trarls,.i3tor, nolee factor -,red f-r  NR AT5004892 t-lll',~er Currents of -a M o ri tt 0 02  c t-, " 1X] [I ) ye 1 11 , USSR/Pbysics of the Atmosphere - Dynamic Met4porology, M-2 Abst Journal: Referat Zhur - Fizika.. No 12, 1956, 36o93 Author: Fokina, Ye. A. Institutiont None Titlet Types of Monthly Negative Temperature Anomalies Tashkent Original Periodical: In book: Meteorol. i gidrol. v Uzbekistane,, TaBhkentj, AN UzSSR, 1955, 179-186 AbBtractt None Card 1/1  AF701511a,7 fRilli.SUE ISLA_.,,~O -LVIE-1 AD IPL~2 - S Fo~~Y ~.A. and KRYLO), 0. V. (Inrtitute of Physi-11al uheiiiistt7, Academy of Sciences, US31t). 013 MYSTV FOjUn"!iW0,3~I i~Deteriiiiriation of oxidation-reduction properties of surfaces). In Problej-,V kinatiki i kataliza (Problems of KineLics and Catalysis), vol. ",. -Lzdatollsuvo Akademil iiauk sl.,Ut, 1955. SeAion V: iiew experimental i:iethoda. p. 248-255. '-"he adsorption of phenol was sLudied in order to develop a ii.ethod for the deternination of t,e number aud nature of acid and alkaline centers on the surface. It was delermined gravimetri-.!ally on a quartz sprin,-_-, balance connected with an ampule containing phenol. The adsorption of Bhenol was conducted at 23-250C; desorption, at 25, 100, 200, 300, and 380 C; adsorption at 100OC; desorp-6ion at 100, 200, 300, and 3`00C; adsorption at 2000~v', desorption at 200, 300 and 380oc- A sti0y of the kineUcs of adsorpLion and desorption of phenol was car.Aed out on acidic, alkaline an,-! amphoteric adsorbent3. e1, and Vie aluiainosili-.ate BeO., ',igO, ZnO, CdO, CaO, Ca(0102, A12031 s"'-a crLckin Y catalyst. Tiie catalytic acLivity oC Lhe ai;ove t;aLalyst wer6 also studiod in the decomposiLon ofisopropyl alcohol. The experimental data are coin-Diled in Table i (p. 250). The adsorpAon of 1-henol by all the catalysts except 3'02 and A1203-SiO21 is very stable (chemisorption). V3  Ye. A. and C'. V. H.`YD37 IIID 81,2 - S, 'i'he curve in Fig. 1 (p. 251) shows the quasi-isobars of sbsorpLion (calculated from the saturation points of thg, kinetic adsorptioin isotherms). 'ihe amount of phenol adsorbed at 25 C 6n lm. catalytic surface is appro~,ijiately the same (5-Omm) on di-rcerent catalysts while the Ltability of tile bond between phenol and catalyst di-ffers for different catalyst. _,ata. oil the desorption of phenol from BeO and MgO at various temperatures are compiled in TLble 2 (p. 252). Kinetic isotherms of adsorption of phenol on BeO are shown in ii 2 (p. 253)- Analo-ous isotherms were found for ZnO, i,igO, A etc.. with t1le exception of 0 1203P CaO. Ca(OH)2, silica gel and aluminosilicate. Kineti-, isotherms of adsorption of phenol on aluminosilicate at various temoeratures are shown in iiZ. 3 (P. 353). To establish the acidic nature of the caualytic surface, adsorption of pyridine was conducted in the same manner as tile adsorption of phenol. Tile experimental data are compiled in Table 3 (p. 254). Study of the decomposition of isopropyl al,--ohol showed that the dehydration ability of tile catalyst changes as in the adsorption of pyridine, and tile dehydrogenation ability of -'~he catalyst as in tile adsorption of phenol. Adsorption of pyridine may be used for determination 01' LIIC- acidic 1,roperties 2/3  AF701597 LTH--ASURE AID 8~2 - I of the surface. It is advisable to determine also the heat of adsorption and the enerpy of ac'4-,ivation. A dijailar method t;iay be used for determination of the electronic nature of the catalytic surface. The effect of the adsorption of meri.,ury, an electron-dorior, and oxygen, an electron-acceptor on the catalytic nature of oxides of Be, Zn and _;~ was studied. 1"ercury and oxygen were supplied to tiie catalyst simultaneously with the vapors of isopropyl alcohol. Oxygen decrea.-;es the rate of decomi~o:5iton of half of the initial value - see ref. 19. Three tables, 3 dia.-ramse 19 references, 12 dussian (194,--1954). 3/3   ZH&BBDVA, GjM.; FOKINA, Ye.A. . I 3"ect of the method of introducing modifying additives 9n the properties of oxide catalysts. Izv.Aff SSSR.otd.khim.nauk 86 no.6:963-971 Ky 155. (MLRL 9:4) l.Inatitut fisichaskey khtsit Akademli nauk SSMt. (catalysts)   xv~ USSR/ Physical Chemisty - Kinetics. Combustion. Explosives. Topochemistry. B-9 Catalysis Abs Jour : Referat Zhur - Xhimiya, No 4, 1957, 11284 Author : Krylov O.V., Roginskiy S.Z., Pokins Ye. A. Inst : Department of Chemical Sciences, W&_aWffT-'Uf Sciences USSR Title : Study of the De~endence of Catalytic Activity of Binary Compounds of Metals of the Second Oroup with Non-Metals Upon e Position of Elements in the Periodic System of'Mendeleyev. Comhunicatlon 1. Catalytic Decom- position of Isopropyl Alcohol over Oxides of Alkaline-Earth Metals. Orig Pub : Izv. M SSSR, Otd. khim. n., 1956, No 6, 668-675 Abstract ; In a flow-unit, at 314-4660, a study was made of decomposition of isopro- pyl alcohol in the presence of the catalysts CaO (I), SrO (II), B&O (M)p CaCO (17) B&CO (V) or**002 (VI).- In the I-ITI series catalytic ac- tivi?y of 'the o2des increases* ftir all'the oxides dehydrokenstion of alcohol preidominat6s 6yer'the-dehydration. Energies of activation E of dehydrogenatibn (~n cal/i3ole), I 12000-16ooo, on 11 11000, on ITT 6000. Values of E of dehydratioii are higher -(in_6al/mole): on 1 22000-26000, on 11 25000, on 111 12000. At the same time E values of dehydration 1/2  USSR/ Ehysical Chemistry Kinetics. Combustion. Explosives. Topochemistry. B-9 Catalysis Abe Jour : Referat Zhur Khimiya, No 4, 1957, 11284 over carbonates (24000 on IV) 17000 on V) are lower than dehydrogenation E values (39000 on IV, 26000 on V) and approximate the dehydrogenation E over oxides.* On the basis of these data the assumption is made con- cernifig the presence'in oxides of carbonate admixtures-which cause the dehydration. Dehydrog6nation E over VI, of 16000 cal/mole, is close to dehydrogenation E over I. Literature data concerning catalytic pro- perties of solid alkalies inelicate widespread use of allcalir, catalysis. 2/2  1. ct t YC IRYWY, O.Y.: ROGINSKIY, S.Z.; FOUNA, Ye.A. Investigating the dependence of catalytic activity of binary metal compounds of the second groirp with nonmetals on the position of the elemients in M.I.Mendeleev's periodic table. Report No.2: Catalytic decomposition of siopropyl alcohol on oxides of metals from the side subgroup of the second group. Izv.Al SSSR Otd.khim. usuk no.4:421-43o Ap 157. (MIRA 10:11) 1. Institut fisicheakoy khimii AN SSSR (Catalysis) (Isopropyl alcohol) (Oxides)  KRYIoOVg 0,V,; YOKINA, Ye.A. Study of sulfide stability with the aid of S35 during catalytic dooomposition of inopropyl alcohol. Probl. kin. i kat. 9.-294-303 1,57. (MIRA 1113) (Sulfides) (Catalysis) (Sulfur-Isotopes)  I J1 7 r KRYWYO O,V.; YOKINAg Te.A. Stud.v of acid-base properties of catalytic nurface bT the differ- ential Isotope method. Probl. kin. I kat. 9:304-313 57.(MM 110) (Adsorption) (Grenol) (Carbon-Isotopes)  AUTHORS: Krylov, 0. V., Fokina, Ye. A. % XNW" 62-58-3-2130 TITLE: The Investigation of the Catalytic Activity of the Binary Compounds of Metals of the Second Group With Nonmetals as Dependent on the Position of the Elements in the Mendeleyev Periodic System (Izuoheniye zavisimosti kataliticheskoy aktivnosti binarnykh soyedineniy metallov vtoroy gruppy s nemetallami at polozheniya elementov V periodicheskoy siateme Mendeleyeva). Communication 3. The Catalytic Decomposition of Isopropyl Alcohol on the Sulfides of Metals of the Second Grottp (Soobshcheniye 3. Kataliticheskoye razlozheniye izo- propilovogo, spirta na sullfidakh metallov vtoroy gruppy) PERIODICALs Izvestiya Akademii Hauk SSSR Otdeleniye Xhimicheskikh Nauk, 1958, Nr 3, pp. 266-276 (USS~j ABSTRACTz This paper represents part of of the catalytic properties of (metals of the 2nd group) with Beside the sulfides of the 2nd samples (of Pb and Bi) were also Card 1/ 2 paper describes the investigation the systematic investigations binary metallic compounds metalloida of the metal group some investigated~ The of sulfurous zinc 6th group. sulfide present ZnS and  The Investigation of the Catalytic Activity of the Binary 62-58-3-2/30 Compounds of Metals of the Second Group With Nonmetals as Dependent on the Position of the Elements in the Mendeleyev Periodic System. Communication 5. The Catalytic Decomposition of Isopropyl Alcohol on the Sulfides of Metals of the Second Group similar types of zinc. Table 1 shows the results of the per- formed experiment. The dehydrogenation and dehydration of isopropyl alcohol on the sulfides were also investigated (see tables 3-6). It became evident that all investigated sulfides except PbS are dehydrogenizing catalysts. The catalytic activity of the sulfides Zn and Cd is higher than that of ZnO and CdO. It was further found that a modification of the method of synthesis of the sulfide causes a modification of its catalytic properties. Under the conditions of the de- composition of isopropyl alcohol (in the layer) the activity of ZnS is higher than of ZnO. The activation energy of the dehydrogenation (in the layer) increases with an increasing filling of the surface. There are 8 figures, 6 tables, and 17 references, 16 of which are Soviet. ASSOCIATIONs Institut fizicheskoy khimii Akademii nauk S3SR (Institute for Physical Chemistry,AS USSR) SUBMITTED: January 8, 1957 Card 2/2  5(4) SOV/62-58-12-3/22 AUTHORS: Krylov, 0. V., Kushnerev, M. Ya., Fokina, Ye. A. TITLE: Investigation of the Dependence of the Catalytic Activity of Binary Compounds of Metals of the Second Group With Non-Metals Upon the Position of the Elements in the Mendeleyev Periodic System (Izuchenlya zavisimosti kataliticheskoy aktivnosti bi- narnykh soyedineniy metallov vtoroy gruppy s nemetallami ot polozheniya elementov v periodicheskoy sisteme Mendeleyeva) Communication 4: Catalytic Decomposition of Isopropyl Alcohol on Zinc Selenide and Telluride (Soobshcheniye 4. Katalitiches- kaye raziozheniye izopropilovogo spirta na selenide i telluride tainka) PERIODICAL: Izvestiya Akademii nauk SSSR. Otdeleniye kh.4micheskikh nauk, 1958, Nr 12, PP 1413-1421 (USSR) ABSTRACT: The present paper deals with the in-testigation of the catalytic activity of selenides and tellurides of metals of the second group with respect to the dehydration and dehydrogenation of isopropyl alcohol. It is a continuation of the investigations carried out'with the oxides and sulfides of metals of the same Card 1/3 group (Refs 1-3). The invpstigation methods employed are de-  SOV/62-56-12-3/22 .L Investigation of the Dependence of the Catalytic Activity of B*nary CompoundG of Metals of the Second Group With Non-Motals Upon the Position of the Elements in the Mendnleyev Periodic System. Communication 4: Catalytic Decomposition of !9cpropy.1 Alcohol on Zino Selsnide and Telluride scribed (Refs 1-3). The ZnSe preparation was supplied by Y1. S. Belenlkiy, the ZnTe preparation by N. A. Gory-anova, and chem- ically pure tellurium by A. V. Novoselova. The decomposition Of is,)propyl alcoh(.1 on ZnSe and ZnTe within the temperature range 20-140' was investigated. It was found that the reaction in p:71nelple develops in the direction of dehydiogenation. In 'he reaction a decrease of the catalytic activity of ZnSe and ZnTe is obse-ved. The activation enex-gy of the dehydrogenation of alcohol on ZnSe increases from 15 to 21 kcal/mol. The ZnSe sample annealed in a:Lr at 6000 wan les5 active -,han that not annealed. Elementary tellurium has a low cataly-v"Ic activity. Radiographic and alootroncgraphic investigations a.9 a result of compariaon of thexmodynamic character~Wcs showed that the phase oh&agep of the catalyst are due to impu=-ities in the basic sample anti on temperature effects, 'out in no case on 'the course of .-latalys".a. There aze 11 fig-arsq, 3 tables, and 10 references, 7 of which are Sovieto Card 2/3  SOV/62-58-12-3/22 Investigation of the Dependence of the Catalytic Activity of Binary Compounds of Metals of the Second Group With Non-Metals Upon the Position of the Elements in the Mendeleyev Periodic System. Communication 4: Catalytic Decomposition of Isopropyl Alcohol on Zinc Selenide and Telluride ASSOCIATION: Institut fizicheskoy khimii Akademii nauk SSSR (Institute of Physical ChemistryAoademy of SciencesUSSR) SUBMITTED: June 1, 1957 Card 3/3  AUTHORS: Krylov, 0. V., Fokina, Ye. A. S07/2o-12o-2-~o/63 TITLE: On the Catalytic Properties of Calcium 0:-,ide (0 katalitichaskikh svoystvakh ohici kalltsiya) PERIODICAL: Doklady Akademii nauk SSSR, Vol. 12o, Nr 2, 11511" PP. 333 - 335 (USSR) ABSTRACT: First, reference in made to variotin pertinent papers published previously. The inve3til-otion of the rules -overning the basic catalynia as against the acid catalysis and the oxidation- reduction catalysis is very intcresting. The dehydration of cyclohexane, the decomposition of isobiityl alcohol and of bated. The calcium oxide hydrazines on calcium oxide in investij- was produced by a dehydration of Ca(011)2 at 6ooo in a vacuum in the same container, in which the catalytic reaction was investigated. The reaction products were analyzed by freezing out. Besides, an additional analysis for H2 was carried out. The hydrogen was made to pass through a palladium capillary. The kinetic curves of the doYration of inopropyl alcohol in the Card 1/3 adsorbed layer at 100- 200 aro givon in a diagrlm. Tho amatint  On the Catalytic Properties of Calcium Oxide SOV/2o-12o-2-3o/63 of dosorbed hydrogen at 180-200 0 is equal to the amount of acetone. At lower temp2ratureB a 10-20~ excess of hydrogen is 0 found. This is explained by the more pronounced adsorption of acetone on CaO. With an initial pressure of C 6H12 amounting to 0,2 mm the dehydration of cyclohexane proceeds at 300-450 0 with a satisfactory velocity. Further details are given. These results are well reproducible. The activation energy of de- hydration is 30,5 Kcal/ mol. A stoichometric decomposition of C6H12 into C 6H6 + 3H2 was not observed. In another diagram the kinetic curves of the decomposition of hydrazine upon the absorbed layer at 50-2000 are Civen. Thin investiffation proves that it is possible to carry out three reactions of hydrogen separation upon CaO. Two of thene reactions, the dehydration of alcohol and of cyclohexane proceed in the same direction as upon electron semiconductors. The direction of the third xeaction, the decomposition of hydrazine differs from the direction taken by the reaction upon netala and semiconductors. The authors express their gratitude to the Corresponding Member AS USSR, S.Z.Roginskiy for his advice and a number of valuable Card 2/3 suegestions. There are 4 figures and 13 references, 9 of which  113 . On the Catalytic Propertiec of C;ilcium- 07ide SOV/2o-12o-2-3o/0 are Soviet. PRESENTED: January 2, 1958, by S.I.Vollfhovich, ile:,-iber, Acadeiy of Sciences, US'JR SUBMITTED: December 31, 1957 16 caldim oxide-4atalytie properties Card 3/3  0.2 0 0 -544) AUTHORS: Krylovo O.V.j Yokina, Ye.k. 66869 SOV/76-33-11-31/47 TITLE: Investigation of Some Catalytic Reactions on the Surface of Calcium Oxide PERIODICAL: Zhurnal fizicheskoy khimii, 1959P Vol 33, Nr 11, pp 2555-2558 (USSR) ABSTRACT: In continuation of a previous paper (Ref 1) the authors investigated the decomposition of iaopropanol and hydrazine as well as the dehydration of ethane and cyclohexane on calcium oxide. The decomposition of isopropanol was carried out in an adsorbed layer according to a method described earlier (Ref 2). The curves (Fig 1) are given of the decom- position of isopropanol at freezing out (-116c)Cj)rjf the reac- tion products (acetone), in which case in the eas remainod mainly hydrogen and the product of dehydrogenation7 proprienso The hygrogen content was at 1000C - 64.3%, at 1500C _ 7 4 -_K, at 180'U - 78-8% and at 220*C- 84.0 -86.3%. The activation energy varied at 100-150 Cin dependence on the degree of filling in the range, 21-30 kcal/mol and at 180-200OCfrom 32 to 36 kcal/mol. Ethane did not show any change on calcium at Card 1/2 0-4 Tim.-Jig UP to 6000% above 60OoCa small degree of pressure  66869 Investigation of Some catalytic Reactions on BOV/76-33-11-31/47 the Surface of Calcium Oxide increase could be observed and hydrogen was found in the reaction produc a., The dehydrogenation experiments carried out wi h a c e t Zolohex put at disposal by G.V.1sagulyants, showed (Fig 3 kinetic decompooition curve at 400'C wid varied initial pressure) that the dependence of the initial reaction rate is linear with the pressure of the cyolohexane (Fig 4). The activation energy of the dehydrogenation is 30-5 kcal/mol at 300-4500cwhich is in accordance with data by A.A.Balandin and I.I.Brusov (Ref 4), and M.Ya.Kagan and R.M.Flid (Ref 5). Hydrogen was determined as the dehydrogenation product. The hydrazine decomposition was also investigated in the adsorbed layer 8f the calcium oxide and it was established that at 50-200 Cthe main-reaction products are hydrogen and nitrogen. There are 6 figures and 7 references, 6 of which are Soviet. ASSOCIATION: Akademiya nauk SSSR,Institut fizicheskoy khimii.Moskva (Academy of Sciences, USSR, Institute of-Physical Chemis Moscow) Card 2/2  F r C) 5 ON k I .0 .6 0v la V i P v .8 A - ij, jql oil I V Mv vil 110, all 13 it  KRYLOV, O.T.; FOKINA, Te.A. Isotopic study of the heterogeneous surfaces of oxide catalysts used in the decomposition of isopropyl alcohol. Part 1: Calcium-oxide. Kin. tikat-.1 no. 3:421-430 s-o 16o. (MIRA 13:11) 1. Institut fizichookoy khimli AN SSSR. (Isopropyl alcohol) (Catalysts) (Garboa--Isotopes)  B017/BO55 AUTHORS: Krylov, 0. V., Fokinaq Ye. A. TITLE: Application of the Isotopic Exchange Method for the Investigation of Surface Inhomogeneity of Oxide Catalysts by Decomposition of Isopropyl Alcohol. II. Aluminum Oxide and Zinc Oxide PERIODICAL: Kinetika i kataliz, 1960, Vol. 1, No. 4, pp. 542-547 TEXT: Studies on the nature of active centers on the surface of Al 203 were carried out by N. P. Keyyer (Ref. 2), A. A. Babushkin and A. V. Uvarov (Ref. 3), and V. E. Vasserberg and A. A. Balandin (Ref- 4). By examining the decomposition of isopropyl alcohol on the lay%-r adsorbed on aluminum oxide by the differential isotope method, they found that the aluminum-oxide surface was inhomogeneous. Dehydration of isopropyl alcohol occurs on only 4-6% of the alumlnum-oxide surface. The results obtained by studying the dehydration of.isopropyl alcohol on aluminum oxide appear in Figs. 1 and 2. The specific activity of all reaction S/195/60/001/004/006/015 Card 1/3  Application of the Isotopic Exchange Method fo~- S/195/60/001/004/006/015 the Investigation of Surface Inhomogeneity of BO17/ '0055 Oxide Catalysts by Decomposition of Isopropyl Alcohol. II. Aluminum Oxide and Zinc Oxide products desorbed during isopropyl-alcohol dehydration ivas found to be constant. Desorption and dehydration of isopropyl alcohol on A1203 is illustrated in Fig. 4. The kinetics of isotopic exchange between iso- propyl alcohol adsorbed on Al 203and isopropyl alcohol in the gaseous phase is graphically shown in Fig. 3. The decomposition of isopropyl alcohol on zinc oxide was investigated by the differential isotope exchange method whereby both dehydrogenation and dehydration products of isopropyl alcohol were found to have constant but different specific activity levels. Fig, 5 gives a graphic representation of the results obtained at decomposition of isopropyl alcohol on ZnO. Dehydrogenation and dehydration of isopropyl alcohol occur at different active centers of the zinc oxide surface. Dehydration occurs mainly at active centers having a lower activation energy. The kinetics of isotopic exchange between isopropyl alcohol adsorbed on ZnO and isopropyl alcohol in the gaseous phase is shown in Fig. 6. Isotopic exchange reactions of isopropyl alcohol adsorbed on ZnG and Al203 are much delayed, thus indicating the Card 2/3  Application of the Isotopic Exchange Method for S/195/60/001/004/006/015 the Investigation of Surface Inhomogeneity of B017/B055 Oxide Catalysts by Decomposition of Isopropyl Alcohol, II. Aluminum Oxide and Zinc Oxide. inhomogeneity of the active surface of the catalyst. There are 7 figures and 6 Soviet references. ASSOCIATION: Institut fizicheskoy khimii AN SSSR (Institute of Physical Chemistry of the AS USSR) SUBMITTED: March 23, 1960 Card 3/3  o AUTHORS: TITLEt PERIODICALi S/076/61/035/003/019/023 B121/B206 Krylovq 0. V. and Pokinal Ye. A. Catalytio properties of new semiconductors with the structure of zinoblende Zhurnal fizicheskoy khimii, v. 35, no. 3, 1961, 651-659 TEXT: The decomposition of isopropyl alcohol and hydrazine in the adsorption laye~r of the catalysto GaAs, Ga Se f GaAs,G Se 3GaAs-Ga Gaj , and 2 3 a2 3 ' 2seP ~ e3 CuBr was studied. These compounds of the types A IIIBV and A IIIBVI were 2 3 prepared by N. A. Goryunova and placed at the authors' disposal. According to N. A. Goryanova, V. S. Grigor'yeva et al. (Ref. 13: Zh. tekhn. fiziki, 25, 1675, 1955), compounds of the AIIIBVI type form solid solutions with 2 3 compounds of the AIIIBV type. The kinetic curves of the decomposition of isopropyl alcohol and hydrazine on these catalysts were recorded. From their course it may be seen that the decomposition of isopropyl alcohol at 130-2700C mainly proceeds in the form of dehydrogenation. The main decom- Card 1/4 PI -,-  S/076J61/035/003/019/023 Catalytic properties ... B121/B2o6 position products of hydrazine (90-2500C) are ammonia and nitrogen. The catalyst GaAs 19 not poisoned during the decompgsition of 4.sopropyl alcohol. The activation energy at temperatures below 220 C is :sl3-l.'j kcal/molep and at temperaturen above 225 OC, -20-25 kcal/mole. The activa-.ion energy of the decomposition of N 2H4 on GaAs at 100-2000C is approximately 16.5 kcal/mole. Besides dehydrogen 'ation, other reactions nccur on Ga2Se 3' The aotivation energy of dehydrogenation amounts here to 14-19.5 kcal/mole. At 125-2000C, the decomposition of hydrazine on Ga23e, proceeds at a satJ.3factory rate. The decomposition of isopropyl alcohol on Ga2 To 3 proceeds slowly at low temperatures, and 100~ dehydrogenation sets in at elevated temperatures. A transition point lies at 145 0C. At temperatures below 145 0 C, the activation energy of the decompooltion of isopropyl alcohol is 2-3 kcal/molet and at temperatures above 145 C, it is '11-19 kcal/mole. The decomposition of hydrazine on Ga2Te 3 takes place at temperatures of 100-200 C. The catalytic activity of the compounds GaAs-Ga2 Se 3 and 3GaAs-Ga2 Se3 was only studied from the hydrazine decomposition, and it was established that the rate of reaction Card 2/4  S/076/61/035/003/019/023 Catalytic properties ... B121/B206 is slightly higher than on the catalysts GaAs and Ga 2Se 3' On CuBr, isoproRrl 0 0 alcohol decomposes at 200-270 C at a considerable rate. At 200 C,a 61% dehydrogenation takes place, and up to 2700C this proportion decreases to 36%. The activation energy of the reaction 0varies from 26 to 31 koal/mole. Hydrazine on CuBr starts decomposing at 250 C, accompanied by side reactions and simultaneous chemical change of the catalyst under the formation of metallic copper, It was further established that in the series Ge, GeAB, ZnSe, CuBr and during the conversion of ZnTe to ZnSe and ZnS, and of Ga.2 Te3 to Ga2SeV which groups of compounds show identical crystalline structure and similar lattice parameters, a decrease of the catalytic action sets in with simultaneous increase of the activation energy df the catalytic reac- tion, w-ith an increase of the width of the forbidden band (i. e., with in- creasing ionic character of the bond). Semiconductors with bonds of highly ionic character have therefore poor catalytic properties. The authors thank S. Z. Roginskiy, Corresponding Member AS USSR, for advice. V. M. Frolov and Yu. N. Rufov are mentioned in connection with the study of the catalytic properties of pure germanium. There are 8 figures# 2 tablesp and 19 refer- enaes: 12 Sov.let-bloc and 7 non-Soviet-bloo. The four most recent refer- Card 31/4  Catalytic properties S/07 61/035/003/019/023 B121YI3206 enoes to Engliah-language publioationa read as followst G. -M. Schwab, Semiconduotor,,3 surface physics, Philadelphia, p. 2831 1957; G. -M. Schwab, Advances in Catalysis, N. Y., 9, 229, 1957; G. -M. Schwab, G. Greger, S. Krawczynski, J. Penzkofer, Z. phys Chem.,~N. F.), 15, 363, 1958; W. E. Garner, Advances in Catalysis, N. i., 9, 9, 1957. ASSOCIATION: Institut fizicheskoy khimii Akademiya nauk SSSR (Institute of Physical Chemistry of the Academy of Sciences USSR) PRESENTED: SUBMITTED: May 19, 1959 July 15, 1959 Card 4/4  GAZIYE:V, G.A.; KRYLOV, O.V.; ROGINSKIY, S.Z.; SAMSOIOV, k-Y.V.: FOUNA, Ye.A.; YANOVSKIY, M.I. Dehydrogenation of cyclohexane on certain carbides, borldes, and silicides. Dokl. AN SSSII 140 no.4:863-866 0 161. OIUR,-~ 14;9) 1. Chlen-korrespondent AN SSSR (for Iloginskiy) (Cyclohexane) (Dehydroeenation) (Ltalysts)  S/204/62/002/005/003/007 E075/EI36 AUTHORS: Krylovs O.V., Kushnerev, M.Ya., and Fokina, Ye.A. TITLE: Formation of active surface in the catalysts for the polymerization of ethylene oxide PERIODICALi Neftekhimiya, v.2, no-5, jL962, 697-704 TEXT: In view of the low activity of technical Beo and mg0v the authors studied the preparation of-the active oxide catalysts by decomposing Be and Mg hydroxides and carbonates. The action of catalytic poisons (1120 and C02) was also investigated. A ~TacBain balance was used to follow the decomposit 'ion and the adsorption kinetics of ethylene oxide (related to polymerization kinetics). C02 and 1120. Adsorption of ethylene o 'xide occurs before polymerization, the rate of adsorption being proportional to log -t (t = time). Subsequent polymerization takes place at a constant rate which depends on the number of active polymerization centres on the catalyst surface. The catalytic activity groves with the degree of decomposition of the hydroxides. The most, active MgO has 30-50% of its surface covered by water. For Be(OH)2 the most active catalyst results after its complete dehydration. Card 1/2  Formation of netive surface in the ... S/204/62/002/005/oo3/007 E075/E136 Freshly prepared MgO and Beo reduce their high activity on exposure to air, whilst their surface areas decrease by only 10-20%. This is explained by the preferential adsorption of water on the active centres, which lowers the adsorption and polymerization of ethylene'oxide. Initial adsorption Of C02 leads to the increase of ethylene oxide adsorption, but decreases the polymerization rate by a factor of 4-5. Further C02 adsorption has no effect. It is inferred from the adsorption kinetics that the active centres are Mg2+ or Be2+ ions interacting with the oxygen in ethylene oxide molecules. There are 9 figures and 1 table. ASSOCIATION: Institut khimicheskoy fiziki AN SSSR (Institute of Chemical Physics, AS USSR) SUBMITTED: May 5, 1962 Card 2/2  FOKINA, Ye.A.; TRETYAMV, I.I.1 KRMV, O.V.; RKOVA, S.A. "Untersuching des Mechanismis der Adsorption und des Isotopenaus6nothes von C02 an HgO und Mg(OH)2.n Third Worldng Conference on Stable Isotopes, 28 October to 2 November 1963, Leipzig.  FOKINA, Ye.A.; 2~VADSKIYp E.A. Effect of magnetic fields on martensite transformation in steel. Fiz. met. i metalloved. 16-no.2011-313 Ag 163. (NIRA 16s8) 1. Institut fiziki metallov AN SSSR. (Steel-Metallogra hy) 11~ (Magnetic fields  -W-Y---, FOKM,-,-Yi. A-.; MMUWA~-~ A.---- - --- - -- KRYWV, 0. V.; KUSHNEREV) a. "Elementary mechanism of heterogeneous catalytic polymerization of ethylene oxide." report submitted to 3rd Intl Cong on Catalysisp Amsterdam, 20-25 Jul 64.  ACCESSICK NR; AP403515a AUTHOM Kry*lovs 0o Vol Foldnap Too A* TITIB: Relationship betveen the catalytic activity of some cemiconductors,od the forbidden zone vidtla SMCE: Kinetika I, kataUzp To 5p not 2j. 19640 284-M TOPIC TAM: semiconductor catalysts, forbidden zone., forbidden zone vidth, catalyais, gadolinium semiconductor, germanium oemicowluctor, indlun oemidonductor.0 zinc semiconductor., copper scmiconductor ABSTRACT: Having found earlier thar, the catalytic activity of ihe iooelectronic, acrics of germardum nemiconductora (Go GaAs ZLISC,, CuDr) in the decompouitloa of Ixopropyl alcohol and hydrazine decreanco from Ge to CuDr, tha awl-hora carried out a Btudy to correlate the catalytic activity with the width of the forbidden zone. They studied decomponition of icopropyl alcohol In the adsorption laycr'(i12 steady-state conditionn) at low preacum on the surface of the following semicon- ductora: Map BP., GWWp Ga&a*Ga28e-A GaAs43Gv/,>So GaSb., p GaGe, GaTc,. InAsp InSb., %To in tha twPoraturo Interval 50-32W# 6vor moot of theoe acmiconductorap-i C, rd 11/2 -k.1~  ACCESSION IM: AP4035152 alcohol is dehydrogenatede The above date were compared with thoue obtained by the authors when decomposing alcohol over GdSj CuBr, %Sej~ G Te Ge ZnO, ZnS# ZnSe and ZnTe, It in shown that catalytic activity declin6s Mh ~h,e inscreasing width of the forbiddcn zoae, With thatj, the decline of the rate conataat may be caused by the decline of ko rather than the inercace in E. This fact may be ex- plained by catalysis neox the transition point from the impurity band to the coa- ductivity band* It is shown in which canea the compennation affect is observed. s~mbatie ebange of E and log k0. "Gratitude Is expressed to 8. Z. Roglnsldy and V. 14. Frolov for valumbla discussions." Oris. art# han: 10 figluvo) 3 fonw1m. 1 table. ASSOCIAMORt L3.0titUt Ithimicbeakoy fiziki AN SWE (LmUtute of Chemical PbpIcs AN SSSR) GUMMED: 25jui62 DATE ACQ: M&A ENCL: 00 so CME: 00 No MW 8"s 020 on=: 002  KRYLOV, O.V.; MARKOVAP Z.A.; TRETIYAKOV, I.I.; fQrINA.,. Ye.A. Machanism of adBorption and lootope exchange of C02 on MgO and Mg(011) 2* Kin. i kat. 6 no.1:128-136 Ja-F 165. (MIRA 18:6) 1. Institut khimicheskoy fiziki AN SSSR.  L61052-!,65- -r7c: Z riDu wo LP50i 500 URR/0190/69/0 -11,1006/b9U/0991, r'Q'; 64 r r MIMS: ZzTlovt 0. V~; Kushnersvt M. Ta-t Varkovs, Z. A_ FokAna '_c4anlo= of 'khe heteropne2ua qatelytid _o1rwrimt1=11af et iene oxid p by SOTIMCE: VYsok-ozo1eku1yarrqye wyedineni", Y. T# no. 6, 1965, 984-991 f ITOPIC TMAM polymer, resint etfqleme oxidet heterogeneous catalysiv, reaction 4 mechanism Ti- t -wi-th--tW view -of -eatahllahing- ABSEUCTC _OMMIACL OU for the selection of etbylane oxide polymerization 6atalyats. The vark is an 1 on of the work of 0. T. Krylov, Ye. A. Tokina (Sb. Kataliticlteskiye re&kti;ii ~hidkoy faze, Izd. AN. KazWt, Alma--Ata, 1963# strr, 5U9). were perfo=med at 25C. The experimental results a-re m=~,_ized in Fig. * an the 'E_hcloaure. A reaction mechanism for the reaction is proposed. Orio:. art. hast 4 io~aphs, I aq~mtion, and 3 illustrations. JASISOCTATIO-9f Institut khimichaskoy fiAki, AN. SSSR (Institute for Uiemiftl 'AF SQSO Card  i . i - I I i Card 2/3 ".- -1 . II . f  rg ff ."ZM -,L-61052,65L ACCESSICH IM AP5016500 01. fs Cask Fig. I. mmg(x in the specific catalytic activity of IV Period aetal hydroxides 1--cmd 4,  L-62542-65 ';R! AP5011754 4 L.- v. Sadovskiy, V. D. :TITLE.- Effect of a pulsed.magnetic flel on the teffj~erature interval of marte 3-tic--- trans formationAn steel iSOURCE: MA~ metallov i metalloveddniye, V. 19 no. 4, 1965, 592-595 ""OPIC TAGS- martensitic transformation,-: stee-I., magnetic treatment ABSTRACT: Several grades of steel ware studied in an attempt to detemine the ef- fect which an applied pulsed magnetic field has on the position of ':h~~ marternsitic transformation temperature range. The - chemical compositions of the steeis studied are given in table 1 of the Enclosure. Tue magne-lometric method w&i used to det"L--i mine the martensite points and the quantity of ferromagnetic phase. The amplitude of the field was 400,000 oersteds at a frequency of 5 kc. It was found that the temperature of martensitic transformation in steels and iron-base carbon-free al- loys is shifted toward the higher temperature side under the action of a pulsed mag-, ,netic field. -the amount of this shIft at a givc!n superc(yoling vaRe increases with J Card 1/3 Main: ~=N- R W RN IN U 'MON t    ~i, 7, 7" L tw 7 5 E N, -11 /rv P -IT/ Ew t- Ew (k b wd), P ESP z /E-iv Pf-4/Pad ACCFSSION N R: AP5013810 UR/0126f651019/005/072210725 669.112.227.34 .0 538.69 AUTHOR: Fokina, Ye. A.-;. SlairnavP 1. V. Sadovskly, V. D. a--ii i-za-ffo-n-o f aus I TITLE: Dest b tt!a t h"-pcwerful-mptlaed,maj~nctic field SOURCE: Fizika metallav.i'metal.javedeniye, v. 19, no'. 5, 1965, 722-725 abiltied au4teititei mirtensite TOPIC TAGS1 dentabilized austedicol :ata tran3formation, pulsed ~manetid field, plastic defomation, auparcoaled austertite, kinetic rawnimum AkSTPACT- The authara itweatigated the eff/- t -L PU186 ~ignetic ffetd.onl , -c - -1 -7 i--stenite,utabilized byr__p st~~.deformatlonAn 5(7-KI?21122 teel (0.49% C, "6R- u 0. 3 - S, jsothermal Nt; '2. C14% Cr, 0. 26% Kn ata ywA ~0 tc-nperaLureg above the utarte-~7,1,e "loint in N12"Ya'.19 7 7 1 11. 7 07, C r, 0. '13Z Mn, 0, 48-, 5 J); -mar! erzq ion c-cicled to the LcmperaLurc ra- ge --r zax -m-, in c1l, LE 4up I All, N124GI. ateel (0.03% C, 23.6% M 3. 61 Mn) (0 to -19(~*C). 1b e wiaunt. of I mar-E-ensite in the specimens waa coatrolled tty the magnetcmetric methad. Ca  L 56075-65 - -ACCESSIOU HR-..- APS013810 Tne pulsed-mag nett-,at ton of the specIzens vas ~accomplishad in an InstAllati oil or geric -u1 p ma At--- d6scribed by FAkidavr r rating superpmwerr -a Iq e dgne c e vad2hiy (Fizika metallov I metal lovedeniye, 1958, 6, 561 11-, C field it--do In the c-?.,p,,Aimento reached 500 k-nergteda and the C-7CCAteUCY, ftPPrOTi- (30 0 c p a .it was establighad that tLC - e n al I eas es leadc to de-g t qb 11 j z~! t t nn n f a V-31 eT1 i t U. L h v ol' 2wrtens-Ite trans f or=a-t ion being then a fivict ton of rhc intenr;fty of the field applied. Tlie increase in the derree of plastic delo-nmation leads to an increaue irt the magnitude of the threshold field. lbe pulced r-agnetic field destabill7ea austenite follcrwing the lstter'!i thermal sta!:)ilization., III alloy!3 with isothermal martensite tranaformation, aupercooled ta a tmperatura r,,.n,,v below the kinetic naximum (to the temperature of liquid ritrogen) the pul3ed magnetic field induces a martensite. transfor-mation, the degrre of thia f-r-ansformation also being a function of the intensity of the field applied. IlThe authors consider it their pleasant duty to opre3q their apgreciation to I T.C. Fakidcr;r and E. A, ZavddskLy for 'techuicnl avalstance In conducting the ying --u?er-powerr-, i I -- iments einplo 5-1 putlae4 wmeuntle- fields. iinii to N. A. Boro- and E. L Estrin 'for their kindneag in praviding alto iarvicimei-11 Y 2/3 7  7& - ij I  L 4186-66 VWT(m)/EPF(0/E'dA(d) UP(c), ~Z)IZW WAWA:(c) ACCESSION NR: APS016535 UR/0126/65/019/0,36/0932/0933 MJV/JD AUTHOR% rok Smirnov, L. V.; Sadovskiy, V. D.- Prj~ IF* in2A---X9-!Jj ; I k_ul, A TITLE: On the problem of-the effect of a constant magnetic field on the martensAti transformation in steel SOURCE: Fizika metallov i metallovedeniye, v. 19, no. 6, 1965, 932-933 TOPIC TAGS: martensitic transformation, constant magnetic field, strong magnetic field, liquid helium, steel ABSTRACT: At the Institute of Physics of Metals experiments were performed on 5OKh?123 steel In a slowly increasing then constant (for 6 min) magnetic field of 40 kOe ih a solenoid with a superconducting winding at liquid helium temperature. Without the magnetic field, this steel does not undergo a martensite transformation on cooling to -1960C, but cooling to the liquid helium temperat'ure causes the forma- tion of 8-9% martensIte. When the field was applied, an additlonal 12% martensiteij Was formed. Similar experiments with the same steel carried out at the Physics Institute gave analogous results. In another steel, 50Kh2N22,,,jn which no marten-., site is formed on cooling in liquid heliumi the application of constant magnetic Card 1/2  L 4186-66 ACCESSION NR: APS016535 field of 43.5 kOe caused the formation of 8% martensite. It is concluded that the! I action of the magnetic field on the martensite transformation should not be at- tributed to the influence of the mechanical forces arising duri-ng pulsed magnetiza4 i tion, since the field used was constant, not pulsed. "The authors thank N v and V. R. Karasik for affording them the opportunity to carry out the, experiments.' itute of Physics of ASSOCIATION: Institut fiziki-metallov AN SSSR (Inst' Metals,-. qq, 5- >' SUB14ITTED: 26Feb65 ENCL: 00 SUB CODE: MH NO REF SOVt 004 OTHER: 000 Card 2/2  ADONIH, A.N., kand.tekhn.nauk; ALIVXRDIZA , K.S., kand.tekhn.nauk; AMITAK, V.A., Imnd.tekhn.nauk; ANISIMOV, Te.P., inzh.; APMOV, K.A., dotsent; A IKIY, V.N., insh.; BOGDAHOV, A.A., kand. tekhn.nauk; GORBINKO, L.A., inzh.; DANIBLYAN, A.A., insh.; DA OV, V.N., prof,; IVANKOV, R.A., insh.; KORIINTAV, K.I., insh.; LAVMJWMO, P.N., inzh.; LISIX. N.P., insh,; LOYLIA, S.A., kand. tekhn.nauk; LOGINOV, B.G., kand.takhn.nauk; NIHINZON, G.M., kand. tekhn.nauk; HOLCHANOV, G.V., kand.takhn.nauk; XMVIYBV, I.M., prof.; NUSHIN, A.Z., insh.; CLIMUNG, D.Ta.. inzh.; PODGORNOT, M.I., inzh.; FATIMM, I.L., kond.takhn.nauk; YOKINA, Ts.D.0 inshe; IWISM, A.M., insh. Ldoosasadj; IIRSHOV, P.R., vedushchii-red,; MMINA, N.A.. tekha.red. (Reference book on petroleum productionj Spravochnik po dobyche nefti. Koakwa, Gos.nauchno-tekha.izd-vo neft. i gorno-toplivnoi lit-ry. Vol.2. 1959. 589 p. WELA 13:2) (Oil fislds~-Production methods)  PAVLOV., A.V.;--~PKI.NA, Y6.1, Distribution of germanium in the cross section of a simple coal seam. Inform. Bbor. NlIGA no.30.-42-51 162. (MIRA 17:1)  T-'~(',IOVAII I.V.; Y0.11. DIZ.,cover-los mild fjv6r.*,:,. Irv. Arav. 22 nc~.9.76 163. (141PUA 17:4) 1.0tial istorii meditsiny i 5ovetokogo zdravookliraneniya lriotltuta organizatali zdrtviookhr~ineniya i iatorii me-ditsiny imen! N.A.  VENGROVA, I.V.; (RJSAKOVA, T.V.; ZINOVIYEV, I.A.; POLTANSKATA, T.G.; FOKINA,--,Te.ll..;-PMOV, B.D., red. (Significant dates and anniversaries in the history of medicine for 19601 Znamenatellnye i iubileinye daty istorii moditsiny 1960 goda. Soot. I.V.Vengrova i dr. Moskva. M-vo zdravookhranoniia S=o 1959. 53 P. (MIRA 13:1) 1. Moscow. Inotitut organizatsii zdravookhraneniya i lotoril meditsiny imeni N.A.Somaohko. 2. Zoveduyushchiy otdelom istorli meditsiny Institute organizataii zdrovookhraneniya i istorii meditsiny imeni N.A.Samashko (for Petrov). (KIDICINB--BIOGRAPHY)  FOKMA, U.N. (Mosk7a, 21, Teplyy per., dl. 18, kv. 19) Albrecht von Haller ('1708-1777) and his activity as anatomist; 250th anniversary of his births Arkh.anat.gie't. i embrs 36 no.2: 83-85 IP '59- (MIRA 12:4) (ANATOMY@ contribution of Albrecht von Haller (Rue)) (BXOGRAPHIESP Haller, Albrecht von (Rue))  .,--FOMA, Ye -N -- i!-~ Foreign reviews of Soviet works on the history of m3dicine. Sov. zdrav. 19 no.501-72 160. (MEDIGM) (min .1319)  FOKINAO Te.14. "The physician in a socialist society" by A.Mette, 0. Hisgeld, K.Winter. Reviewed .by E.N.Fokina. Sov.zdrav. 19 no-5:72-73 160. (MIRA 13:9) (SOCIAL MEDICINE) (METTE9 A.) (MISGELD# G. ) (WINTER, K.)  ZINOVITLV) I.A. - Y%AL'YUP T.V.,- POLYANSKAXA) T.G.; RABINUVIGH, R.S.; F KTUA-IU N Significant and anniversary dates of the history of medicine during 1962. Sov. zdrav. 20 no.9:76-79 161. (~IIM 14: 12) 1. Iz Instituta organizatsii zdravookhraneniya i istorii meditsiny imeni. Semashko Hinisterstva zdravookhraneniA SSSR. (MEDlCINE)  ZINOVIYEV, I.A.; KALIYU, T.V.; POLYANSKIYA, T.G.; RABINOVICH, R.S.; FOKINAP Ye.N.; PRONINk, N.D., teklm. red. [Significant aid aniversary dates in the history of medicine for 1963]Znamnatelinye i iubileinye daty istorii meditsiny 1963 goda. Moskva,, Medgiz, 1962. 61 p. (MIRA 15:11) (MEDICINE)  ZINOVIIEV, I.A.; MIYU, T.V.; FOLYANSKMA, T.G.j RABINOVIGHj H.S.; FOKINAI Ye.N.; ZUYEVAq 11.K.s tekhn, red,; (Significant and jubilee dates in the history of medicine for 19621 Znamenatellnye i iubileinye daty istorii meditsiny 1962 goda. Moskvat Medgizv 1962. 71 p. (MIRA 15:4) (MEDICINE)  ZINCIVI :CLV, I.A. KJLL'YU, T.V.; PULYLI:61AYA, T.U.; -,ULELUVIGH, Significant and anniversary datos in t'j lf~jtory olt imedicine: June. Sov. zdmv. 21 no.2:61-63 162. (1-did, 15:2) 1. Institut orgwtizatsii zdravookhromeniya I istvril med -.-tainy imeni N.A.Somashko Ministerstva zdravookliranonira SSSH, otdol istorii meditsiny. (ML-DICINE)  ,- FOKINA, Ye,N. (Moskva) Control of alcoholism in Rusia,-4worka of A.M.Korovin,.1865-1943. Sov.zdrav. 21 no.716M4 162. (MIRA 15:8) (KOROVINP ALEKSANDR NIKHAILOVICII, 1865-1943) b .i - ~,*7 ,2~.- I 1 1. .. I  ZINOVIYEV, I.A.; PMYANSKAYA, T.G.1 RABINOVICH, R.S*; KALIYU, T.V.; If FOKINAt-Yox Significant and anniversary dates in the history of medicine in 1963 - May. Sov.zdrav. 22 no.2:67-68 163. (HIRA 16:i2) (MEDICINE)  VIENGROVA) I.V.; POLYANSKAYA, T.G.; P-%7jlN(TVIGlf, R.S.; POKIN.116'Ye.1f. Important wid annivermary dater In the Idstory of inadicino in j964. Sov. zdrav. 22 no.9s7l-70, 163. (MIRA 17:4) 1. Otdol istorii raeditsinj I l,ovetskogo zdravookhritneniya Instltuta organizatsil zdravookl-xan()rliyn i Istorii meditsiny imeni N.A. Semashko.  VENGROVA, I.V.; POLYANSKAYA, T.G.; RABINGVICH, ~e.14-; PETROV, B.D.9 prof.j red. [Significant dates and anniversaries of medicine in 19651 0 Znamenatel'rWe i iubileirWe daty istorii medituirW 1965 goda. Pod red. B.D.Petrova. Moskva, Neditsinal 1964. 74 p. (MIRA 17:12) 1. Zaveduyushchiy otdelom istorii meditsiny i sovetskogo zdravookhraneniya Instituta organizatsii zdravookhraneniya i istorii meditsiny im. N.A.Semashko (for Petrov).  FOKINA Ye.N. (MoEkva) Group of Rui,sian doctors in a painting from the first half of the 19th century by N.I.Podkliuchnikov. Vest. khir. 94 no.ltl26-131 is t65. , (MIRA 18:7)  5(2)95(3)95(4) 05885 AUTHORS: Fialkov, Y&O A. (Dsoeased)q Pok$nas, Z.A. SOV/78-4-11-38/50 TITLEt Physicoohomical Investigation of the Galliumtriohloride-nitro- benzene System PERIODICALs Zhurnal neorganioheskoy khimii, 1959, Vol 4, Nr 11, py 2611-2616 (USSR) ABSTRACTs Numerous publication data, many of which are'based on papers by V.A. Plotnikov and his school, prove the distinct capability of halogen compounds of aluminum of forming complex compounds also in nonaqueous systems. The halogen compounds of gallium have been little investigated so far. The papers by LA.Sheka(Refs 9, 10) are mentioned. The complex compounds mentioned in publications correspond to those of-aluminum, and are listed in table-I. The system GaCl 3 -C 6H5NO2 was thermally analyzed; its electric conductivity and the decomposition potential were measured, and an electrolysis was carried out, The thermal analysis (Table 20 Fig 2) carried out in Stepanov ampullae (Fig 1) yielded, as in the case,of Al. two compounds: GaCl 30 06H5N02 (melting point 640), Card 1/2 and the incongruently melting GaCl 3* 2C6H5N020 The measurement of  05885 Phyeiaochemical Investigation of the SOV/78-4-11-38/5() Galliumtrichloride-nitrobenzene System the electric conductivity was carried out by means of a sound generator of type ZG-109 frequency 1500 c/o, and a tube of type 6E5,as a zero instrument (Figs 29 31 Table 3); herep tho'compound. Gacl 30 C6H5N02 could be even detectsdat 750. G4C1 3 exhibits much lower electrolytic properties as compared with A1013 (Fig 4). The measurement of the decomposition potential yielded 1.15 ve while the potential computed from the formation heat of G&Cl 3 is equal to 1.86 v. A similar reduotion of the decomposition potential in contrast to the value computed was Also observed in the solutions of aluminum halogen compounds in nitrobenzene (Refs 26-28)9 and explained by the discharge of the solvated Al-lone and the depolarizing effect of nitrobenzene. Thi.s should also prove correct for the system with GaCl 3* There are 4 figures, 3 tablesp and 28 references, 12 of which are Soviet. ASSOCIATION3 Institut obahohey i neorganiaheakoy khimii Akademii nauk USSR (Institute of General and Inorganic Chemisti-y of the Academy of Soienceal UkrSSR) SUBMITTEDs July 2i 1950 Card 2/2  S/073/63/029/001/003/009 A057/-A126 AUTHORS: Fortunato'v, N.S.,-Fokina, Z.A. TITLE% The solubility of gallium, indium, And thallium, chloride in sulfur monochloride PERIODICAL: Ukrainskiy khimicheskly zhurnal, v. 29, no. 1, 1963, 16 -. 20 TEXT: N.S. Fortungtov published in an eaflier work [Kompleksnaya perera- bo'tka sullfidnykh rud (Complex reprocessing of sulfid-ic or6s), M. AS UkrSSR, 1 % 9] a method for the digestion of sulfidle polymetallic bres by chlorination 95 with dry chlorine gas in 'sulfur monochlorides (S2C12). The present paper deals with investigations of th~ behavior of Ga, In, and.T1 chlorideu under such condl-'~- tions. Quantitative data of the sojubility of-these chlorides in.S2CI2 or S2C121 respectively, with excess chlorine gas at 20 to 120'G were obtained and also re- sults on-distillation of the chlorides with S2C12- Complex-formation in these systems will be studied in future investigations.. The solubility 0was measured in a thermostated cylinder with a stirrer at 20;, 40, 60, 80, and 120 C by determin- ing Ga as oxide, and In and Tl polarographically~-The analysis of liquid equi- Card 1/2 L  j r'. B/073/63/029/001/003/009 The solubility of gallium,- indium, and thallium .... AO5'j/A126 librated phases was carried out at 25, 35, 115, 50, 55 and 65*C. A binodal of phase separation was drawn for -the system GaCl3-S2Cl2- The complex. 3GaC13- SC14, which is insoluble in S2CI2, is formed when excess chlorine is added to GaCl3 so- lutions. GaCl3 is distilled together with S2C12. No TI could be distilled,with S2C12 from TlCl, and only small amounts (about 10 times less than In the solution) of InC13 were distilled. The solubility of InCl or TlCl In S2C12 does not -Lion. The different behavior of change by passing chlorine gas through the solut Ga, In, and Tl chloride in S2C12 is apparently connected with the different de- gree of interaction between these chlorides and S2C12. Possibly relatively sta- ble GaCl3 solvates are formed, while no reaction occurs with TlCl and 1nCl3- This decrease in the reaction rate corresponds to known literature data upon the drop of "complex-formation ability" in the sequence Ga, In, Tl. There are 1 figure ,and 4 tables. ASSOCIATION: Institut obshchey,i neorganicheskoy khimii AN USSR (Institute of General and Inorganic Chemistry, AS UkrSSR) SMIMTED: July 16, 19611 Card 2/2  FORTUNATOV, N.S.1 FOKINA. Z.A.; KOPA, M.V.; 1011i'I'LIK, 1-1. Interaction of tetrachlorides of elements of group IV with cu.-ffur monochloride. Ukr.khim.zhur. 31 no.2:148-153 165. (miffil 28:4) 1. Institut obshchey i neorganiche3koy khimii All U~,rSSR.  ---1 7 ACC NRI AP6029838 SOURCE CODE: Ull/01)-1?3/66/032/008/0900/0901 AUTHOR: Fortunatov, N. S.; Kublanovskiy, V. S..; Timoshchenko, N. I.; Fokina,_Z. A. ORG: Institute of General and Inorganic Chemi~tg,_M__Ukr_5SR (Institut obshchey i neorganicheskoy khimii AN UkrSSR) TITLE: Chlorination in sulfur chloride medium with help of ultraviolet irradiation SOURCE: Ukrainskiy khimicheskiy zhurnal, v. 32, no. 8, 1966, 900-901 TOPIC TAGS: chlorination, metal extracting, ultraviolet irradiation, sulfur chloridi pyrite, sphalerite, molybdenum oxide, vanadium pentoxide ABSTRACT: A series of experiments were desgfibed in w o4et irradiation ulfidic jh ul;ravi -temperature chlor 'Y 1 was applied in low ination-~f nd 4 Jdjqvdres for the pur- pose of intensification of the process.. Eariie i V iron and zinc from polymetallic sulfidic ores was found to be only 65-75% complete when conventional,. low-temperature chlorination in sulfur chloride medium was applied Experimental chlorination of pyrite, sphalerite, vanadium pentoxide (V20,5), and'-Iolybden,4m tri- oxide (MO03) was carried out at 137C in a quartz tube irradiated by a PRK-.4nLamp19or without irradiation. Chemical separation of the chlorination products was described for each material. The percentage of material chlorinated with and without irradia- tion was: in the case of pyrite and sphale'rite-78% versus 46% in 30 minj in the case of V205-100 versus about 60% in 60 min; and in the cast! Of M003-80 versus Ca;d 1/2 UDC; 66.542.944.03 "->7 V~' 4 rM , , M"M  --L-42824-66 ACC NR, AP6029838 about 202 in 20 min. A leveling of the yield at 80Z was observed in case of M003 chlorination because of substitution of sulfur for oxygen in the first stage of the process. In all cases irradiation significantly increased the chlorination rate, as shown by the respective positions of chlorination curves with and without irradia-1 tion. Orig. art. has: 2 figures. [JK];[ SU.B CODE: 1l/ SUBM DATE: 23Mar65/ ORIG REF: 0031AT-D PRE55,'S-d66 2  FOXINA, Z.V., zootekhnik-selekteioner. .. fuld . PatIanIand to underrating broediM stocir. Ptitse-v,odstvo 8 no.506 % NY 158. (MIRA 110) 1. Ptitsesovkhox "Pinoer.0 (%age)  POKINA,-,Z.V., aspirant Raising cockerels for breading purposes. Ptitsevodstvo 9 no.4:33-36 AP 159. (MIRA 12:6) lJoesoymnyy nauchno-Issledovatel'skiy in6titut ptitsevodetva. (Roosters)  FOKINA, Z. V., Cand Tech Sci -- "Effect of various condi- tions of rearing~rthe growth, development, and breeding xv~4 H qualities of b**sdIag roosters. Len-Pushkin, 1961. (Min of Agr RSFSR. Len Agr Inst) (KL, 8-61, 255) - 388 -  or inz.; HOLUBEK, Rudolf, inz. -4M4.~1 L4 Possibility of using the Puccinellia distans as .prospective grass for saline soils. Rost vroba 10 no. 3:331-342 Mr 164. 1. Higher School of Agriculture, Department of Feeds, Nitra.  FOKOV, R. I., Cand of Tech SA -- (diso) "The ErO-Ctlon of MIulti-storied Industrial, Buildings by the Verticle Flow Method,11 Khar'kov, 1959, 20 pp (Khar'kov Engineering-0 onst ruct Ion Instituto) (KL, 1-60, 123)  FOKOV, R.I., lrand.tekhn.nauk; AGAYAN, M.A., :Lnzh. Construction of a new type of interlocked industrial building by assembly-line methods. Prom. .stroi. 40 no-5:4-9 162. (HIRA 15:5~. 1. Kharlkovskiy inshenerno-atroitelinyy institut (for Fokov). 2. Trest Mosstroy No.2 (for Agayan). (Factories-Design and construction)  SHVIDENKO, Valentin Iosifovich,, prof.1 MATOKIIIN, Vladirlr Pavlovich, dots., kand. teklm. nauk; R-11MOV, Aleksey Mikhaylovich, dots., kand. tekhn.nauk;-fD-K Rostislav I-vanovich,, kand. tekhn. nauk; CRERNYSHEV, Sergey nauk; YAKDIENKO, L.I.,, red. [Assembly of multistory industria: bi,"Idings] Hontazh mnogo- etazhnykh promyshleraWkh zdanii. Rharlkov, Izd-vo Khar*-kov- skogo univ.,, 1964. 142 p. (MIRA 18:3)  L"'. .- I f I L 1t6 a ~ I ~, !;,i . L-'r hr: . F -Sji , A , 1 --. 7"1. ; , I . ': . , 1 ; Z;i . 0 - --l-1-- i 'I nm~ing organ.l. zat.!~.,L ,,f r, I i,~ - o!.:: ! u,~ I ~',, ,: oj' a 1~ -. i - Li t. r Ia.l 17, I ~o ~ Lii ng. Prom.stroi . 42 r(j.",?Z 1-9 1" 5o I RA 'A 8 -. 8 )  YOKS,A.D.; MILLAR.B.Te.; VRIS,M.T.; LCKIZB,L.G.Ctranolator];NIRDUKOV, an Gayevicho redaktor; KRYUKOV,I.A., redaktor; ICRMNV,]I.N., tekhulcheskly redaktor [Behavior and application of ferrites in the microwave region. Translated from the linglishl Svoistyq, ferritoy i ikh primenenie v diapaxone SYCH. Perevod a anglilskogo ij.G.Lanize. ~Konkya, Ixd- Yo "Soystakoe ,adlo," 1956. 99 p. (KLRL 9:3) (Ferromagn,stism) - I  MISZELp Leon; TCCS, Branon NOW 1, Aboratory appliance blood taking from the finger. Polski tygod. lek. 9 no.41:1332 11 oot 54. 1. Ze Stpitala.Klejoklego v GlIwIo&ch, odds. wown, 11. ordynator: dr Leon Miszol. dyrok-tor Sspitala: dr Wladyalav Orlowski* (3100D, taking from finger, appar.) (EMKATOIDGT~ apparatus and instruments, for blood taking from finger)  ITO;, t F~-,3 4 9 6, 16-1" Ak f1d f~., ;1! 1  kDKSHA.-A.G~r-inzh.; MATYGIN, V.M., inzh. Ways for reducing the acidity-in.-the production of edible hydrogenated fatc. Masl*-zhir. prom. 29 no.WO-22 Ag 163. (MIRA 16tlO) 1. Khabarovskiy filial Vaesoyuznogo nauchno-ii3sledovatellskogo instituts zhirov (for Foksha). 2. Khabarovs)cLy MRS102hirovoy kombinat (for Matygin).  FCKSHA, L.T.: BALA.KHNICMVA, T.. red.; RAMMOBAUY, M., takhn.red. (Trade of the Moldavian S.S.R. in the seven-year plan] Torgovlia Moldavskoi SSR v samiletke. Kishinev, Gos.izd-ro "Kartia Moldo- veniaska," 1959* 99 p. (MIRA 13:7) (Moldavia--Retail trade)  FOKSHAUSKIX$--Xu,L. Some features of the structure of the basement of the southern Moscow syneclise and the Ryazan trough based an data from geophysical studies. Geofiz. razved. no.8:56-667 162. (ILTRA 15:7) (Moscow Basin-Geology, Structitral (Prospecting-Geophysical methods~  ------------------- The variation of tho'cle -ctrical c?oductivity a cortalu M a 0 '-"uQilype. 1'. Dft4n dittance RHO I th QIq- '" IL, I hlw" -a &w-4T w" Col. rt~. Wisire in 3, XIMMu French), c L CA. 53, -The tel" -Muf .characurlst" of 5 alinys am 2812d. discimmd on the of 2 hypothem, Otte, a prolmrsed order-ilLsordei trandorniation, accounts for the rknit of temp. over willch the chaiudetistic has a ues. slope, fhe other jWMIN tho same tcnip,-coud. varlation, but postulatex the rathild disappearance Uf wtaln agglomerates (lactmas) the Solld win. with larmashig temp; For the Cr,~-Nl alloys studied, the Hall donst. Is As a. result, for more of the electrons, there.6 a 2nd=Llianistu of conduction through'the lacuoas~ This complex method of coodtictlon 1A - !, . . . t' I occurs, (firectly " a tesult of impurities and dtfect,,irt the Lu er.level of die conduction band, 9~~er!Lm4 _pp_  Af f c' ell! to- , some resistant allaVs nt ----P jDRA, D, Ryl and &ZM- 4cad. to 0 Romine-, Siudis " C*r4d4F )0-~ l Investigations M it out In n er to if rcs taut: i lli j i h ibl f f nieta c n=trrio nt o ew t e s from the po v ev sernicond.behavior. Wire specimens were prod ' in ractio, and measurements of elec. resistance were also caff led out in 10 Th i d N1 7D C 0 v4cuo. e specimens conta r 2 ne . .4, ; : Q) N178.45 Cr 19,40;~(3) N178.11, Cr 20.25, (4) Ni 4111,~ u 68 6 52 The r ere: (31 NI 20 Cr 7 2 Cu 71 siAts 1% . . , . e . w , ; , plotted In a coardinate system of log cAir - elcr. cond. in' in./ohm sq. tutu.) and'1/7' X 104 (T - abs. te- ` ' 1 f ,and 2 present a wzdcond.'component; 3, In a limilte tt mp , range; 4 has no such comp onent and has a typically me . lallic behavior; 5 shoWs neither semiconductor co Ponent inor metallic behavior. It Is hypothesized that a modifica-: ~Iau Lhe Interat. bond taW place owirg to alloying ~j  D. DY the Orc. "If"I t1wrip '91)-Z11 giloyl fire jnvc~.Aigatcd as (mictium, of thAr. att: prCAuctt't rucl he ~Jlpu, awl -'strilcture, do' At. - ZU, pufwittl t"W-iu, alidsh, jmrjl~oj 11) 90 W ot I'll 'I pul 1, " 4,1n, tC! ,vaure (it tilealloys, ~~jllwi 1~ 14.320 at WitJ00-45% wl the s~fllh orl P 113 't no, 41 01w Mlayg th~ utivoi *Crgy for the therin tranaltitmi of the chuge orri courl, (cYW a i-~ 4 ML z 11 the etitirp, rakt W the r-Moy iymem IVA yv4cim~ P, flgx~ 4 '3i P.  A I/Serniconductor Drovirtlesi-ol cadmium. mamon Alto Y-.! 1i LIN u Volpta Urtlact's erk (19M); cf. Purkov. CA. 31. 11051a.-A literuture ourny d the phim dialtain Cd-& revealed 2 definite compounds CdSb and C". Because of the difference in w.p. of Cd and Sh, their great,reactivity. and the volatility of Cd. In order to fm= pure and stable compounds, the melting and of the alloy was perfanned In evacuated (10-2 to p M.) v OfAcnat"Ond Mrtz.b usingCdand9bothigh 5 and for the last series Of Forty allny$ of vado" compus. were prepd., In rectamila, ban (3 X 6 X 80 mm.) with all fares polished by metalkemphic techniques. Microdnicture, microbartlum, tlec. resistance, and thtnno- e.m.f. were detd. The structural constituents were "yzed selective attack rcagwta; the semiconductor roperties 1he allM were evaluated by dett. the clec - rest tanee as function of compti., the eke. cond. as function of temp., and the mean coeft. of the tbetnu)--e.mf. Better semiconductor vroperties wet (ound for Cd3b the clec resistance of which 6 OW times (22.210 ohm-cml and th; mean coeff. of the thermo-e.m.f. 200 times, that of pum Cd. Inalloyscontg. excess of metal these values am considerably reduced, but not In accord with the distribution of the constituents In the alloy. . No semiconductor properties were found for Cd,Slh. The theoretically expected correlation between the coeff. of thermo.t.m.f. a and the elec. cond. v, of differently propor- tioned alloys of Cd and 6b, a - A - 8 Idg a, was verilled espil. for the region Cd + CdSb. The expLI. results were Interpreted In light of the electronic theory of metals and semiconductors. aad hypotheses were suggested for expluna. tiou of A'tBv phases, the structural, phys., and semiconduc- tor properties of ZnSb and CdSb being compared. M. Ben Elieser- J  Distrt 4M.(g)/4E2o/4E2d(b) 2 070 trule compounds th kin o of the type A11Wv. T. Dultmitil, DHIiiii-.31a A cad. rep. PQPWdF# MR ones udio'ce-re-eUR wd. MNM t(1959).-Two compds. of the type A11BTV, U&SU aw (which crystallize In the reciprocal system of 81 and' Gt), wem compared in order to det.,lbe Influence of the lat. tlcc structure an tile sc e haracterlstics and In' e M, ;What way they vary ime column (of the periodic', ;table) %a a funedon'of the sit. no. of one of its components., The comptis, were prepd. by usl tile purest available com- nents, melting under a protecive layer of anhyd. M Cl anhyd. KCI 40, and NHXI 11 in a hite crul"IT111 R necessitatlut on initial excess of 101fir (21r.9 the can 01 Mv%) In order to achieve rigorous stoldilometric compn.,. then a thermal treatment (48 hrs. at 450-W. Inert atm I cooling to 2009 at 100/hr.). a subsequent more *dvzQ purification, and eventual production of a men The specimens underwent metallographle and mi=crotard.-I ness study. The semiconductor properties were detd. by, tom aring the resistivity. measurements, -by detn. of them elenond. variation with temp. (20-M*) and of the sign and value of the thermo-e.m.l. * SIncd Mg& was found to be a seralc6pductor, while MpPb has metallk properties, It Ilk not the'cr)st. structure which dtts. semicond. This transition (along the periodic table column) of semiconclac- tar propertle3 to metallic properties. can be explained bK the fact that the probAbi It for the electrons In the pedp tral hecollactloo level Into the valence level 'ay to of the element. Thus, at gro I the the char. ,tRUE I the 't tat, compds. can be predicted. 17 references. At. Ben Bfitsw-  fECSIS, Istvanne; FOKY, Jozoef Patka); FUZI, Dezoo (Budapest) Forum of innovators. Ujit lap 12 no,17:30 10 S 160. 1. Szegedi Ruhagyar ujitasi eloadojak (for Kofsis).  FOLLK) Feliks; P01MI9dICZ-KACaWtSKAp Jadwiga Narrow- and wide-pore silicagels as drying agonts. Przem ahem 40 no.12:702-705 D 161. 1. Katedra Technologii Chemicznej, Universytet Jagiellonski, Krakow. -  FOLIBY I.L. Pathogenesis of' muscular I-n Vestsi "1 11 1 AN BSSR. Ser. biial. nav. no.2:111-~-o t;+. (MIRA 17:11)  AutomRtic Micro bur e t f'~, r Fmp t- r I t. rar i C'n .Lab. dkl!O nc.8;507-509 161, (MIRA 18,9) 1. Sektor gerontclogi~-* (zav.- prof. V.A. Leonov); AN BSSSR --' kafedra andokrinclogii (znv.- dotsent N.11A. Draz.-lin) Belo---~5c!koga e,osudarst-venriogo izistltur.~l Rye Mul n9k.  Ak4345257 BOCK UPLOITATION S/ Fol'tl Ra?jilll Llrovna !-W, P-Inciri-es of visual flashing-Light sirviling (Ognovy4 vimuslIncry protleskoyoy I" Mo!lc ow, -zd-zo lHa3hinnstrovenlymn, 0 r f~., C 0, 1r n e,4 v wo CFV pies S rlas~~ )anr, photosensitivity, nignal 1 /-7 ,- ~hl-q b-ok was 'or r-5--a-cr r A '.n ~Jno! derelopipe,~, Ar~d le-s!cT -1 r c'.. r --ir 1. v z n f IA s ,)m ri or! Dr n c e c f! m 1: a Card 1/3