SCIENTIFIC ABSTRACT KESSLER, A. - KESSLER, YU.M.

KESSLER, A.; MARIAM, E.; PAULINY-TOTHOVA, V. The diffusion coefflciert of zinc in NaCl crystals. Chekhosl fiz zhurnal 14 no.1:34-43 164. 1. Institute of Physics, Slovak AcaderW of Sciences, Bratislava.  KESSLER, Arnost, Mr. CSc. Thermal resistances in multidimensional heat flow in electric machines. El tech cas 15 no. .4:205-212 164. 1. Institute of Physics, Slovak Academy of Sciences, Bratislava, Dubravska cesta.  @@SSLER, Arnost,- MIARIANI, Emil On the electric conductivity and dielectric Ions of "pure" artificially grown and natural NaCl crystals. Mat .1"yz can SAV 14 no.4:317-323 164. 1. Institute of Physics of the Slovak Academy of Sciences, Bratislava, Dubravska ceata.  Mg A3  _sL E: R, M Czechoslovakia/Phyoical Chemistry -- Crystala@ B-5 Abst Journal: Referat Zhur - ni iya. Vo 19, 1956, 60869 Author: KesslerY F. M.,' Vecerikova, V. Institution; None Title: Roentgenographic Staly of the Process of Thermal Processing of Petroleum Coke Original Periodical: Studium kalcinace smolneho a petrolejoveho koksu pomoci X -1-rsku, Paliva, 1954, 34, No 6, 154-162; Czech f;ations, chemical ele- Abstracti Performed were roentgenographic investi mental and technical analyses, and meaburements of electric re- sistance of 2 samples of coke from pitch (I and II), petroleum coke (III) and semicoke from pitch JV) before and after th@b`al processing at 1,3000-1,3800 in retorts of Glover-West type. X-ra:k diffraction patterns were obtained by the powder method with Cu-Kocradiation. For determination of radii of diffused interference lines of the patterns use was made of previously Card :L/:.4 Cz,echoslovakia/Phyaical ChoEanis"xy Crystals, B-5 Abst Journal: Referat Zhur - Khimiye., No 19, 1956, 60869 Abstract: described prociedure (Referat Zhur - Khlniya, .1.955, 8209). Struc- ture of all samples of coke is 2-dimensionalL graphite planes are irregularly oriented, Powder patterns of samples differ in in- tensity and width of lines. Thermal processing results in de- creased diffilzion of lines, especially line (004). From width of lines of powder patterns it was determined that dimEmsions of coke &-anules are increased after processing. Authors consider an index of calcined coke a content H - 0-15% regardless of the initial content (- 0-3-0.5% for I and II, and 4% for III). With decrease in H content after themal processing the electric resistance drops considerably. The authors consider that in the technologistl calc ation processit is appropriate to utilize specimens of cokelhe production temperature of which did not exceed 7000 so that the H-content be of not less than 0.5%. There was noted a correlation between granule dimensions of initial and calcined samples and their contents of water, volatiles and ash.- Card 2/2  KWSLERq F.; vECERIKOVAp V. "study of Graphitization of Resin and Petroleum Coke by Means of X Rays"# P. 188@ (FALIVAp Vol, 34, No. 71 JAY 1954P Praha# Czechoslovakia) I SO% Monthly List of East European Accessions# (EUL), LC, Vol. 3, No. 12, Dec. 1954, Uncl.  Far c6 M% 1 C T- 12 lcrv u r SL"03 rl-  oi@  Y Polaroc-.1phic determInation of wollybdenum in or- 'ujiri "sigu Am. .4 --J, 1-IG-W(1955) (Hugh4h sunintarli-A 11., polar.,:-raphic, mcfll@id wa% worktd out whkh serves " 16f; utvs contg. rruAlytillenita (1). (or critceritratri and for an orc@ which cuistain only true" of Mo. ni: samples 3,re dis- "AwA ill 11NO'. (licit rclicatedly brought to dr-5-ness with IICI to remove SiCh. then treated with NfI,,OH to remove re(OfIlls and A4011).. The Ali. is then brought to pff 5.0 with 14 M AcOl 1, and t1to 1wilarogratu, k obUined 3Acr rti@uvlng RU Olt, under N, protection, In the pmvice of ethylenediarninearetic acid. AcOlf, and AcONII4 at Pill al),iut 4.6. The nicthod mn also be used to det. Bi and Cu c-')Y- sk u b.1  C=w= 'OREKOV F. @JAAMA, k-411 1". M, 6 Vi-krul, vu;@i falit, 1955, Nn 3. pp 41=711!" b" I Ap@4 Cf@o (L@od.-n,. 0 11, 1 155 1ka5d)-Experi-t. - -- - --- -- -"t- " "'! . " the (Guawin, Pr k7l, .- @,j c-1 .,I" A O, that would adjust the dT dT theoretical values of AW and L 2-P contradicts experi- mental evidence. The authors conclude that in order to explain experimental deviations of the data on AW and T 2 from the Debye-Huckel 'Itheory@, it is necessary to consider the existence of ion-pairs and the changes in the structure of solutions affected by increasing concentration. There is 1 table; and 39 references, 5 Soviet, 12 German, 2 Indian, 2 Japanese, 2 Dutch, I French, I Canadian, 2 U.K., 12 U.S. The 5 most recent U.K. and U.S. references are; D. G. Miller, J. Phys. Chem., 60, 1296 (1956); E. GlueckaLlf, Trans. Faraday Soc., 51, 1235 (1955); J. B. Hasted, S. H. M. El-Sabeh, Trans. Faraday Soc., 49, 1003 (1953); R. A. Robinson, R. Stokes, Ann. N. Y. Acad. Sci., 51, 593 (!949); Card 2/3 J. B. Hasted, D. M. Ritson, C. H. Collie, J. Chem. cill tile 'Pheory rdl solution- of' 77 C6 1; A* Coiw' sov/62-59-12-8/43 Strong Elect-rolytes Phys., 16, 1 (1948). ASSOCIATION: N. S. Kurnakov institute of General and Inorganic Chemistry of the Academy of Sciences, USSR (Institut obshchey 1 -eorganicheskoy khimii imeni N. S_ Kurnakova Akademii nauk SSSR) SUBMITTED: April 7, 1958 Card 3/3  4 -,An Al 5 (4) AUTHORSt Gorbanev, A. I Povarovq Yu. hT., Sevostlyanov, E. S. SOV/20-125-6-30/51 TITLEt PERIODICAL: ABSTRACT: Card 1/4 Some Re6ularities in the Properties of the Solutions of' Strong Electrolytes (Nekotoryye zakonomernosti avoystv rastvorov sillnykh elektrolitov) Doklady Akademii nauk SSSR, 1959, Vol 125, Nr 6, pp 1281-1284 (USSR) The authors state that it is possible to explain the deviation of the properties of electrolytes from the Debye- Hilckel-law only by taking the specific ion interaction into account. On the basis of assumptions made in an earlier paper (Ref 4) the contribution f of ion interaction is given 0 as amounting to ln f. = A7ra3Bc - B@jc (1). [a = r + r_ 3 + the sum of the crystallographic radii of the cation and anion, B - 6.024- 1020, P, - coefficient taking the solvation energy of the ion pair into account (Formula 2), c - concentration]. The deviation lg f exp = lg fD - lg fc (f exp =experimentally  Some Regalarities In the Properties of the SOV/20-125-6-30/61 Solutions of Strong Electrolytes BPjo and b (dipole effect) as well as g (charge interaction) resulted in no connection in the case of water. On the basis of data (Ref 7) for formamide the valuOB of B@jc in a formamido solution were calculated and represented as f(a) and f(b) (Pig 3). The authors, however, emphasize that this connection, which now becomes apparent, may be due to a misapprehension. It happens that the salts for which data in formamide are available, show a continuous connection between a, b and g (Fig 4). Thus, the real argument of the function BP1 c can therefore only be one of the variables a, b, g. In order to clear this up, it is necessary to determine the values for salts which do not fit in to the curve of figure 4. There is no connection between a. b and g and the deviation from the law of dilution heat. The dilution heat is influenced in the same manner by the various effects of ion interaction. In this case the entropy terms of the equation must not be omitted. There are 4 figures and Card 3/4 7 references, 4 of which are Soviet.  Some Regularities in the Properties of the SOV/20-125-6-30/61 Solutions of Strong Electrolytes ASSOCIATIONt Institut elektrokhimii Akademii nauk SSSR (Institute for Eleotroohemistxy of the Academy of Sciences, USSR) PRESENTED: January 14, 1959, by A. N. Frumkin, Academician SUBMITTED: December 26, 1958 Gard 4/4  AUTHOR S Gjorbanev, A. I. Kcss@@er, Yik. m. TITLE,. Brief Cornmunicat.Lon-c. c n c e r n i n Effec?l- on :he Structure c` Waler, -a -a 1,o n o PERIODICAL lzveotiya Akauemli nauk SSSR. nauk, 1960, Nr 2, up I40-AILi mI!--, S S R ABSTRACC P It was shr.,wn by a serles r)C 1--cansformatic-r-is ,@-hat the mel-@no-i for calculal-ing effect on ihe sl@ructure cf water, prcoooed ty 1. 11. Ml-khay1ci and Yu. P. Syrnilcov ,Ves@ri, Leningr- i;niv- Nr '@.,D, Serlya flzlki I khlmli, %,yp. 21, Elnj 1wor-es*,Irg fr@,,rl tJie 1A ai I aT nu- auan,@-i- ra@l.vely L, 12 exprc--sse,:; c r r ec fne,:- is I Scvlet reference. ASSOC'AT"N: Ins' 1@ute of Acaj-ry i," 3@-lerlces USS,@ Akai,.lemil r,-juv S)33p`@ SUBMiTTEDT un@- 23, -11959 a r d I  SINYAKOV,, Yu.I.; GORBUM, A.I.; POVAROV, lu.M.; KESSIZRp Tu*M. Den3ity of H-mathylformamide. Izv. AN SSSR. Otd.khim.nauk no.8:1514-1515 Ag 161. (MIRA 14: 8) 1. Inatitut elaktrokhimii AN SSSR. (Forma.mide)  34824 8/020/62/142/005/015/022 S7 0 B110/B101 AUTHORSs Alpatova, N. M., Gorbanev, A. 1,, Ke-.9sler, Yu. M., and Lozhkina, L. G. TITLE. Physicochemical study of complexes between alkyl (aryl) chlorosilanes and halides of tetrasubstituted ammonium PERIODICALt Akademiya nauk SSSR. Doklady, v. 142, no 5, 1962, 10'15-1076 TEXT: The authors studied the complex formation between CH 3Sicl 3 (1), (CH3)3Sici (II), C 6H5Sicl 3 (111), Sicl4 (IV) with NaCl (a), NaF (b), KF (c), CsCl (d), CsF (e), NH 4 Cl (f), (CH3)4NCl (g), (C 2H04 NBr (h), (C H 4 9)4 NCl (i), (C4H9)4 NBr (k), (C4H9)4 NI (1), ethyl pyridine bromide (M) by chemical analysis (for hydrolyzable Cl, and argentometrically), con- ductivity measurement, and visual observation of the dissolution. The synthesis was conducted in Ar atmosphere at 35 - 400C during 3 - 12 hr. depending on the dispersity of the salt. 1, 11, 111, IV reacted with e, h, i, k, 1. With halides of teturasubstituted ammonium salts, complexes Card 1/4  3/020/62/142/005/015/022 Physicochemical study of complexes ... B110/B101 are formed if the alkyl radical is long enough. Their ability to form complexes increases with decreasing anion radius. In I and II, which behave similarly, i dissolves with formation of two layers, The one has anarganosilicon compound: salt ratio of 3:1 (viscous. at room temperabze supercooled, colorless, or yellow liquids), the other a ratio of " 4011 (movable, organic compound with some dissolved salt), Dissolution of k is analogous, I yielded no complexes, only slight ye:low coloring, and a slight increase in conductivity of the organosilicon compound, IV behaves like I and II but forms poorly fusible complexes. i and k dissolve in III without layer formation to give a yellow solution with high temperature coefficient of solubility. The solubility of i in III is much highrr than in I and II, the conductivity x = 2.7'10-'4 for III:i = 5.4 : 1 (unsaturated solution); X = 7.4@10_5 for III:k = 45 t 1 (saturated solu- tion). In the system II-i the layer composition does practically not de- pend on time and temperature. This Is confirmed by equal conductivities of the isolated complex and the com@lex together with the second layer. Tne behavior of [ (CH 3)3'3iCI13(C4H9 4NC' to solvents provts a strong-ir bond of the one molecule than that of the other two, Si was not separated Card 2/4  S/020/62/142/005/015/022 Physicochemical study of complexes BI'C)/'B-,O-- off during, eleztrolyols of thFj nyntP:Tn T@ @j I I I f-1 1 1-0, Olnl 'it" cJ i anil V in I tit 1) 0-21 4. 10 a/di,,, Low-rpsistance, p-ty-.e silicon was dissolved in the systems I-i; II-i. and the solution of i in III, In 'he [(rH 3 )3SiC'13(C4H9)4 NCI complex and' its benzene solutions (I mole of 2 complex : 10 moles of benzene) at D a ' 4 a/dm ,silicon diG2olves with almost 100 % current yield (referred to Si 4+). Complex formation, layer formation, extraction of two (CH 3) 3SiCl molecules by aliphatic solvents, the dependence of the complex formation on anion radii and cation dimen- sions, the anodic behavior during electrolysis are similar to the behavior of analogous Al compounds, the cathodic behavior during electrolysis is different, There are 3 tables and 10 references: Soviet and non- Soviet. ASSOCIATION: Ins1itut elektrokhimii Akademii nauk SSSR (Institute of Electrochemistry of the Academy of Sciences USSR) PRESENTED: October 7, 1961, by A, Ti. @,rumkin, hcadt@mician Card 3/4 r7l  S/020/62/142/005/'015/022 Physicochemical study of complexes B11O/BI0! SUB,'ITTED: October 2, 1961 Card 4/@j  GORDANEV, A.I.; KESSLER. Yu.M#; KRYLOV, V.V. Effect of the structure of strong electrolyte solutions on thermo- dynamic properties. Zhur.strukt.khim. 2 no.3:260-267 My-Je 161 (MIRA 15:1@ 1. Institut elektrokhimii AN SSSR. (Electrolyte solutions) (Vemistry, Physical and theoretical)  POVMV,, U.N.; GORBANIV, A.Ipj XMIAR, TU,,M,; SMNOVA,_ I.V. Activity coefficients of cesium chloride in N-methy1formanids. Dokl, AN SSM 142 no, 5:1128-lM 7 .162, (KMA 1512) lo Institut alektrokbi-ii AN SM. iredstarleno akadsmikom AJXrumkirqaio Cesium chloride) Formpaide) . Antivity coefficients) i  KESSLRR, Yu LIFIlaTIN) N. P.1 NUCHINSKR, Ye. M. !T!@@ Solubility in the ayotem water - oulfuric acid - p-chloro- benzenesulfonic acid. Zhur. ob. khim. 32 no.12,3871-3876 D 162. (MIPA 16: 1) (Banzoneoulfonic acid) (Sulfuric acid) (Solubility)  -KESSLERL Yu!,14-i POVAROV, Yu.K.; GORWEV, A.T. Problem of the aalting-out effect* Zhurestruktokhimo 4 noolsloo- 102 Ja--T 163, (MTRA l6v2) 1. Institut elektrokhimii AN SSSR. (Salting-out)  SEUSTIYANOV.,.E.S.; GO.RBANEV,, A.I.; g@91Xar4A.IL-(Moscow') Apparatus for measuring electric conductivity. Zhur. fiz. khim. 36 no.33644@645 Mr 162. (MIRA 1718) 1. Institut elektrokhimii AN SSSR.  GOLIDSHTEIN, I.P.; KESSM. Tu.M.; POVAROV, ru.M.; GORBAME7, A.I. Dipole moment of N-mthylformamido. Zhur.strukt.khim, 4 no,3t 445-446 )@r-Je 163. (MIRA 16:6) 1. Inntitut elaktrokhinii AN SSM. (Formamide-Dipole momen@B)  GOLIDSHTEYN, I.P.; ALPATOVAv N.M.; KESS R -Yu.-M.; GURIYANOVA, Ye.N.; GORBANEV, A.I. 9 -t- Interaction of hydrogen chloride, tetra-u-butyl ammonium chloride with trimethylahloroollame In benxene solutions. Izv. AN S&9R. Ser.khim. to.9tl683-1685 S 163. (KIRA 160) 1. Institut alektrokhimii AN SSSR. (Ammonium compounds) (Silane) (Hydrochloric acid)  POVAROV, Yu.M.; KAZARINOV, V.Ye.; KESSIER, Yu.M.; GORBANEV, A.I. Solubility of AgOl in solutions of NaCl and CeC1 in N-mathylformamide and in formamide, Zhur.neorg.khim. 9 no.4: 1008-1010 Ap 164. (MIRA 17s4) 1. Inatitut elektrokhWi AN SSSR.  POVAROV, Yu.M,; KESSLER, Yu.M.; GORBANEV, A.I.; SAFONOVA, I.V. Thermodynamic properties of solutions of strong electrolytes in solvents having high dielectric constants. Dokl. AN SSSR 155 no.6tl4ll-1414 Ap 164. (MIRA 1714) 1. Institut elektrokhimii AN SSSR. Predstavleno akademikom A.N.Frumkinym.  KESSLER, Yu.M.; ALPATOVA, N.M.; OSIFOV, O.R, Electrochemical and physicochemical prcperties of aluminum compounds in nonaqueous solutions. U3p.khim. 33 no..7:261-295 Mr '64. (MIRA 17:4) 1. InsU'zut elektrokhimil AN SSSR.  AlThTLOVA, N.M.; Yli.M. ................, narpounds of silicon. 2:rar.strl;kt.khim. 5 no, 2@- 332-353 lAx-Ap '64. (WRA 17:6) 1, Innti'llit elektrokhirii AN SSSR.  ALPATOVA, N.M.; USSLER, Yu.M.; GORBANEV, A.I. Interaction of hydrogen chloride with halides of quaternary ammonium salts. Izv. AN SSSR. Ser. kh1m. no.8tl369-1372 Ag 164. (MIRA J?tg) 1. Institut elektrokhimii AN SSSR.  POVAROVF YU.M,@ KESSLER, Yu.M.; GORBANEV, A.I. Thermodynamic properties of strong electrolyte solutions in solvents with dielectric constants. Izv. AN SSSR. Ser. khim. .no.10:1895-1896 0 164. (KMA 17:12) 1. Inctitut elsktrokhimli AN SSSR. o7r,  FAIZIEVAy LeYes; U.@SWj lu*M,.j POVAR07j, Yu9M, Activity coefficients of sodium and cesium chlorides In a mixture, of formamide with ace'=Ide at 250 C, Elaktrokhimiia 1 vo,7t822--827 ji 165, (MIRA 18 tio) le Institut elektrukhimii AN SSSR*  ALFATCVA, 11-44,@@SLER,, Yu.M.; G(IREAW-V,, A.I. Anodic behavior of siltoon In some notyiquecua oolutl.,.-ons. F,lf-kLr,okh!-ndta 1. no.7:8"-850 J-L 165. (M--MA IWO) 1. InaLltut t)lektrolddmdi AN SSSR.  POVAROV.9 N.M., Yu.M. -, GORBOEV, A. 1. Trvt),,aodynamic praperttim of utrong alsetrolyte solutions in solventis with high dielectric constanta. Rl.aktrokhimila 1 no.10:117/,-1181 0 165. (MIRA 18:10) 1. Insti-tut olektroknimil Ali SSSR. U 3,