrigation. In hydrau- lic canal design, a desirable degree of clarifying the stream in a settling basin is specified, which secures the desired value of canal transport capacity. Silt conditions in the canals can be calculated for the entire irrigation period. A large number of nomograms to facilitate calculations and examples of canal de- signs are presented. Bibliography: 4 items. 4-- Yu- M- S- AVAILABLE: Library of Congress Card 1 / 1 1. Inland waterways--Design 2, Irrigation.-systems--Performance 3. Hydraulic engineering  YAKOVLEVD' I S Filtration losses of water from canals of Tedzhen oasis. Izv. AN Turk. SSR no-2:33-38. 158. WRA 11:4) l.Turkmenskiy nauchno-iseledovatelloki7 institut godrotakhniki i maliorateii. (Ashkhabad Province--Irrigation canals and fluims) alt T- ----------- -'Wfi" A?, -mi2y B~ & v H_ ,N WIN- Now u _xnZ, M_  YAKOVLEVJ I,S, Characteristics of changes in filtration losses depending on water discharge in canals. Izv. Otd. gool.-khim. i tekh, ntiuk -AN Tadzh. SSR no.l-.63-6,7 159. (MIRA 14:8) 1. Institut vodnykh problem AN Tadzhikskoy SSR. (Irrigation canals and flumes) (Seepage)  YAKOVLEV, I.S. A.N.Kostiakov'-s formula covering the gross and net water consumption in irrigation canals. I2W'. Otd. geol.-khim. i tekh. nauk AN Tadzh.- SSR 1:23-31 16o. (MIRA 15:1) 1. Institut, vodnykh problLm AN Tadzbikskoy SSR. (Irrigation canals and flumes)  mom -ML .1= MEE YAKOVLEV, I.S.- Determining the ratio between irrigation runoff and drainage waters with considersation of the mineralizati factor, Dokl, AN Tadzb, SSR 3 no. 2:23-26 160. (MIRA 14:4) -1j Institut vodnykh problem AN Tadzhilwk SSR Predstavleno ,- -n -- 0& V A: Starikovym ondentom AP Tadzhikskoy SS korres m bi - . . e o c. p , (I.rrigation watel-) -.0 -A 901 P INS WO n MgRi W -0.  DKOVLU. Regularity in the change in the coefficient of efficiency of a canalin relation to the discharge of water. Dokl. AN Tadsh. SSR 3 no.3.-25-29 ~60. (MM 16:2) 1. Tmstitut vodnykh problen AV Tadzhikskoy SSR. Predstavleno chlenom-kor-respondentom AN Tadzhikskoy SSR P.A. Pankratovym. (Irrigation canals and flimes)   REZVOV, K,14,, kand.tekhn.nauk; PAVLYUCHUK, A.L; VOLOGZHARINOV, R.I.; SHKOLINIK, A.M.; FAITIN, G.I.; YAYOVJ.LvV I.S. Plastic carburetor floats. Avt.prom. nq.2:26-27 F 16o. (MIPA 13:5) 1. Filial Gosudaretvannogo soy=Dogo ordena Trudovogo Kraenogo Znameni nauchno-inaledovatellukogo avtomobillnogo i avtontotornogo inotituta po toplivnoy apparature. (Ailtomobilen--Bngineo--Carburators)  J S/I 01000100510041004 D261Y6 4 0301 AUTHORS: RezvoV, K.M., Pavlyuchuk, A.I., Candidates of Techni cal Sciences, Panin, G.I., Vologzhaninov, N,I., Shkol'nik,_A.M., Yakovlev, I.S. and Volkov. L.1. TITLE: Thermal high frequency welding of plastic carburettor floats PERIODICAL: Avtomobil'naya promyshlennost', no. 5, 1960, 41-43 TEXT: ~ TsNITA has developed a device. f 'or the thermal high-frequency lp,.elding of carburettor floats made of polycaprolactam. Plain ther- mal welding was tried but failed to give a reliable hermetic seal. Gluing ave a d-seal--but-required a prolonged drying time. The ig. 35ooo -f requency gener- device ~F c nsists of an jirA-1 (LGD-1) high ator and a semi-automatic welding machine. The use of 2 generator tubes gives a power of2kwt and a working frequency of 25 Mc. Power 4- IL 4n fwnnnmf+-tc-_ei viA ;i crPar train and screw  8/113/60/000/005/004/004 Thermal high frequency welding.... D264/D301 outer beading and eject the welded float from the bottom punch 3. Welding is,regulated by adjusting the gap between the top and bottom punches 2 and 3 (by adjusting the carriage 7) and by varying the feed-back inductance. The punch faces must be positioned in paral- lel, with a divergence of not more than 0.02-0.03 mm. The punches are also act to ensure the formation of a slight beading of the seam inside the float, since this makes for greater hermeticity. Welding time varies from 5 to 12 seconds, depending on the float size. The method is recommended for introduction in Soviet automo- bile plAnts. There are 3 diagrams. ASSOCIATION: Tsentrallnyy nauchno~--issledovntcllskiy i konstruktor- skiy institut toplivnoyapparatury avtotraktornykh i statsionarnykh dvigateley (Central Scientific Research and Design Institute for the Fuel Apparatus of Auto- motive and'Stationary Engines) Card 2/3  W7 PAVLYUCIIUK, A.I., kand.tekhn.nauk; YAKOVLEV, I.S. Using gun-drill tips in machining plunger sleeves of diesel engine fuel equipment on automatic multispindle.lathes. Avt.prom. 29 no.1.2336-40 D 163. (AURA 17:4) 1. TSentralInyy nauchno-isaledovatellskiy i konstruktorskiy institut toplivnoy apparatury avtotraktornykh i statsionarnykh dvigateley.  Welding Some remarks (I'Welding and working metals with oxygen torch". Reviewed by I.V. Yakovlev). Avtog. delo, 23 nd. 3) 1952.  YAXDVLEV, IJO Rapicl selection of interchangeable pinions for cutting worm wheels. Inforz.tekh.sbor.no.105-39 154. (KIRA 9:7) l.Vralvagonzavod. (Gearing, Worm)  YAKOVLEV, I.V. Scme problems of the laboratory research methods of hydraulic props. Fiz.-mekh*svoisqpdavei razragoroporod noal:203-209 !62s (MM 16:3)  PLOTNIKOV, Kleksandr Mikhaylovich; YAEqVLE 11yevich 3L (The SGS-3 hydraulic Jack] Gid-ra-zlicheskaia sto-'ka SO-3. Moskva, Nedra, 1965. 74 P. (MIRA 18-4)  Monthly List of Russian Accessions, Library of Congress, August, 1952. UNCLASSIFIED  ROGINSKIY. S., general-leyteWt; YAKOVLEV. X.,.polkovnik. Some problems of training engineer reconnaissance troops. Voeu.-* inzh.zhur.101 noo3:29-34 Mr 157, (KRA 10:3) (Military reconnaissance)  YAKOVLEV. K., polkovnik Achievements of a young officer. Voen.vest. 40 no,206 F 161. (MIRA 14;2) (MiLitary engineering)   *,Val     A -n A A ~"U 77~'. TITLE: Universal through-power meter (wattmeter) SOURCE: Pribory* i tekhnika ek-sperimenta, no. 4, 1964, 111-116 TOPIC TAC.S: wattmeter, power meter, RY power meter, electronic power mete r ABSTRACT: Intended fox- high-speed power, measurements, such as those employed in r-f field-plaarrLa experimentation, the instrurnert is based or, a multigril cari,rerter tlabe ;vhich yields the IU cosT function. T~3 reduc-~ the er-ror due to nonlineirity of the work-mg -parts ~f the t,-be anofie-qri-1. ch;i1ar,e7-.Vic5. -.e the 0 r k H h f t e d A t-nza i 1D I o c k d i a g r a ni a D,-" s: n-.Die e_, Lcrd  L 670M5 ACCESSION N:1: AP4044678 66nniiiati-6fi diallrarn are presented. The instrument indicateg peak values and permits visual observation of active -power, voltage, and current pulses (3 oscilloscopes provided) in a load whose parameters fluctuate in time. The instrument haF been developed in two versions: for 0, 2--Z Mc. ranoe. clw! f' I!- i frequericy i-r-11--f I,,' ~S! 7- jz fl 7 If t -he o-,,,er-all err,;,- :-ez-a.,!is withn 10'716- 'The a-h(,rb wis'n he-.- ext---:1.t~ wcrk hiiijrjiyjg~ :kn V . hi 11 he r he I pr 4 j ASSOCiATION; Fiziko-tel0ntcheskiy ingCitut GKAZ SSSR (Physico- Tec~mical Inetitute, GKAJ: SSS R) jBIMITTEP,. !gAugE. E NC L -,SUB CODE: E(; NO REF SOV: 004 OTHER: 000 M ~r'  sov/139-58-10-1/10 ~AVTHORI Yakovlev K. A- TITTAt Basic Trends in the Development of'the Synthetic Rubber Industry During 1959-- 1965. (Osnovnyye napravlenlya razviti7a.promyshlennosti sinteticheakogo kauchuka V-1959 - 1965 gg) PERIODICAL: Kauchulc i-Rezina, 1958, Nr 10, pp 1 5, (USSR), ABSTRACT-.- The Central Committee of the KPSS foresee a 3.4-fold in- crease In the output of the synthetic rubber Industry. The output of synthetio*ethyl alcohol is to be increased 2.1-fold by 1966 as compared to 1958. The preparation of' synthetic rubber from synthetic and hydrolysed alcohol made it possible to lower the cost and to-economise in the consumption of raw materials. A 10-fold Increase In output of n-butane is planned for the period 1959 - 1965. .Catal7tio dehydrogenation of n-butane made it possible to plan the building of faotories for synthetio rubber In various regions where n-butane will be used as raw material for the preparat~lon of butadiene. IA:aj1 these plants d6polymerised synthetio tubber (SKMS-30AM) will be manufaotured mainly by low temperature pol7merisation. / Comparative data on the preparation of butadiene from 'R Card 1 ,4 esearch workers of butane and ethyl alcohol is given.  BOV/138-58-10-1/10 Basic Trends,in the Development olL the Synthetic Rubber Industry During 1959 1965 the VNIISK, GIprokauohuk,, NIMP etc. are investigating the preparation of sodium butadiene-p butadiene-styrene, and methyl-styrene rubbers. The preparation of isoprene,which is to be used in the manufacture of isoprene rubber, is disoussecl. The output of iso- butane (which Is necessary for the manufacture of , isbprene) has to be increased 8--fold between 1959 - 1965. Advantages of preparibg Isoprene b7'*the dehydrogenation 9f isopentane are pointed out'. Experimental data has shown that the wear of tyres prepared from isoprene rubber Is increased by more than 30% when compared to tyres made from s7nthetio-rubbers. -The manufacture of butyl rubber, which is'prepared by the polymerisation of Isobutylene with 2 - 3,% Isoprenep is planned, and the advantages.of obtaining the same by.the dehydrogenation of isobutyl alcohol~are'pointed out. -Chloroprene rubber is used widely in the rubber Industr7. Work is to be carried out during the seven-year plan to Improve the properties of ohloroprone rubber and latex by manu- .acturing copolymers 6f chloroprene with styrene, iso- Card 2/ 4 f  SOV/139-5,13-10-1/10 Bai;!c Trends :in tile Development of the 6ynthetic Rub*'Je-i~ IndListry Durirz 1969 prene and acrylonitrile, and also by carryinr- out the polymerisation at lou temperatures. Improvements in- th~ manufacture of acetylene, which viould lower produc- "Gion costs, are su 'ggested. The manufacture of sp&c1al rubbers such as nitrile ,ilicon,, butadiene-methylvinyl- pyridine, butylacerylate~&polyeste-rifiecI rubbers, buta- diene-methylvinylpyridine latex and hi8h styrene latexes' 13KS'50 and SKS-65 is planned. The manufacture of sodium- butadi6ne rubber 8KB is to be restricted because of Its lower qualities As c6mpared to butadiene-styrene and , idoprenembbers. Som;-, of'the exlstiN plants f6r svn- thdtic rubber (Yaroslavl' and V oro'ne z'h, will be..adapted to mAnufacture copolymerise-d rubbers. A table gives data- on the percenta,_ge of each type of rubber to be manufac~L Card 3/4 tured during the seven-year planand a further table the  sov/139-58-10-1/10 Basic Trends,J.n the Development of the Synthetic Rubber Industry During 1959 1965 lcmer costs to be achieved durinfr the same period. There are 3 Tables.  JAKOuLeuli K PEME I BOCK EXPLOITATION SOV/4579 Konfertentsiya po raziritiyu proizvoditellnykh oil Vostochnoy Sibiri, 1958. "Imicheskayja sektsiya Khimicheskaya promyshlennost'; trudy konferentaii (Chemical Industry; Transactions of the Conferenpe on the Development of Production Forces in Eastern Siberia) Moscow, Izd-Vo AN SSSR, 1960. 202 p. (Series: Razvitiye proizvoditellnykh sil Vastoobnoy Sibiri) Errata slip inserted." 2,000 copies printed. Sponsoring Agency: Akademiya nauk SSSR. Sovet po izuchenlyu proizvoditellnykh Bil. Sibirskoye crtdeleniye. Editorial Board: I.P. Bardin (Deceased) Chief FA., Academician; M.A. Iavrentlyev, Aizademicianj S.I. Vollfkovich, Academician, V.I. Dikushin, Academician; V.S. Hemp-hinov, Academician; V.I. Vqfts, Corresponding Member, Academy of Sciences USSR; O.D. Levitskiy, Corresponding Mmber, AS USSR; N.N. Nekrasov, Comesponding Membex, AS W6R; L.t. Putovalov, Corresponding 14ember, AS USSR; T.S. Kliwhaturov, Corresponding Member,.AS USSR; N.F. Rostovtsev, Academician, VASSMUIL; A.N. Popov, Corresponding 3%hber, Academy of Building and Architecture USSR; L. Ye. drafoy, Deputy Chairman, Gooplan MPBR; A.D. Gashev, Member, Gosplan RSFSR; A. 13. Probst, Professor; V.F. Vasyutin, Professor; V.A. Krortov, Professor;  Cheenical Indust3.-j (Cont. SOV/4579 P.V. Vasillyev, Doctor of Econcmic Sciences; G.I. Lyudogovskiy, Candidate of Tecbnical Sciences; P.A. Letunov, Candidate of Geological and Mineralogidal Selences; and M.G. Shkollnikov, Candidate of Economic Sciences; Editorial Bo"A of thin volume: B.I. Vollfkovich (Rasp.-Ed.); G.V. Uvarov, 1?eputy Chalrman, State Committee on Chemistry., Council of Ministers USSR; and V.P. Xrmarov,,.Do,. d. of Publishing House: A.L. Bankvitser; Tech. Ed.. ent; F V.V. Fzuzgull. PURPOSE: This book is intended for chemical engineers and economic planners conterned with the industrial development of Bastern Siberia. COVERAGE: This volume is one of a series of 13 cimtaining the Transactions of the Conference on the Development of the Productive Forces in Eastern Siberia. The Conference took place in August 1958. -The volume contains summaries of 20 reports presented at the meetings of'the Chemical Section of the Conference, brief summari'5P, of pertinent discussions, and the text of resolutions taken by the Chemical Section. 9-be reports deal with the possibilities of developing chemical industries in Eastern Siberia capable of producing artificial fibers, acetylene, plastics, synthetic detergents, synthetic rubber, mineral fertilizers, sulfuric acid, nitrogen, soda, chlorine, etc. No personalities axe mentioned. There are no references.  Chemical Inaustry (CcInt. SOV/4579 TABU OF COMNW: Introduction 3 Kostanaov, L.A. [State Cowittee on Chemistry, Council of Ministers USSR] Prospects for the Development of the Chemical Industry in Eastern Siberia 7 Prospects for the Development of Chemical Industries According to the Materials of Regional Conferences: Krasnoyarskiy kray (N.M. Vorozhtsev, Corresponding Hemler, AS USSR), Irkutskaya, Oblast' (N.I. Yaropolov), Buryatskaya ASSR (F.K. Gakhanov), and Chitinskaya Oblast' (D.B. Volodarskiy) 16-25 X IftyX.A. (Giproksuchuk State Institute for the Design and Planning of Rubber-Industry Plants). Prospects for Developing the Leading Branches of the Organic Synthesis and High-Polymer Industry in Eastern Siberia 24  ZINOTYEV, A. F. , YAKOVLEV, K. A. -------------------------- Basic trends in the utilization of natural and casing-head gases in the chemical industry in 1960 and in the coming years of the seven-year plan. Gas.prom- 5 no.4:30-33 Ap 160. OKM 13:8),  29603 S/12o/61/000/004/012/034 ~F,192/E382 AUTHORS., Yakovlev, K~A., Pankrushina, D.K. and Basin, Yu.G. TITLE: A pulse-power measuring instrument PERIODICAL. Pribory i tekhnika eksperimenta, noi 4, 1961, pp. 89 - 91 TEXT. A block diagram of the instrument is shown in Fig. 1. The signals from pick-ups 1 and ~2 , which are proportional to the current and voltage amplitude (in the right phase) are applied to the voltage dividers 3 and 4 The:1atter are used for attenuating the signals to the required level necessary for the operation of the converter 5 When the input signals are applied to thi converter,,.a constant amplitude pulse.:Ls obtalned at Its output, the pulse being proportional to the instantaneous active power across the measured load. The peak value of the pulse is recorded by the memory device 6 and is measured by the DC vacuum tube voltmeter 7 . The correcting network 8 is employed for the V)( correction of the measurement error of the converter. A calibration generator 9 is used for checking the instrument Card I/# q  -2 9 5; 0.';; S/12o/61/ooo/o64/012/034 A pulse-power measuring instrument E192/E382 during its operation. The electrical circuit of the pick-ups is such as to give a satisfactory amplitude and phase response over the frequency range from 0.8 to 8 Mc/s. The current and voltage ranges for the pick-ups are 50 - 2 100 A and 1 - 15 kV, respectively,, The feeders for the pick-ups are in the form of screened cables, type fj: = 3 frequency-phase errors of the pick-ups. The converter of the instrument is based on a pentode type ri