SCIENTIFIC ABSTRACT KAZANSKIY, V.B. - KAZANSKIY, V.I.

AUTHORS: Kazanskiy, V.]R. , Docent, J?; ]4.1. Engin. r TITLE: he 25th Anniversary of the Fo-~Lnd Ing of ORGRES (K dnya osnovaniya ORGRES) PIMODIC11: Elektriohestvo, 1958, Nr 5, pp~ 88-89 (USSR) ABSTRACT: In May 1958 it will be 25 yeman- sinre the State Trust for ih& or-- ganization and rationalization of ~.-gioaai electric power plar,,.-A and networks (ORGRES) of the 11in.'stry' for Electric Power Plant~, hazz been founded. The 'basic ta3k to be performea by ORMES isi to render technical aid to plants in patting into operation and int-rod-,icing new equipments for power engineering ir. order to increase the safe- ty and economy of these plant-3. ORGRES has Sr-a+ -Ixperience -,,n thi.3 field and worked out numeroxLs schemes and const-,uctions, The mea3- ures recomended are published by ORGRES as w--ll as by the llini,3try for Electric Power Statiom. In the cou--se of 211; years more than 200 electric power statiow wer&3 able to start operating -,,.--th `-,he aid of ORGRES. The most important aovL'_,~-vement during N-e..ent yeanz was starting operation of the Kuybyshev hydraulir, pover staticr. ORGRES developed a number of mea3urlirg dev3ces, pu'tl4_5hea instruc- Card 1/ 2 tions for electrical equipment, ar,3 mrri~,d out work in  The 25th Anniversary of the Founding of ORGRES lo5_5p with safety measures to be un3ertaken in conrr-~ctior vrith the alato- Mation of systems. Also a n=ber of rt~contnendation_.3 for the tion of losses in networks, securing the necessary voltage, Azz-~d for the economical distribution of act~-;e- and rea.-tive loads weer-~ elaborateaby ORGPMS. Such probletwR a.,~ the rztduction of ,,taff:-,. 'Ji substations and changing over to operation without- the necassi'y of a permanent control of the steering pai~el are solved. On thl Khotlkov test stand the staff is trained for bu-~lding- and assem~-I'y work in connection with the 00 W long-diatance linez. The work carried out by ORGRES is coordinate] rrith that perltomei "by thp Institutes (VEI, MUN, NIIPT, VNIIE). ORGRES det,-~ALoj)-?d for which achievement M.Ivankin, V.Ye.KAzam;kJy, G.P.MinIn &n3 N.P.Lapshov were awarded the Stalin Prizt. Among the new teiem~-ter_~, the type T40-53 deserves to be mentioned? which ,Yaz; Jeve'ope3 cn the basis of T40-3. At present ar apparatus for wx~-c~ma:tlc quency- and power control developt-d ac:cording to tb-:~ ORGRYS rnetho-5 is being tested in the Ural power engineering systei.,_- and in the electric power stations of the Belonuenergo, AVAILABLE: Library of Congress Card 2/2 1. Electric power prod uc t ion-- Organ! za tJ~ or,-.- UfM 2. Power plants--Development 3. Electrical networks--Development S/109/62/007/001/024/027 D266/D301 z ~. ~ //D AUTHORS: Kazanskiyp V.B., and Stepinp L.D. TITLE: Calculating the dielectric constant from measurements performed on an axially placed sample in a cylindrical H01n. resonator PERIODICAL: Radjotekhnika i elektronika, v. '19 no. 19 19629 173 - 175 TEXT: The dielectric constant E and the loss tangent tan 8 Of li- quid dielec*~rics can be obtained from measurements in a cylindrIcal HOln resonator a8 explained in a previous paper of the authors and V.Y,. Tkach (Ref. 1: Radiotekhnika i elektronika, 1960, no. 12, 2009 The dielectric constant is expressed there in the following form 2 + k 2 (1) 2 + k 2 0 Card 1/2  BORESICOV, G.K.; DZISIKOY V.A.; YNRnIYANOVA, V.M~; PECHERSKAYA1, YU.I.; WANSLUI-3-Rio_ Catalytic activity and-erlectron paramagnetic spectra of molybdenum oxide catalysts for the polymerization of eth ,Tlene, Dokl. AN SSSR 150 n0.082"2 JO 163. (MIRA 16~6) 1. Institut kataliza Sibirskogo otdolenlya 0 SSM i Institut khtmicheakoy fiziki AN SSSR. 2. Chlen-korrespondent AN SSSR (for Boreskov). (Molybdenum catalysts-Spectra) (Polymerization)  KAZA!ISXIY, V.B.; 14ARCIIENKOp A.I.; STEPIN, L.D. Circuit for measuring the dielectric constants of substances In the 3-cm. wavelength band. Prib. i tekh. eksp. 8 no.itio'-'.O~j 163. (Mi R L Radiofisichaskiy fnkulltet Kharlkovskago gosudarstvennogo universiteta. (Electric measurements) (Dielectric constant) R  -- - - ~, -~ ~~A - _-- - .t- - - - ~ -1 1 ...- 1-t~- ~ - - ---- -1 .1 - - , ;: k-; , - , ~.- . I .  AUTHORS: - Kazanskiy, V. B., Voyevodskiy, V. V. 20-4-29/51 --------------------- TITLE; - Note on the Ole of Hydrogen Atoms in the Catalytic Oxydation of Hydrogen on Palladium (o roli atomov vodcroda v reaktaii kataliticheskogo okisleniya vodoroda na palladii). PERIODICAL: Doklady AR SSSR, 1957, Vol. 116, Nr 4, pp. 633-655 (USSR) ABSTRACT: Wagner (Vagner) and Hauffe (Khauffe) (reference 2) investigated the mechanism of the catalytic oxydation of hydrogen on metallic palladium by comparing the stationary concentration of hydrogen atoms at the surface of the catalyeator with the concentration corresponding to equilibrium. On this occasion the authors established, that a chain-like mechanism of this reaction is possible. The authors of this paper examined the final conclusions by Wagner (Vagner) and Hauffe (Khauffe) by an independent method, using a different experimental procedure. According to modern conceptions a dissociation of the hydrogen molecules at the surface of the metal takes place in the adsorption and dissolution of hydrogen in metallic palladium, resulting in the formation of adsorbed atoms. The solution Card 1/3  Note on the R81e of Hydrogen Atoms in the Catalytic 20-4-29/51 Oxydation of Hydrogen on Palladium and diffusion of hydrogen within the metal apparently takes place in the form of ions. The authors compared the stationary concentration of the hydrogen atoms on the surface of the palladium with the concentration corresponding to equilibrium with the help of a diffusion process in a vacuum circulation apparatus. A capillary tube consisting of palladium served as a catalysator. The numerical data of the experimental arrangement are given here, and the occurse of the experiments is explained. The results from some of the experiments of the authors are compiled In a table. According to these data the stationary concentration of the hydrogen atoms in the reaction zone is considerably smaller than the concentration corresponding to equilibrium. For the purpose of a more precise investigation of the mechanism of the reaction, the authors computed the deviation of the stationary coneentration of the hydrogen atoms at the surface of the catalyeator fro m the equilibrium concentra- tion with the assumption of a radical mechanism. The data computed in this way were then compared with the experiment. Card 2/3 Oxygen does not modify the mechanism of this reaction. The  0 4 n t.; i o PALl, ditin c - J S v c C, -,OP) -3o--  The Chvidtal .34cisty of the am Wit Its wMail mating pa'Act.-I AST. IP38 Sx v4wIg. taii-tag paperv "M FftsAA"d by %h. Uzu oeloistles vu0sea, an's A. Tervala rIqlleo I= Mattel ak%ron Itchs, wool= der ,tornsoem am I*. &AUST, wd A. lavatkow loot. wrtante Ckoatstq, AS VER 00mr dft f4ehmi~ Oar 'AtSlytiftb4ft *IrtlBg too 4WOOftma IA don Aeakticam dor .. Mokhter - Jost. belontifle jet-astue. AS UM Z~ Utsmr-4r :Mtsly..t.M., ;;,Nz lam*al - loet. %sol'al hwoles, A3 O= *-.Mr. -a Astallps vat Chvilveho A"Cluktia" peaso %taoso.' A. Yo. fr&woob" - laft. 111ologleal & 44leal Qwais%q, ANS USSR "Aalls"Iso $rare iftr blologletbas total3ree to &Ick% der -firliving"los der qrUasslin-ras. T. liallkwobtap - Asst. PVoteal QwMau7, AS OU Ilke der Cb*4- sorpttes and botalroo 4% v 9savaskly zf. we"'ro"17 - lost. thood.&I raqvits, a OW *%at 4a Aschantex" zi joglow ftak%joat, dtv M rialidiwoksU TSA, wASAmqWf 0. 9. $Omskow - &&I" Physical-Choldgal JMA.. Alobaw *u-bo-l-iftwe --Iwbn latAllsour and A~ A. Nalso"s -AS USM *Zw f0faft &SAMMUMdo der 41,4199.' aDf ItiMUSnUM far QmmdftM &%volItchan IA der MR, bwd-rlaeft, 1959, 4sol.  ;PH 2 49 1 HI-64 vii -11: Pit in woo IN lei fq lik 'F~ I r I ! I- -..- i . I F 1, ft In I Il vVy a Eel 1, ia.j: no. .1 94 4 4 fir .j :1 !in 1.2 Fyi  3/68i/6o/00G/021A)06/fj18 A 6 -~? 0 A005/A001 Translation from: Referativnyy zhurnal, Khimiya, 1960, No. 2 1, p. 5G, ;7' 939TI AUTHOR,3: Kazanskiy, V. B, Voyevodakly, V. V. TITLE: On the Problem of the Possibility of Chain Mechanisms at the Catalysis on Metals. An Investigation of the Mechanism of Some Catalytic Reactions on Metallic Palladium. PERIODICAL: Probl. kinetiki i kataliza, 1960, Vol. 10, pp. 398-403 TEXT: The mechanism is studied of three catalytic reactions on nnetallic Pd at 150 - 3000C: the hydrogen exchange with deuterium, the oxidat.Lon the hydrogenation of C,41!,. The reaatian mechanism is radical in all trio three cases. Summary of the nut"Ihor,,; Translator's note: This is the full translation of the original Russian Ibstract. Card 1/1  S/195j6O/OO1/004/005/0--5 B017/B055 AU THO R s: Kaztirlskiy, V. B., Pariyskiy,, G. B., Vcyevodskiy. V. V. TITLE: A Study on the Pzoperties-of Hydrogen Atoms Adsorbed on Silica Gel Surfaces by Applying Electron Paramagnetic Resonance PERIODICAL: Kinetika i kataliz; 1960, Vol. 1, No. 4, PP- 539-541 'TEXT : R. Livingston, H. Zeldes, E. U. Taylor (Ref. 1) and N. N. Bubnov, V, V. Voyevodskiyk L. S. Polyak and Yu. D. Tsvetkov found that under the influence of x-radiation at liquid nitrogen temperature hydrogen atoms, detectable by the EPR method, are formed from adsorbed water molecules or OH groupi on the surfaces of glass and silica gel. The properties of the hydrogen atoms adsorbed on the surface of silica gel were studied in the present publication. Co6o was used as source of radiation. The EPR spectra were taken at liquid nitrogen temperature on a spectrometer with a high-frequency magnetic field, The spectra of the irradiated silica gel are represented graphically in a figure. The removal of hydrogen atoms from the silica gel surface in presence of ethylene was investigated, and Card 1/2  A Study on the Properties of Hydrogen Atoms S/195/60/'001/004/005/015 Adsorbed on Silica Gel Surfaces by Applying B017/8055 Zlectron Paramagnetic Resonance it was found that the desorption rate of hydrogen atoms in presence of ethylene exceeds the desorption rate in vacuum by a factor of thirty. Hydrogen atoms adsorbed at -100 to -1500C react with ethylene and oxyge There are I figure and 3 references: 2 Soviet and I British. ASSOCIATION: Institut khimicheskoy fiziki AN SSSR (Institute of Chemical Physics of the AS USSR) SUBMITTED: August 2, 1960 Card 2/2  KAZANSKIY, V.B.; STRUNIN, V.p. Nature of the temperature maximum of the reaction rate for the hydrogenation of ethylene on metals. Kin. i kat. 1 no. 4;553- .557 N-D 160. (MMA 13:12) 1. Institut khimichookoy fiziki AN SSSR. (Stbyleae) (4drogenation)  20422 S/lo9/6o/oo5/ol2/o2o/o35 E192/E382 AUTHORS: Tkach, V.K., Stepin, L.D. and Kazanskiy, V.B. TITLE: Resonator Method of Measxtrin,- the Permittivity and Loss Tangent of Liquid Dielectrics F U -RIODICAL: Radiotekhnika i elektronika, 1960, Vol. 5, No. 12, pp. 2009 - 2014 TLXT-. The resonator method provides means of accurate measurement of the permittivity and losses in dielectrics at micromaves. However, the measured sample is usually in the form of-a disc and the method cannot be easily employed for measuring the permittivity and losses in liquids. It is proposed, therefore, that the measured sample be cylindrical and situated in the centre of the resonator parallel to its axis. For the purpose of the derivation of the formulae for the measurement, it is assumed that the resonator contains Waves Of the type H Oln The solution of the ~Jaxwell equations for thi., region occupied by the dielectric (0 < r b where b is -the r-adius of the sample) is given by Card 1/7  20422 s/iog/60/005/012/020/033 E192/E382 Resonator Method of Measuring the Permittivity and Loss Tangent of l,iqtiid Dielectrics H,A '.. - CJO (kr) itin iO GJI (kr) cos Ps E.j i'O Cj, (kr) sin -W where: 2 2 2 k -2 The fields in the regi on occupied by the air (b < r a where a is the internal radius of the resonator) are expressed by: Card 2/7  20h 22 S/109/60/005/012/020/035 E192/E362 Resoniitor Nethod of Measuring the Permittivity and Loss Tangent of JiquJ"Ld Dielectrics where: 2 2 W 2 k = - - 0 (2). 0 2 c In these expressions, W is the angular frequency, c is the velocity of propagation, P = 2W/% BA is the propagation constant, XBA is the wnvelength in the resonator. The unknown k can be determined from the boundary coadition at r b and r a These conditions lead to the following expression: Cnr.d 3/7  2LI422 s/iog/60/005/012/020/035 E192/E382 Resonator Ne"thoe of Measuring the Permittivity and Loss Tangent 0 f. Liquid Dielectrics J, (kon) Ye (kob) kb Jo (kb) k0b jo itat) 7. -(k-..l 70;-(kT) (3) JI (kb) J, (kob)- I (k0a) V, (k9b) The quantity kb- can be evaluated from Eq. (3). A special table is given for this purpose. The tangent of the loss aligle tg 6 is approximately expressed by: t 0 (7) WP,( 0 Card 4/7  S1 J 0 9/60/005/012/020/035 Elg%/E362 Re.,3unator Method of Measuring the Permittivity and Loss Tangent of Liquid Dielectrics where W is the energy stored in the region b < r WA is the energy stored in the region 0 -\ r b Q i,9 the quality factor of the resonator with the sample,, Qo is the quality factor of tile resonator without. the sample. The final theoretical expression for tile loss tangent is in tile fox-III: tg6~ kv as J02 (kb) F1 (joil) k;ze- IT -70i~ T, -(k6)- Q The method proposed above was investigated experimentally.'! The resonator used in the experiments was made of brass and had an internal diameter 2a 5.908 cm and a length of Card 517  20LN s/io9/6o/oo5/oi2/020/035 E192/E382 Resonator Method of Measuring the Permittivity and Loss Tangent of Liquid Dielectrics 14.9 cm. The resonator operated in the it Oil *mode and its quality factor was 3790; the position of the plunger in the resonator could be varied by means of a micrometer screw and could be determined u-ith an error of + 0.002 mm. The resonant frequency of the system could be accuiPately measured by means of a cavity wavemeter. The permittivity and the loss tangent of the sample were based on the determination of the resonant wavelength and the magnitude of the quality factors of the resonator itself and the resonator with the sample. Sonic solid and liquid dielectri~s were investigated (organic glass, obonite, ethyl alcohol, benzole acetone"and distilled water). The measured values are indicated in a table. Froin this it is seen that the results are in good agreement with the data available from literature. The method Card 6/7  2002 S/109/60/005/012/020/035 E192/E382 Rs~:;onator Method of Measuring the Permittivity and Loss Tangent of Liquid Dielectrics permits xhu measurement of' permittivity with an average square error of not inore than 3% and that of the loss tangent with an err~>r uf not more than 9%. There are 2 figures,2tables and 9 referencest 8 Soviet and 1 non-Soviet. suBmirm). January 16, 196o Card 7/7  AUTHORSz Kazanskiy, V. B., Veqherskaj&,,~ S/076J60/034/02/039/044 B010/BO07 TITLEi Paramagnetic Electron Resonance in Irradiated Aluminum Oxide PERIODICAL: Zhurnal fizioheskoy khimii, 1960, Vol 34, Nr 21 P 477 (USSR) 0 60 d1 ABSTRACTi At -196 C gamma aluminum oxide was irradiate gavnyna rays with C0 in a vacuum and investigated according to the method of paramagnetic electron resonance. A complicated signal with a g-factor of about 2 was observed ) which did not change also after a prolonged a ' g 4pi S storage at -196 tor . age for some hours at room temperature led to a change in the signal, in which case the intensity of the left line (gzr2) decreased considerably, whereas the right line remained unchanged (Fig b). Here intensity decreased by about 10 times its amount. This decrease of the signal and observations made by TpLylor and Kohn (Ref 1) are explained by the fact that the signal is in correlation with the centers of aluminum 3xide, which are responsible 4'or increased catalytic activity. .i.SSOCIATION: t~kademiya nauk SSSR Inatitut khimicheskoy fiziki Moskva (Academy of Sciences of the USSR, Institute of Chemical Physics, MoscoWT - Card 1/2  Paramagnetic Electron Resonance in Irradiated S/076/60/034/02/039/044 Aluminum Oltide BOIO/BO07 ~V SUBMITTED. July 31, 1959 Card 2/2 Uo 5-.1190 AUTHORS: TITLE: PERIODICAL: OIT 110) jtog 1114 12A7 Mishchenko, Yu. A., Boreskov, G. K., Kazanskiy, V. B. Pariyakiy, G. B. Effect of ionizing radiation on the catalytic and magnetic properties of titanium dioxide Kinetika i kataliz, v. 2, no. 21 1961, 296 21769 S/195/61/002/002/004/304 B101/B208 TEXT: Several papers published in the course of the last years studied the possibility of changing the catalytic properties of solids under the influ- ence of high-energy radiation. Kohn and Taylor (Refs. 1, 2) observed a considerable effect of gamma and neutron radiations on the catalytic proper- ties of A120 3 and of catalysts on S102 basis (Ref. 3) in the isotopic H - D exchange. It was the purpose of the present study to investigate the effect of gamma radiation on catalytic and magnetic properties of TiO 2' The cataly- tic properties were studied by H - D exchangel the magnetic properties by electron paramagnetic resonance. The TiO 2 samples consisted of anatase with specific surface of the order 130 m 2Ig. T102 was heated to 5000C for several Card 1/3  21769 s/195/6i/002/002/004/004 Effect of B101/B208 hours at 10`5 mm Rg prior to irradiation. The samples thus treated exhibited no marked cettalytic properties at OOC. They were now irradiated with gamma rays of Co6o in vacuo at the temperature of liquid nitrogen with 120 r/sec,. The integral, dose was about 1-7.1o7 r. The irradiated samples showed high catalytic activity at the temperature of liquid nitrogen. The catalytic activity was increased by at least 3-4 orders of magnitude. Heating of the irradiated samples to OOC considerably decreased the catalytic activity. The constant of the reaction rate at OOC I hr after thawing was by about two orders of magnitudes smaller,than at the temperature of liquid nitrogen. The T102 samples heated in vacuo at 5000C showed no signal when the epr spectrum was taken. At the temperature of liquid nitrogen, the samples irradiated gave a signal with well-resolved hyperfine structure, total width 400 oersteds, g factor approximately 2. The signal does not change if the sample is stared at the temperature of liquid nitrogen. Short heating to room temperature reduced intensity and changed the shape of the signal. When the samples were kept for 1 hr at room temperature the signal became stable. This parallelism in the changes of catalytic activity and epr signal was also cbservable in silica gel (Refs. 3-5) and A1203 (Refs. 2, 6),. It Card 2/3 i J,  1,=M-nay, V. B. ) PARlYSFM) GO B4j VOMODSM, VlUdiGlaV V- "Radiation induced surface reactions in silicagel." repoit 'to be submitted for the Faraday Society, General Discussion on Radiation Effects in Inorganic Solids, Gif-sur-Yvette (Seine-et-olse), France, 11-12 Apr 1961. Inst. or Chemical Physics, Acad. Sci. USSRp Moscow.  MISHCHENIO, Yu. A.; BORLISKOV, 'PARIYSKIY, G.B. Effect of Ionizing radiation on the cataly-tic and magnetic properties of titanium dioxide. Kin. i kat. 2 no.2:296 Mr-Ap 161. (MIRA 14:6) Is Fiziko-khimleheskiy institut imeni, L. Ya. Karpova. (Titanium.oxide) (Gamma rays A  S/195/61/002/003/008/009 E071/E412 AUTHORS. Kazanakiy, Y.B., Pecherskaya, Yu.I., TITLE: An investigation of aluminachrome satalysts by the method of electron paramagnetic resonanze PERIODICAL: Kinetika i kataliz, v,2, no,3, 1961, 454 46i TEXT. Sin-re the formation of chromium of an intermediate valen-,y in chromium catalysts may be useful in explaining the nature of their catalytic activity, the authors investigated the pro--ess of decomposition of chromic anhydride on alumina by the ~~blflFz) (EPR) method. Specimens of catalysts were prepared by shaking y alumina (apecific surface area about 180 m2/g) with aqueous solutions of chromic acid of various concentrations. After filtering, the alumina was ignited in a stream of air at 350 e' C or at 500% fo.r 8 hours. The reduction of the catalyst was done in a stream of dry hydrogen at 360 or 500*C for 5 hours, After which it was cooled to 30 to 50*C in nitrogen. The content of chromium in the specimens (which varied from 0.2 to 11.4%) was done by chemical analysis. The EPR spectra were taken with an EPR-2 spectrometer operating at 9400 millimegacycles (X - 3,2 :m) with a variation of the magnetic field from 0 to 8000 oerated. Card 1/5  S/l95/61/oO2/0O3/oo8/ooq An investigmtion of aluminachrome E071/E412 Occasionally an instrument with X 21.8 cm and Hp n 500 oersted was used. The intensity of the signals observed wass dtlsi-mined by comparison with the spectrum of a monocrystal Of CuC12'21120. The EPR spectra of the specimens,containing up to 9,,21'0 ~f Cr anzi ignited in air at 350, contained only one resonance lint 44 oersted wide with g-factor = 1,97, At a highe: content this line is observed on a background of a wide rei!onan~e absorption line, After reduction in hydrogen at 350-C thf~ intensity of the wide line (characterizing micro:rybtal-s of reduced Cr203) increases and the intensIty of thi narrow lina decrea3ea but it is still present at a rliromium content Df from 0.4 to 2.5%. On redu--tion at 500'C.. the narrow line disappears from the spectra of' all spe--imens,. If a a: redu--ed catalyst is heated in air at 3001'C~ the narrow line The influence of oxygen on the narrow EPR line was ae-e--m,-nad a*. room temperature and at - 196%~ At room tempr.-a:u--.- wl-'r increasing oxygen pressure, the amplitude cf the sign-- and its width increases.' whereupon the -hang,-- -,5~ Oil prolonged retention of the spe--imens in aii, rt n i r 7 c- * & -- -a - b-', t decrease in the intens1ty of- the narrow 1,.n~ w b -A,~ r ,~ drh 1 Card 2/5  S/195/61/002/003/Oo8/oog An investigation of aluminachrome ... E071/E412 is apparently due to the oxidation of all chromium to the six- valent state. At -1960C, a decrease in the intensity of the narrow line without an increase in its width was observed. The influence of temperature was studied'within a range of -196 to 300%. The width of the line is independent of temperature but its intensity obeys the Curie-Weiss law with the value of the 'Weiss constant 4 = 25*K. The results obtained indicated that the phase giving the narrow line in the-EPR spectra of aluminochrome catalysts is bound to the surface of the carrier and that its thickness does not exceed a few atomic layers. A comparison of the SPR spectra at various frequencies indicated that the width of the line and its g-factor remain constant, thus chromium ions, responsible for the narrow line do not possess a fine structure, i.e. the line corresponds to Cr~+ ions. The above conclusion is in line with other results obtained in this work, e.g. the disappearance of the line for catalysts reduced at 5000C can be explained by the reduction of all chromium to the trivalent state. The narrow line was never observed by the authors in the EPR spectra of various chromium oxides without carriers. For chromium Card 3/5  S/195/61/002/003/008/009 An investigation of aluminachrome ... 9071/9412 catalysts in which aluminosilicates or silicagel were used as carriers, the narrow EPR line is asymmetrical. The above indicates the strong influence of the carrier. In general compounds of pentavalent chromium are unstable and the existence of Cr5+ ions in chromium oxide catalysts on carriers is apparently related to the stabilizing effect of the crystal lattice of the base. Acknowledgments are expressed to N.Ya.Buben for measurements. A.Y.Topchiyev, V.A.Krentsell, R.Michail, P.Corlateanu and A.Ionesco are mentioned for their contributions in this field. There are 6 figures, 1 table and 17 references: 10 Soviet-bloc, 1 Russian translation from non-Soviet authors and 6 non-Soviet-bloc. The four references to English language publications read as follows: Ref.4: R.Michail, P.Corlateanu, A.Ionesco, J,Chim.Phys., v.56, 568, 1959; Ref-5: J.Matzunaga, Bull. Chem. Soc. Japan, v,31, 745, 1958; Ref.11: D.E.O'Reilly, D.S.MacIver, Symposium on technique on study of catalysis mechanism, Boston, April 5-10, 1959; Ref.16: P.W.Anderson, P.R,Welss, Rev. Mod. Phys., v.25, 269, 1953. Card 4/5  KAZAWKIY~V.B.; PARIYSKIY, G.B. Electronic paramagnetic resonance spectn= of ethyl radict-.2z adsorbod on a silica gel surface. Kin.i kat. 2 no.-':50'7-508 Jl- Ag 161. (1,LlhA 14:10) 1. Institut khimicheskoy fiziki AN SSSH. (Radicals (Chomistry)-Spectra)  KAZANSKIY. V.B.: Yh'ZJ1KOVA, Z.I.; LYUBARSKIY, A.G.; VOY-EVODSK1Y, V.V.; !OFFEJ, I.I. Electron paramagnetic resonance study of the structure of vanadium-molybdenum oxide catalysts. Kin.i kat. 2 no.6;862-866 N-D 161. (MIRA 14:12) 1. Institut khimicheskoy fiziki AN SSSR i Inatitut organicheakikh poluproduktov i krasiteley imeni, K.Ye. Voroshilova. (Catalysts--Spectra)  RODE, T.V.; KAZANSKIYw V.B.; PECHERSKAYA, Yu.I. (Moscow) Electron magnetic resonance study, of chromium oxidea. Zhur.fiz.- khim. 35 no.10:2370-2375 0 '61. (MIRA 14:11) 1. Akademiya nauk SSR, Institut obshchey i neorganicbeskoy khimii imeni N.S*Kurnakova. (Chromium oxide--Spectra)  PECHERSKAYA, Yu.I.: KAZANSKIY, V.B VOYEVOD.-AI!Y, V.V. Electron paramagnetic resonance studies of the thermal activation of chromium gel. KinA kat. 3 no-1:111-113 '62. (MIRA 15-3) 1. Institut khimicheqkoy fitiki AN SSSR. (Chromium) (Catalysis)  S/051/62/013/001/005/019 E039/E42o AUTHORS: Kazanakiy,_.Y,,-B,.,,,.Pariyakiy, G.B., Burshteyn, A.I. TITLE: Study of the properties or hydrogen atoms formed during y-irradiation of silica gel, using the electron paramagnetic resonance method PERIODICAL: Optika i spektroskopiya, v.13, no.1, 1962, 83-89 TEXT: - Measurements are made of the spin-lattice relaxation time Tj of atoms of hydrogen, formed by y-irradiation of silica gel, from its surface hydroxyl groups or molecules of adsorbed water o-. --'*zs jurface. Th.e silica gel was prepared by th.,~ action of sulphuric acid on a solution of sodium silicate. Acid was added until pH = 0; the precipitate was then separated, washed and dried for 4 hours at'500*C. This produced a gel with a surface of 300 + 25 m2/g. Before exposure, the gel was heated for 10 hours at 400 to 5000C at a pressure of 1o-5 mm Hg in a glass ampule and then sealed o f under vacuum.. Irradiat:Lon*was perform9d at -1960C using a Co9O source (dose -10 Megarad). Electron paramagnetic resonance measurements were then made at -196*C and compared with results obtained'for the case where part Card 1/2  Study of the properties.... S/051/62/013/001/005/019 E039/E420 of the hydrogen of the surface hydroxyl groups was replac'ed with deuterium and the effect of radiation defects observed. The dependence of the ratio of the amplitude of the signal for hydrogen atoms; to the amplitude of the signal for diphenyl- picryl-hydrazyl with microwave power was also investigated. It is shown that the curve for-hydrogen-in a vacuum falls well below the curve for the case of hydrogen in the presence of adsorbed oxygen. The spin latti e relaxation time Tj for hydrogen in a vacuum is about 10-~ see. Atoms of hydrogen are stabilized on the surface of the gel in spaces in the crystal lattice which are of sufficient size.. There are 5 figures. SUBMITTED: June 2, 1961 Card 2/2  KAUNSKU,- V.B.; FAMSKIY, G.B.; 13URSHTEYN, A.I. VaIM, the electron paramagnetic reaons e method in studying the Im-opertiev of bydrogen atoms formed by )r-irradiation of silica gel. Opt.i spektr. 13 no.lt83-89 Jl 162. (MIRA 15:7) (Paramagnetic resonance and relaxation) (Silica) (Hydrogen)  8/844/62/000/000/113/129 D207/D307 AUTHOIW: KrUMT113kiy, V. B., Pariakiy, G. B. and Voyevodskiy, V. V. TITLE: An EPR study of the properties of hydrogen atoms and of defects formed on the irradiation of silica gel $OURCE: Trudy 11 Ysesoyamogo.soveshchaniya po radiatsionnoy khi- mii. '--d. by 1j. 6. Polak. Moscow, Izd-vo AN 63*.~R'9 1962, 656-659 TEXT: Silica gel was investigated because of its special adoorp- tion and catalytic properties. The gel had a s,iecific surface area of 200 M2/g and contained leas than 0.1 't Fe and Al impurities. It was irradiated with Go b0 d" rays, in vabuum, at -196 0C and at room temperature, urith doses of 5 - 10 negarads. After irradiation at -1960C the Bi'R spectrum (recorded at the same temperature) indi- cated the preuence of radiation dofucts and free hydrogen aton.0, the latter being for.:ied by radiolysis of the-surface OH roups; the H-atom concentration increased with the temperature ?200 - 5000C) to which the gel %--,as heated before irradiation. On vacuum Card 1/~ ARM  KAZANSKIY, V.D.: STFPIN, L.D. Concerning the methodology for calculating the dielectric constants of substances measured by a method involving the use of a cylindri- cal Holn resonator with axial arrangement of the samples. Radiotekh. i elektron. 7 no-1-173-375 Ja 162. (K.Rh 15-.1) 1. Khar'kovskiy gosudarstvennyy universitet im. A.M.Gor'kogo, kafedra radiospektroskopii. (Dielectrics)  KALAISM PARITSKIY, G.R. "ESR stuftes of the reactivity and structure of free radicals stablized on solid FairNces.." Report submitted to the Sixth Intl. Symp. on Free Radic913, Cambridge, England 2-5 July 1963  L 19b21-65 Pc-h/. k - -v /z,7' SOUR.CiP: 'Ref. 2~i. Klumlya, Abs. 9B570 Cord 1/2  L 19h2l-65 ACCESSION NIR: AR4048175 to the H atoms. A ddi tion Of 02 and C2H41 increased the rate of recombinand on of T-T Thus. at -151". e T-atp of T-ecom7l-n-afl-on In the presence of C,)H~ vvil--, 0: 7 ril q,iriltiny t irt- -rnpo-n- SUB CODE: GC, :3P Card 2" ENCL: 00  KAZANSKIY, V.D.- PECHnMKAYAP YU.I. 1, 0 Changes in electron paramagmetic resonance spectra of chromiar-alumino silicate catalysts for ethylene polymeriSktion induced by reaction components. Kin.i kat. 4 no.2:244-251 Mr-Ap 163. (~au 16*5) lo Institut khimich3skoy fiziki AN SSSR. (Chromium catalyats---Spectra)(Polymerization)(Aluminosilicates)  PARIYSKIYp 0,B.1 ZHIDOWROV, G.M.; KAZANSKIY, V.B. -'- Spectrum of electron paramagnetic resonance of a methyl radical adsorbed on the silica gal surface. Zhur.strukt.khim. 4 no.31 364-367 Yy-Js 163. (MIRA 16%6) 1, Iristitut khimicheskoy fitiki AN SSSR. (Methyl group-Speotra)  h5354 5/181/63/005/002/043/051 t1 B102/B186 AUTHORSt Ir a Pariyakiy, G. B. , Aleksandrov, I. V., and _~.Ltzaiq ki Zhidomirov. G. M. TITLE% Investigation of the interaction of free radicals with the :9urface of a solid (silica gel) by the ep.rspectra PERIODICALs *Fizika tverdogo telaq v. 59 not 2, 1963, 649 - 659 TEXTt The authors give a detailed analysis of the o.p.r. spectra,of atomic hydrogen, methyl, ethyl and polymer radicals adsorbed on several types of silica gele (specific surfaces 290, 300, and 700 m2/g). The studies were made in order to obtain information on the nature and the geometry of binding and the motions in the deorbed state. The e.p.r. spectra were taken at A - 3.2 cm and a hf modulation frequeficy of 1 Mo. The e~pu spec- trum of adsorbed hydrogen is characterized by a hyperfine a litting constmt of A - 1411+0-1 Me (for free hydrogen it is Ao . 1420-40 Mc5 and a great asymmetry of the components. On the basis of the present authors' earlier re8ults (Kin-atika i kataliz 1, no. 4, 539, 1960) the hyperfine splitting Card 1/3  8/181/63/005/002/043/051 Investigation oJ.' the ... B102/Ble6 constants A anti A for E and H411E) are calculateds A A.. A A -. ~7 spy '0 (4a) A so a3 (4b) Nt!- 15.5Xj A. (I - 15.5XI; 3 a3 (4c~ a2E/e. The anisotropy of hyperfine splitting is obtained as A A, 47 pA, 141 AoX'. - = g -j-=_ 1 .160 (5)1 z1JE and perpendicular to the sugface. The i,anisotropy of the g-factor,6g 91, -Ig-L , is very weak (, 10- ) and not to be observed in experiment. ;he p0 arization energy of the hydrogen atom in the E field was obtained as PA kcal/mole. The apr. spectrum of deuterium atoma adsorbed on SiO 2is consiaerably narrower and is symmetri.- cal, with smaller amplitudes of the side coWponents. The e.p...e~ spectrum of the methyl :radicals was measured at -196 C1 it consists of tour hyper-: fine structural lines with a distance of 23.1+0.1 oe and with an amplitude, ratio of 1 1 8.5 1 13 1 2.r,. instead of 1 1371 3 1 1. This can be ex- Card ?/3  K-AZANSKIY, V.B.; STEPIN, L.B.; TKACHY V,.K* Use cf a new variant of the resonntcr metL(A for mepsuring die::.catric constants for the study rf h4uh molecular woight ccmpowids. Biofizika 8 no.1g112-116 163. (MIRA 17:8) 1. Kh&r1kovskiy gosudarstvennyy universitet imerti (,or1koeo. U562 S/020/63/148/001/021/032 B144/B186 AUTHORS: N'ladimirova, V. I., Zhabrovaj G. M., Kadenatsi, B. M-j J,azanskiy, V. B., Pariyakiy, G. B. TITLE- Joint action of radiation and oxi 'de catalysts on the dehydrogenation of oyclohexane a 1963, i01-1W PERIODICAL: Akademiya nauk SSSR. Doklady, v. 148, no. 11 TEXT: The radiation effect on catalytic systems is studied in the dehydrogenation of cyclohexane activated by S102 , A 12039 MgO, ZrO 2' ZnO, or NiO. After a vacuum pretreatment of the catalyst at 400 0C, c lo- hexane vapors were led over it. The determinations concerned: 1fthe catalytic properties after irradiation with 0.6 Mev electrons at room 6 9 '2) the temperature, dose 2.4-10 rad/sec, energy absorption 1 - 10 rad; paramagn~etio properties after gamma irradiation with Co90* at - 1960c, dose 3200 mou, energy absorption 5-10 6 _ 1-108 rad. 1) A low-temperature dehydrogenation of cyclohexanone took place. Good results were obtained Card 1/3  M kw, ~ ~ q ~-~j "C ~~M F R.-N _R 9/020/63/148/001/021/032 joint action of radiation and B144/B186 their different electron properties. In dielectrics and poor oeml- he radiation-induced ionization is stronger, since the conductors t d holes formed are longer trapped and the paramagnetic electrons an centers are resistant at low temperatures, while they vanish so rapidly in ZnO and NiO that.no e.p.r. signals could be recorded, There are 2 figures and I table. ASSOCIATION: Institut khimicheskoy fiziki-Akademii nauk SSSR (Institute., of Chemical Physics of the Academy of Sciences USSR) PRESENTED: jd~lj 30, 1962, by V. N. Kondrat.lyev,. Academician .SUBMITTED; July 19, 1962 Card 3/3 19-4ACTOUR" -th*n the Amplitudo or.the v Xou Gates narrow" or initthl a Aei- aft-,or--20-mm-tbS-ilipftl-otmot-be observed.---'. A Inflwncos of tbe czygen on the elgrAl are invertible.,The paper was presented-by IAcademician V. N.~Kondratlyev on 3 April 1963. Itable. Orig. arl~. has,t_ 2 fi,-,zes and Card 7 77 e"'771 'g ~j ~,Mf 41 p  %P-41MKII) V. B.; PAjtiySKjy I-- -- ) G. B. "The e.s-r. study of free radicals adsorbed on catalysts." rePOrt submitteil to 3rd Intl COng On Catalysis) Amsterdam) 20-25 Jul 64. Inst of Chemical. physics, AS USSR, Moscow.  _t~06 - YL r -49 _WVt) '/r_PF(C)/VJP(J) ~' Pc-4/Pr_Is/Pa-4 DTAAP MM 1 , 11 1 1?14014768F, _k/0?0~/64/0~)411005/07il/0767 A !T&'- 1!~R iZhabrova, G. N., Xazant2kiy, V.B. jVIadImIr2yg_,_7,I. Kadenat-.11,1; ili Par! v90 V, T_,L: Radiaticn catalysir, in the conversion Uf 5Yc_Iohe7tnc`\ SOURCE: Nefrekhimiya, v. 4, no. 5, 1964, 753-762 TOPIC TAGS: cyclohe-.xane, radiation catalysis, dehydrogenation, catalytic dehydro- Sena-tion ABSTRACT Tha joint effect of ionizing radiation (Y - rays from Cn601 and of I '; I nq 1A' a t o T FOn' A I ca t -.-i I y4--th different -:~Icctrical propertics, 9iicha I -; ali-nninum. silicnt,:!), s emico-ndue toys having low conductivity fto, conductors havin:,, high conductivity (ZnO, MO) and somne-netair (7% Pt on was invcscigated wiLh respect to dehydrogenation anti othior re,i,_tionz; Z~f cyci, bexane in the nd3c,rbed layer at terperatures from 20 to -196C, For ccrin-pa zts-n, L.-te catalytic activity of non-irradiated samples was also stud',ed. Cyclobexane aimi benzene were used as adsorbent3, and EPR spectra were recoided. The sample wirl~ the adsorbed cycrohexane was irradiated at tho teLVerature of liquid nitro- ga~7k the dose varying from I x 10? to 1 % 108 raA. 'Me selectivity of thc~ inva4tigated aolld compounds in the radiation-excited catalytic pr,,)cess was es- Coed  L 15296-65' ACC_SSILCI~ NI: A114047688 .5, h t h _erma IiDd a ~j k a-redt-c I catalytic process and hcrinogenecus _3,Jiolysis. -if highest radiation- induced catalytic activity was lc-unu 2v", ~,xldes cf ti-P insulator type, which are hardly effective at filil in --'e I-Sull caalyLic proci,,-~s even at high Lemperaturez- 'In Ote;u, aDpeararce of poramagnetic centers and adsorbed C H7 radicals was e9tablishea. -:he semicondtjct,~rs and -metals (IiiO, Znd,-- Ni)__~7hicp ayi~ active catalytic procesis had a low radiation-induced catalytic activity, N,~ appearAnce 02. paramagnetic centers and adsorbed radicals was found. The relationship and t e -0 erage 'a." .- 5.0 .~-betweniM the- rAdiafton-chem1cai-;-yiia16 af lqdxog", h c v th- ' 2 surface wit1h Usorbed cyclohexane was establisbed and it was found that tiie ,nitial -arts of surface adsorption were the most radiation-active. It was alSo L-stablished that there is a strong relationship between the electricoi propei-t~_ef, ,f and thLir abillity to transmit the energy of iontzing radiat ion. Th~q is Ui Ceh,d 0 e~natlon a-d oih~r leaf L luau i y, 711e icrLaLtOn Of Positive C6H6 ons during radiolysis of oLn_-en,_, au- _3%ows tiie possible donor adsorption ef cyclic fly'! lmczi. cv,wS C, G i :i I-. U21COCC5 ~ L:il!j 15 additionai evidence for the zarchanism of C a t ii'i 6 . "7rt authors thank R, Kh. Burshte)rD for providing the sample ti- _N1 caLaIYSI~, and A. N. PonomareVa and G. L. Karpova for carrying out the masn- ,_c~r  rqNf" ~"f - - - --- ------- ----- --- L 15296-65 A1,4041688 ,q IjR - ACCESS-10- 2 tables - spectrometric awilysIs.ff Orig. art. Ias: 5 figures and SSSR (Institute Of Chemical ASSOCIATION" khInicheskoy fiziul M physics, SSSR) SUB CODE: IMCL: 00 121;0-v63 SU&jITTED OTHEEt. 008 NO RE-F SOV-. 007 Card 3/3  L 15P96-65 ACCESSION NR; AP4047688 spectrometric analysis." Orig. art. has: 5 f1gures and 2 tables. ASSOCIATION: Institut khimicheskoy fiziki 91 SSSR (In,;titute of Chemical Physics, AN SSSR) SUBMITTED: 12Nov63 ENCL: 00 SUB CODE; OC NO REF SOV: 007 OMER: 008 Card 3/3  BORESKOV, G.K.; BUKANAYEVA, F.M.; D17131RO, V.A.; V.B.; FECH~RSXAYA, YlI.T. Electron paramagnetic spectra of depos3ted chromium oxide catalysts used for ethylene polymerization,and the nature of their activity. Kin. i kat. 5 no.3:434-440 Itr-Jo 164. (MIRA 17%11) 1. Institut kataliza Sibirskogo otdelenlya AN SSSR i Institut khimi- cheskoy fiziki AN SSSR.  AUNIOR Borv-,sko,7 KazmBk-IY, V. B,, KIabCb(-'TIY-Cl Y u. A. a Ca V7 StIM :2;a. SOURCE; AN GWR. Daklady4, v. 157, no. 2, 1964, 384-3d7 T 7OPTC TAGS: WmV-n, dauterim, allica gel, electron parp-mnopetir, spectrophotmetry isotc~pe exchzinge, lrre,reruilcle h')-im,gar ill, PY ADSTRAOr: The pui,j~oso of thID vork vm tc ntudy th~a aatur'e )r F irradiat-Be si-Uca gE~~ 1,y -TtIca2, act"s Pjad by their r-, Ir 1-n I rii I ul ~,,)r k7 ki-Al.a  ACC9SSICN NP: AP40422og Lh equizolar cc-itent of e rli-xtuze at 7-fr- K arid 0-7 OMPO G i r,"a wi! '--a f- If yp A rv -Z "I t JL. ej 2 el ",.e accampaal-I'd by d! isnclwjr~r) MR! LZ ti cent-e rt f ~U:i tY fac! I rT-- ~3 M:L-, -p I Z, C~ oj, acrec".il 0-1- c  L 6716-6 5 Accwmcm NR; AA-D422og centers. Orig* arbe bas: 2 tables and 3 figures. In tUt-e Institut Mdmicheakoy Miki AXademii nauk SWR ( BU of Cal Physical Aandewy of Sciences SSSR),Institut kataliza R ~Df 7-77- SUDUTM- 2%lar6:4 F.4 C L gUB O=: UP, cc no fw say: Do6 Card 3/5 ~yj  L 6716-65 ACMIC" NRI AA,042209 Nil v xtv OpUza slifttm of SiUca gel before (1) WA aitar (b)'&Uawtiaz of bydrogn st rNm ta*emture. n.,A Vt; ,  L 6716-65 Ar,C&WICV WRI Pl*a2l?09 .50,)xpL 0 ENCILCISUM-P! Fig. 2. MM oeotr% of irraUated slitca gal -'Oefore (a) wd after (b) ~ ~Ay,. A  A: 1-4 7 , A1--C'i:1:z~9M,N NR- AP;)07041 s/oi2oj'6-s/()Oo/ooi.,'012-3/0127 AUTHOR: ~i,-V. B.; Stepin, L._Dz; qgrin~~_L-. L),Aflt ior z-~ ii;uriiimz thL, dieiIE-,c fric conHiant Aand diel,-( tric -Ion SOURCE: Pr6u-ory t toviuijk~i ek.Lpe rimenta, no. 1, j9f)~, 123-1?'7 TOPIC TAGS: dielectric constant, 'dielectric loss, 10 cm band. dielertr-- 1%,BSTRACT: The instrumena is b-.ised on the 1-~,,,-resonator n-lethod of ,zneasuxernent. The tz k3t liquid in _i glans Lir quarztz tube in piziced alcrL: :1:cis. Vari.L.ion o-1 the natural frri3ucncv and 0-facior of f h e. r- T: -vea a iner-m-an :3LY -.9 a basi s f0 T e St I r1-- Rt. 1 t-. 2 iF wale7: acplon-p- nitrn))Tonzann mt~rhvl 7 v a 7 i for 7 mat -ubiiahed b- Western YeBearchers. ~.Vrlg. ar-. 5 fi urea and I table. 0- -:Card 112 mbe -a I 5 Z AP  ;.ACCF-SMON NR.- AP1007041 ASSOCIATION: Khar'llcovskly unlversitet (10mr'kov UrAve-raityl suB.mi,r,rED-- mianif A- ENCL: 1A SUB (:7(."DE7 P,- NO REF 50Y: 006 OTHER: 001  eT, y It are-ice of aloe trn, psirpim-g.-i! -I e a rna lur-'n; the loq-T-emiew.ure ads--nrl,-jm of VArlirlus ph3tg ru WI -EdL."Od t Toorut. 181-''i86 ~IY-7~! 16"-, %KRA aFc9)  PLPCIMRSKAYA, Yu.I.; KAZANSKIY, V.B. Relation between the catalytic activity of chromium oxide catalysts and the valence state of chromium, Kin. i kat. 6 no.2:357-360 Mr- Ap 165. (MIRA 180) 1. Institut khimicheskoy fiziki AN SSSR.  Atrj~SANDROV. 1.-Vj KAZANSKIT, V.B.; MIKHFYKIN, I.D. E.---~i*on parnmiagnatic resonance studies of the structurn of q-tive canV3;:,s of chromium o;Lida catalyst..s for athylena polymerization. Kin.1 kat. 6 no,3'Z439-41,7 MY-Je 165. (MTRA 18t10) L 1wititut kbimiehaskoy fiziki AN SSSR.  PARI-YSE17, G.B.,~ Yu,*A.; KAZAN-- Na~ur~ of r;~!llutlov- ourfrice defo.-tr Ir. irradistt~~,J s'lica ge2. i'ar t, I ~ Me,-!han Lsm (, Inydrogen udgoryt r~n. I n. I kat, .6-15-633 j -'( - -A e, If) 5 . i Inni lt,,it khlrl horki v I A, I  PECHERSKAYA, Yu.I,j KAZANSKIY, V.B. InhibitEon machanism of ethylene polymerization on chromium oxide catalysts. Dokl. AN SSSR 162 no.5slIOl-1104 Je t65. (MRA 18:7) 1. Institut khimicheskoy fiziki AN SSSR. Submitted December 3, 1964.  Sou~_ N) ACC NRt Cp ODE: LqVO181/66/oo8/o1l/3418/342O; AMWOR: Kazanskiy, V. B.; Korolyuk, A. P. ORG: Institute of Radiophysics and Electronics, AN UkrSSR, Kharkoy (Institut radio-; fiziki i elcktroniki AN UkrSSR) TITLE: Giant quantun, oscillations of the absorption coefficient of ultrasound in antimony SOURCE: Fizika tverdogo tela, Y. 8, no. 11, 1W, 3418-3420 TOPIC TAGS: ultrasound absorption, antimony, quantum oscillation, electron inter- action, phonon interac-tion ABSTRACT: In view of t he increased interest in the characteristics and the Fermi surface of semimetals,,*the authors measured the amplitudes and periods of giant quantum oscillations in antimony using 3~0-Mft ultrasound at 1.8K, in magnetic fields up to 110 k0e. The wignetic field man produced by discharging a capacitor bank through a liquid-hydragen cooled solenoid. The duration of the magnetic field pulse from maximum'to 50 kOei was 0.25 see. The oscillations were recorded with an oscillo-I scope. The sample was cut from a single crystal in the form of a disc 7 mm, in dia- !, meter and 2.5 m thick. The wave vector of the sound was perpendicular to the sur-' face of the sample and parallel to the binary axis. The experimental values of the periods of the giant quantum oscillatioxis were found to be in agreement with a theo- retical formula derived by one of the authors earlier (Kort-1-yuk, ZhETF v. 51, 697, 1966). The measured amplitudes are used to calculate the energy of the electron- ACC NRt AP6037030 phonon interaction, which is found to decrease from 7.2 to 6.0 ev at 0 and 30' respectively) and then increase to 6,3 ev at 36% The anisotropy of the electron- phonon interaction energy is found to be small in the plane of the binary axis. The absolute value.of the energy of the electron-phonon interactioli in antimony is thus found to be close to Its value in good metalsi in spite of the icw carrier density. orig. art. hast 2 f:Llpmes) 2 formulasl and 1 table. SUB CODE: 20/ SUB11 DATE: 02JUn66/ P2 MM W 011IG REF'- 003/ OTH PXF.' 003  YEZIIKOVA, Z.T.; JOFFE, 7.T .1 -.; KAZANSKIY, V.B.; KRYLOVA, A.V.; LYUBARSKIY, A.G.; KRGOLIS, Aa~~*ivity, etracture and the ejer*ric properties ol' mixed vanadium catal7ets. Kin. i kat. 5 no,5t861-867 S-0, 164. (KMA 17: 12) 1. Nauctinc-issledovatellskly institut organicheskikh poluprovod- nikol, kra9ft'..e'ley i Inst,!tut khimicheBkoy flziki AN SWR.  L 1435;-66- 94T(m)/EFV.(c)/EPF(n)-2/T GOAM ACCESSION NR: AP502:083 uR/oi95/65/0O6/oo4/o625/o633 541.183.'5"-11.+ 541.15 445 V. Be ;AUTHOR; Pariysk~y,* Mishchenko, Yu.'A.; Kazanskiy, TITLE: Nature of surftce radiation defec,"-a in irradiated silica gel. I. Mcabanism of hydrogen adsorptio) "k SOURCE: Kinetilra i kataliz, ve 6) no. 41 1965, 625-633 TOPIC TAGS: radiation defect, silica gel, aluminum impurity, radiation damage, hydr-ogen adsorption, color center, acid center ABSTRACT: The irradiation of silica gelmarkedly affects its adsorptional and catalytic properties., since, owing to its highly developed surface; the proportion of surface defects In this subutance is particularly, large. Thus, irradiated silica gel irreversibly adsorbs hydrogen. The adsorption is accompanied by the disappearance of the color centers that had formed as a result of irradiation. Both; effects are attributed by Kohn and Taylor (J. Phys. Chem. Y. 63., 966,,'1959; v. 66, L 1017, 1962; J. of Catalysis Y. 2, 208, 1963; Nature v. 184, 63o, 1959) to the pre- ~ sence of alvminum Impurities in the specimens; they have not, however, been successL ful in establishing the nature of the attendant radiation defects and the mechanisal of hydrogen aAsorpticn. Therefore, to elucidate these questions, the present ar- Card 777-  L 14,35-66 ,ACCESSION NR: , AP50200:103 ticle describes their Investigation by adsorptional, optical, and radiospectro- 1 scopic methods. Three varieties of silica gel, each obtained by a different methodl and having a different content of impurities, were investigated. The first) K-5 I was obtained by bydro~~rsis of a SiCl4 solution and had a surface area of TOOt5O I m2/g. The two other s-pecimens were obtained by adding H2804 to solutions of sodium; silicate; the acid was added until a IN acid solution was obtained, whereupon the precipitate was carefV1.1y washed to remove the sulfate ion and dried.for 4 hr at 5000C. The surface aril.,a of both specimens, which were tagged silica gels I and TIj1 was 300�50 m2/g. The iii ecimens were irradiated with a COPu 7-radiation source -5 x 10 r). Their absorption spectra in reflected light were then:- (doses: i66 to 2 measured with an SF-4 iiipectropbotometer and their EPR spectra, with an EPR-2 radio-1 spectrometer. It was Xound that ionizing radiation leads to the formation of free electrons and vaca]ncie;1i. Part of these electrons may be trapped by the protons of the acid centers that had formed as a result of the presence of aluminum impurity thus leading to the fo%*mation of hydrogen. At, room temperature the stabilization of H atoms does not ocour~ and they may react with hydroxyl groups) causing de- hydration of the surface. Following depaAure of the R atom, on the Al atom there reniaLris an uncompensated n&gative charge which may be neutralized when the vacanc7 on the adjacent 0 atom gets stabilized. Thue, the color centers forming under the Card 2/3,  L 1435-66 !ACCESSION NR: AP50209813 action of irradiation exid due to the presence of Al impurity in the 'specimens re- f present positively charged vacancies stabilized on the oxygen Atons adjacent to the atoms of Al impurit3~. These defects are centers of irreversible adsorption of hydrogen. "The authors wish to express their sincere gratitude to G. K. Boresk0FVd,1,-.-,15- for his interest in thic project and discussion of the findings."- =rg.-I~x- hhW: T figures, I table. U61 J ASSOCIATION; 47 Institut thimicheskoy fiziki AN SSGR (Institute of Chemical Physics, ~~ AA-14 . I suBmirm: lTFe-b64 ENCL: 00 BUD CODE: S S, lip HO REF SOV: o06 OTM: 01.4 ATD PRESS: rd ca. I 1k  L 1327-� EIVT(r.)/E.PF(!O.,'!/'EPF(n)-.r2/Ev/P~(J)/I~LVA(h)A',VA(l)---GG/Rm -- - !ACCESSION NR: AP5024005 UR/0020/6 64/002/0361/0364 i 44"a ;AUTHOR: Vladimirova, V.-I.. Zhabrova, G. N.*. Kadenatsi, B. M.~ L(azansk!zt V. B.; I ,PariXskiy, Go ITITLE-. Radiation-cata Ac conversion of methanol iSOURCE: AN SSSR. Doklady, vo 164, noo '~,~'AV5 361-364 ;TOPIC.TAGS: methanol, g4imm radiation, radiation chemistry, electron pi !resonance, free radical, silica gel, alumina, aluminum silicate, semiconductorg !heterogeneous catalysis ABSTRACT: The authors Nid established earlier that during the combined action of I ionizing radiation and solids of different electronic properties, the dielectric- i !type oxides SiO2, A1203, and aluminum silicate SiOVA1203, in which paramagnetic Icenters and adsorbed radi 18 were detected, displayed the greatest activity in thf. ~conversion of cyclohexanti n the aftorbed layer, whereas semiconductors and metalst-_ ;which had no paramagnetici enters or radicals, were inactive. In order to deter- ~mine the scope of these findings, a similar study was made on tho radiation-cataly-~ :;tic decomposition of methanol in the Wdsorbed layer at 200C, C060 gamma radiation being used (dose rate. 4.3 X'10 16- Ov/g - see; ..'adsorbed radiation doset 8.2 x 10 19 to -Card  L 1327-66 [ACCESSION NR: APS024005 ,7 x.1021 ev/9). it was fotind that as in the case of the heterogeneous radiolysis of: cyclohexane, S102, A1203, and S102-A1203 were the most effective catalysts for methanol; the radiation-chenical yield and rate of formation of hydrogen, formal- dehyde, and ethylene glycol on silica gel were ten times as high as in the case of homogeneous radiolysis. The electron spin resonance spectra of the radicals formed~ ~on Si02 and A1203 were recorded. oxides with semiconducting proparties such as i jZnO showed a considerably lesser catalytic activity. The results confirm the rela-: ~tlonship established earlier between the radiation-catalytic activity of solids ands itheir electronic properties. The high radiation-chemical yields of hydrogang for- :ualdehyde, and ethylene glycol during decomposition of methanol on oilica gel, alu-1 1minum oxide, and aluminum silicate are apparently closely related to the processes lof transfer of the energy of ionizing radiation absorbed by theive solids to the ;molecules hasorbed on the surface. Orig. art. has: 1 figure, 1 table. [14): ASSOCIATION: Inatitut khimicheakoy fiaLki Akademii nauk SSSR (Institute of Chemi- I cal Physics, Academy of Sciences,SSM SUBMITTED: 04Feb65 NO REF GOV:, 005 .Card 2/2-- ENCL.---400 MI IER: o04 SUB CODE:CCGC ATD PRESS:  KAZANSKIY, V.D. Improvement of the quality of automobile gasoline in the petroleum refinery of the Kuybyshev Economic Council. Neftianik 7 no.6:20-21 Je 162. (MIRA 15:8) 1. Zamestitell direktora Kuybyehavakago nauahno-insledovatellskogo instituta, po pererabotke nefti. (Kuybyshev Province-Gasoline)  KAZANSKIY,V.1. Some features of breaks In limestone-shale strata. Trudy Inst.geol. nauk no.162:109-119 155- (MLRA 8:11) (Limestone) (Shale)  KAZANSKIY. V.I. Distributi-on of upper Mesozoic granitoid intrasives and contours of ore-bearing areas in the Pacific ore belt. Geol*rudemestorozh. no,4:3-18 JI-Ag. 161, (MIRA 14tlO) 1. Vsesoyumiyy nauchno-iselodovatellaldy institut minerallnogo syrlya, Moskva. (Far East-Ore deposits)  KaEanskiy, V. I. "The separation of volatiles fron, the ri,,apatic hezoth," In the cc;l- lcction: Nauch. ra*l oty studentov gornu-Metallurg. in-tov jNoskvy. "loscow, lcl,5, 1~6-141i, - BUUoj:: 12 items SO: U-V-31,Y 29 Oct 53, (Letopis 'Zhurn.~l 111-lykii Statey, NO. 161 lllll~). Z 5 M;-  KAZANSKIY, V.I. Primary aourceB of gold In the Lesser Xhingan Mountains. Geol. rud.mestorozh. no.2slOe-113 Yx-Ap 062. (MIRA 15:4) 1. Veasoyuznyy nauchno-isoledovateltakiy institut, minerallnogo syrlya. (Khingan Mountains-Gold ores)  KAZA KTY,,V.I..l 'UUHIN,, V.H. Effect of enclosing rocks on the geology of dislocations with a break of contimity. Trudy IGEM no.41:134-140 161. (14M 14:8) (Geology., Structural)  UUNSKIY, V.I. Metamorphism of rocks in some fault zones of the Lesser Khingan Mountains. Geol.rud.mestorozh. no.6:19-32 fl-D 162. (MIRA 15:12) 1. Inatitu'al geologii rudnykh mestorozhdeniyo petrografii, mineralogii. i geokhimii AN SSSR. (Khingan Mountains-Metamorphism (Geology))  KAZANSXTY2 V.I. Inner structure, of Archean faults in the centrftl Aldan region. Geol. rud. meatorozh. 7 no.2t63-79 Mr-Ap 165. (MIRA 18:7) 1. Instit~it goologil rudnykh mestorozhdoniy, petrografii, mineralogii i geokhimii AN SSSR, Moskva.  KAZANSKIY, V.I. Recent, struit-ures of the earth crust; rejuvenation of platformns and mineraltzation. Priroda 54 no.9:51-58 S 165. (MMA 18:6) 1. Inatitut geologii rudnykh mestorozhdeniy, petrografii, mine- ralogii i gookhlmii AN SSSR, Monkva.  GO-Ijeral -moeti.ng of tho DolwirLment of' Farth Sciancess of the Academy of SclienClos of the U.S.S.R. Geol. rud. mestorozh. 7 no.3:124-125 MY-Je 165. (IMIRA 18:7)  Kn~ann-y, 7. 1. - "lic, nr~--411-rj !"'Ip al, Oscil-lat 'ruly Astral:h. in-Ln, Vol. L~, .1 SO U-3-,/w?, 12 March ',3, (I-etopin IZI,tL,-.qal  Kazans'11y, V. T. (I (,Vol op-c lit,", Tr-dy Ast,rn%~i, ---s. '--i. Vol. IX) 194"', P. ~'2-~3. SO: 11 -m-ch ~,3, OeLoi,ls IZI-urnal Stnti%V  KAZAIM)KIT, V. T. 0 14 20120 KAZAIISKII2 V. 1. Leclieniye ostrykh peotomksov . V ab i Voprosy rrudnoy khirurgii T.P.!A,. s, 1949, S. 31-50. so: Lvropis Zk~HWAL STATEY9 Irol. 271 Moskva, 1949.  V. i. 35547. Y%.hii,urEiya '-Inukholey Pisbchevoda. V SB: Vopr,. sy -'~rudnoy Khirurgii.. T. 111. 194") c. 205-08. Leto---sl Zhurnallnykh itatey, Vol. 48, 1,'oskv--, 1949  KAZANSIIY. V. I. USSR (6-10) Me dA Ft s t i num Certain possibilities in surgery of co-ronary insufficiency; medinstinal anesthesia., Xhirurgiia. no. 1, 1952. Monthly List of Rassian Accasstins, Library of Congress. April 1952. UNCLASSIFln. T  VILOTYSKIT, A. L.: KAZANSKIT, V. I. USSR (600) Coronary Arteries - Diseases Development of collateral cardiac circulation in coronary disorders. Klin. med., 30, no. 1, 1952. Monthly List of Russian Accessions, Library of Congress, May 1952. UNCLASSIFIF.D.  KAZANSKIT. V. I. ......... WOMM-w-w~?, -- (Cancer; diagnosis and treatment: a popular scientific sketch] Rak; profilaktika, diagnoettka i lechenis. Nauchno-populiarrqi ocherk. Moskva, Medgis, 1953. 63 P. (MLFA B.-12) (CANCIM)  PITROV, B.A., professor, predsedatelf; DUBXYKOVSaYA, E.G.' sekretert; BGAN- TSEV, N.I., kandidat Teditsinakikh nauk; TFMOVSKIY, S.D., profestor; MILIK-ARUTYUNOV, A.I. kandidat meditainakikh nauk; PATSIORA, M.D., kan- didat meditsinskikh nauk; YZLANSKIY, N.N.. professor; DAMIYE, N.G.; TA- VONIUS, K.N.; GULYAYEV, A.V., professor; KAZANSKIY, V.I., professor; 15ROZDOV, D.Ye., professor; DOROnYEV, V.I.,, H.I.. dotsent. Minutes of the session of the Surgical Society of Moscow and Moscow Pro- vince of September 12, 1952. Khirurgiia no-3:88-92 Hr 153. (MLRA 6:6) 1. Khirurgichealroyei obnhchestvo Moskvy i Moskovskoy oblasti. (Spleen--Surgery)  VISHN-EVSKIY, A.A.' professor, i3redsedatell; CHISTOVA, M.A., sekretar'; FICS111- SHEYA. A.A.; KRICIECVSKIY, A.A** kandidut meditsinskikh nauk; UTESEXT. S.S., kandidat meditsinskikh nauk; BEGELIMa, A.A., kandidat meditsin- skikh nauk; Y16ANSICIT. N.N.; ZATSEPIN, T.S. professor; PWTKIN. F.M., professor; PjkTSIOILL, M.D.; KAUNSKIT, V.I., -professor-, TROYAN, I.V.; F=ROV, I.P.; FIL*rppov, A.V,; UTSSHW, 5-.3.; DOROFZYNV, V.I. Minutes of the session of the Surgical Society of Moscow and Moscow Pro- vince of September 26. 1952. Khirurgiia no.3:92-95 Mr 153. (MM 6:6) 1. Khirurgichekoye ribahohestvo Moskvy i Moskovskoy oblasti. 2. Fakulltet- skaY& 1~hirurgicheskaya klinika saniturno-gigiyenichenkogo fakuloteta I Moskovskogo ordena 1enina meditainakogo instituta (for Krichevski.V). (Heart--Surgery) (Arteries-Diseases)  PETROV. B.A., professor, predeadatell; DORM~,Y, V.I., sekretar" MLYNCH11, V.A.; KAZANSKI.Y....Y.1., professor; HANiJUV, A.N.s profesco;; LEVIT, Y.S., prof es87r'1:_"__P_ZTROVSK1Y, B.V., professor; PWHiTNIKOVA, E.*.; SOLOVITEV, A.Te., professor; MAKHOV, N.I., dot6net; YEWSKIY, N.N. professor; PWTKIN, F.M.. professor; VISHNEVSKIY, A.A., professor; VETCHINKIN, Yu.M.; GUREVIC11, N:I., professor; OSIPOV. B.K.. professor; TIKHONOVA, N.A.; BY- ZHIKH, A.N.I professor; RUDYAVSKIY, B.A.; TERNOVSKIY, S.D., professor. Minutes of the session of the Surgical Society of Moscow and Moscow Province of October 10, 1952. Khirurgiia no.4:92-95 Ap 653. (MLRA 6:6) 1. Khirurgicheekoye obshchestvo Moakvy i Mookovskoy Oblast. (2sophagus--Surgery) (ZsophagUB--Canoer) (Rectum--Diseases)  The Camittee on Stalft Prizos (of the Council of Xinisters LWM) in the fields of science and inventions annomees. that the following scientific vorks, popular scien- tific books, and textbooks bAime been subuitted for competition for Stalin Prizes for the Y*ars 1952 and 1953. (L?A:Net8k"- 011turd, Moscow, No- 22-40, 20 F*b - 3 Apr 19c.4) FAM Tltle of Work Nominated by Kazanskiy, V. I. 'Transi aural Resection of Central Clinical Hospital A the Tboracio Portion of the Ministry of Railways USSR leophague in Cases of Cancer" SO: W-30604* 7 JUlY 1954  XLZANSKIY, V.I. [cancer prevention; contemporary theor7 on malignant tumors] 'Rak I ego predylireshdonle; sorremennoe uchanie o zlokaahestvenrqkh opukholiakh. Moijkva, Hedgiz, 1954. 97 p. (MLRA 8:2) (Cancer) (Tumors)  rA7A SKIY. Y.I., professor. Surgical treatment of coronary inWficiency; second report. Khirurgila no.1:42-A19-J& '54. (XLRA 7:5) 1. Is TSentralluoy klinicheskoy bolluitay Hinisterstva patey moobahchaniya (nachallnik - generol-direktor T.N.Zakharchenko). (Coronary arteries-Disseses)  XAZANSXIY. V.I., profesoor (Hooky&) I -I"- Gonsiderations on A.A.Poliantsev's article, "Dextrolateral surgical technique in exophagogastric anatomosis." Vest. khir. 74 ito.4: 84-85 Ja '54. On-RA 7:7) (ESOPHAGUS, surgery, *excis., approach & prop. of stump in portial & total surg.)  N15 6U. 2 .K2 Kazanskiy, V I Cancer and its proph31ac tics (Modern theor-i of malignant tumours) Moscow, Foreign Languages Publishing House!, 1955. 95 P.  V. 1, &=Wri" of pqWm pWWAM at the Un CMSVO" of &WOOMS of the USE# MD"mt 2D - 2T &R=rY 2935s lWuftd3 Surgical Treatment of Coronary Insufficiency. V. 1. KAZANSKY (Cffl*W Publiestim) UwU"Ifl". WM  KAZANSKIT, V.I.. professor. Glinical a5pacts of diseases preceding cancer of the stomach. ik.Y.Mallnikov. Reviewed bv Y.I.Kazanmkii. Khirurgiia:no .7291- 94 j1 155. (HLRA 8:12) (STOMACH-DISROBS) (STOHACH-CANCIM) (HRLINIKOV, A.T.)