BINKO. I. (Chekhoolovakiya); KOLARZH, Ta. (Chakhoslovakiya); W~_,&_K, - (Chakhoslovaki7a); PONCHIK. I. (Chekhoolovakiva); RUZHICHKA.'_i'-_ (Chekhosl9vakiya) Some little-known orientakl tannins. Kozh.-sbuv. prom. ne.5:35-39 Ky '59. (MIRA 12:6) (Tannins)  NEXWOVI L.N.1 MULLER, L. GathmUc reduction of oxygen on platinum in all-line solutions studied by means of a rotating disk elec*ode vith a-ring. Dokl. AN SSSR 149 no.5-11M-1110 Ap 163o (14IRA 1635) I* ~bskovmkly gosudarstvennyy universitet im. H.V.Lomonosova. Predstavleno, akademikom A.N.Frumkinym. (oxygen) (Reduction, Electrql;tic)  WULLER, L.; NEKRASOV, L.N. Electrolytic reduction of oxygen on a smooth platinum in acid solutions studied by means of a rotating disk electrode with a ring. Dokl. AN SSSR 154 no.2:4)7-"O Ja'64. (W RA 17: 2) 1. Moskovskiy gosudarstvennyy universitet im. MS. Lomonosova. Predstavieno akademikom A.N. Frumkinym.   HELIER, L.;. NEKRASOV, L.N. Electrochemical behavior of hydrogen peroxide on platJ lir. Zhur. fiz. khim. 38 no.12:3028-3030 D 164. (NIRA 18:2) 1. Moskovskiy gosudarstvennyy universitet imeni M.V. Lomonosova, Khimicheskiy fakulltet.  MITILLER, L, , j Effet~t of twc--cnq,-ge cazlo~-.s or. ',he pronaps -st .--ducti~_n on plG'~num in alkaline sol-_,'ton. E_-E-ktrokh,,mJ'_a 1 ja 10.' 5. (11TRA 187r,) 1. Moskovskiy !~riv-.I!il-'.  83571 9/056/60/038/005/004/'050 B006/BO7O AUTHORS: yuller L. 0 TITLE: Investigation of the Structure of the Main X-Ray K-Absorp- tion Edge in Selenium PERIODICAL: aburnal eksperimentaltnoy i teoreticheskoy fiziki, 1960, Vol. 38, Mo. 5, PP. 1381-1362 TEXT: In order to investigate the K-absorption spectrum of crystalline and amorphous selenium, the authors used a spectrometer with a bent crystal having a diameter of 41.6 am; the absorbers were vacuum-evaporated or powder films 4 - 160 4 thick. The position of the main absorption edge for crystalline selenium was found to be at K = 12652.6 ev (977-86 X), which agrees with the results of other authors. According to the method of Sandstr6m, the width of the main absorption edge was found to be 17.2 ev (1-33 X), which is essentially different from the value of 7.9 ev obtained by W. Zinn following the method of Ross. The "white" line was found to be separated from the mainedge by 5 ev, and the "black" line by 13 ev; this agrees with the results of Ref. 3. There appears a noticeable "structure" of the main absorption edge with increasing thickness of the Card 1/2  83571 Investigation of the Structure of the Main 3/056'60/0 3 8/00 0 4, 05 0 X-Ray K-Absorption Edge in Selenium Boo6~BO70 absorber. This structure was observed by E. Ya. Vaynshteyn ot al. on the short-wave side and explained by him; the authors of the present work have found such a structure also on the long-wave side (cf. Fig.). When the thickness of the absorber was increased to 160 A , the point of inflection of the K-absorption e4ge was shifted by 1.8 ev toward the short-wave side The results of investigations for amorphous selenium are collected in a table. The observed shift of about 4 ev for A K agrees with the results of Ref. 9. In going from the arystallino.-to the amorphous state, the width of the main absorption edge increases by (4.65 + 0.5)ev. The selenium investi- gated had a purity of 99.9%. Even small impu-rities complicate the observed effects. There are I figure, I table, and 9 references: 1 Soviet, 4 US, 1 Japanese, 1 French, 1 British, and 1 Danish, ASSOCIATION: Institut atomnoy fiziki Rumynskoy Narodnoy respubliki Bukharest (Institute of Atomic Physics of the Rumanian People's Republic, Bucharest) SUBMITTED: October 16,1959 Card 2/2  LIvsHrTS. G.; MOIMIIDV, B.V,:MYULLFA, N.N.- SAVOSTOYANOVA, N.A. .,~ cp;~i - " Kschaniss of ordering In 913 Mn &1lors with var7ing mol7bedemim. Fis.met. I metalloved. 3 no.3:477-462 '56. (MLRA 1013) 1. Moskovskiy institut stalt. (Nickel-magnese-mol7bdanum alloys-Metallography)  A UT 110 _R S Livshitq, B '~yuUe r, 11. N. 7 TITLE: The InvestiEation of the Phase Equilibrium in t..e Cobalt - Chromium - Aluminum f .-.0vo"C' ravnovesiya v si5tt~me kol.al ' t - khrom - alyu'fli.l, PER, I OD T C AL Naucnyye doklaly vyssney s,kolly. Metallur,--/7~, 2-)' - 2o6 'USSR) A S T R A C T In the present pa- er the diagram of the phase e i.uUJ_ librium in the system Co-Cr-Al was determined. Witi-in t-,e range of concentration of the triangle C -Cr-Al the ranjes of the a+@ .-phase weie investik;ated bused on t*,.e resul-.s ob'e-ined; this was done by conssir- ti-e three isot'le=-.al sections at 12~_)Oo, 100,30 and 9006. Furthermore phase equilibrium at 12500, 101100 nd 8000 C was investiE~ated. The samples investi,-_-ated wern at t-e respective temperature-. for and 128 hours. The investi.-ations were car,`,j out by micro-ztrlirtural analyses and x-ray sirl,ictl~rai analyses, s well as by determinin.- their 112 lcys investi~ 'J, Card All al _:at;d may be div4-ded into two  -~e e Investigation of V Phase Equilibrium in tne SOV/ c S~~stem Co-.alt - C:~r3:._!,z:% A1,1mi-Im in homoLer~ecus :,nd -etej-)j,,c,~!erus alloys. T.--.;i- have two and t*,-.ree o-sases.. T e resiilts o'lta~:~ed made po2sible tI,e determinatIon of limiti-c Dhase rFn-eo in the inves~i,ation of ti.e for the cobalt corners of th~_, diagram Co-Ci--Al. When the tempe-ture is decreased from 12500 +0 i0- the phase ray-, a+9 widens viith an increase of -..e aluninum content, the mono-phase ran,~~e of 9 decreas(_.s with an increase -jf t%e chromium corte:.t, and t*.,-,e phase rant:e of E is lar,~;er at 12500t- an at 1 T" e r e a r ef i ~,- u r e and 4 re_.ere%-.cef:, is v i e t ~A SSOC !AT IjN: L t :14 ut st -A i (Loccow Steel 7.-. ~;t i t,,t e B. I T T ", D0 ~ t ol P r )')7 21, 2  MASZ 1 WCA ZIPWITATION SCV/4T82 Moscow. Institut stall ftmlgVodetvo I obrabatka stall I aplavoy (production =4 Troatmect or steel and Alloys) Moscow, Metallurgizdat, 1960. 462 p. (3oriess It*% Sbarnlks 39) 2,100 copies printed. ad. & To. A. Borkol &d. of Publishing Houne: 3. L. Unger, Toth. Md.s M. R. Kloyraman; Z41torlal Coancll nf the Institutes M. A. Gunkov. Professor, Doctor of Technical S.Ionces. R. H. Grigorsam. Docent, Candidate of Technical Sclancoo; V. P. Yolyutin, Professor, Doctor of Technical Icionceaj A. A. Zhukhovitakly, Professor , Doctor or chouicni sciences; I. x. Kidln. Professor, Doctor or T*abnlc&l Sciences; B. 0. LivalUts, Prorossor, Doctor of Took&- oI4&I ScIenecol A. P. Lyubimov, Professor, Doctor of Technical saienaeaj 1. It. Favlov, Corresponding Member. Academy of Sciences UM; and A. N. Fakhvionew, Professor. Doctor of Technical Sole-s. POWCOSs ftle book Is Intended for technical par-sonnal In industry. solentifto Institutions and schools of higher education. dealing wIth Open-hearth and alectrio-furnace steelmaking, metal rolling, physical Metallurgy. motallography, and beat treatment. it may Card VIC also be used by students specializing in these fields. CCVXRAGXx The back Contains results of theoretical and 4j;por3ment- &I In"Stigatlons of metallurgical and heat--incer-Ing pro4~ 3 In open-hearth and electric furnaces. Data are Included on th:13 followIngi desulfurizing of pig iron outside the blast rurnftce. Interaction or oaades of the carbide-Corming metals with solid carbon, the change of content or gance In the bath of the open- hearth furnace In varlous parloda of malting, IntenolflQation or the electric aaltlng of steel, ato. Other articles d.a.I with the oonuolformlty of deformation In rolling. the study or the ocatInuous rolling process, rho depandenco or the friction- slippage coefficients In rolling on a number of factors. and other problance In the prosaworking Of Metals. Articles On physical metallurgy and the theoratloAl principles and techniques or the best treatment of steel are also Included. No parsonall- Use am mentioned. References accompany moat or the articies. there are 20T references, both Soviet =a non-Soviet. Card VIC or, g"didat. of Too Sol- C L graphfj~ Investigation of the Phase ftullibrium In the CO-Cr-Al SySts, 26T _J~LA~ 51-halft. Candidate of Tochnicaa Sciences, and 1. A. lachikovich, Engineer [Department of Physical Metal- lure-Wrd-Iftat lrefftxantl. Kinetics of the Inotheroal Trans- formation or Austealts Generated During Induction Heating, In RaLl-boaring Steel 204 berasht"no M. Z- Docent, Candidate of Technical Sciences, ?j:RZ'=jph0vK- Engineer (Department of Physical Metallurgy ::d moat Tr..t=~. - iff.at of Conditions of Austoo4tlzln6 on the Tendency of Steel Toward Temper Brittleness 297 Z"Myuller, M. 9 , and a 1. Xrimer Candidate of Technical Sol- once& (Lop"ont Properties or Co-Cr-Al Allays 306 Ildlo, 1. 9. Relationship Between Carbon Concentration In card ?/ Lo  83290 2 so ISA500 S/14 60/000/007/011/01-1 2- V)'& A161Y4029 AUTHORSs Gorelik, S.S.; Kyuller, N.N. ji 4. -_ TITLE: Dependence of ~~aryChromium Alloys Recrystallization Temperature on Alloying Components PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Chernaya metallur- giya, 1960, Nr 7, pp 146-155 TEXT: The temperature of beginning recrystallization shows approximately the heat resistance of metal, and the effect of different additives is of practical interest. The effect of B, Be, Al, Ti, Fe, Zr, Nb, Mo, W, and Sb on the temperature of recrystallization beginning was studied here, as well as of chromium smelted by different methods. The composition of the studied alloys and Cr are given (Tables 1 and 2). The alloys were smelted in alundum crucibles in an induction furnace in an argon atmosphere and poured into a copper ingot mold; an unalloyed Cr ingot was prepared in the same way. The distribution of alloy elements was determined by spectrum. analysis, the microstructure by electrolytic pickling in 10%-HC1, the beginning recrystallization temperature by the X-ray method which is A Card 1/3  83290 3/14 60/000/007/CII/01A, A161YA029 Dependence of Binary Chromium Alloys Recrystallization Temperature on Alloying Components usually employed for investigating the recrystallization of high-melting and brittle materials /Ref 1/. The article includes details of ex- perimental techniques. The data obtained led to the following conclusions. 1) Addition of small quantities of Mo, W, Fe, Al, Be, B, Ti, Nb, Ta, Zr and Sb Z0-.03-5% (atomic),7 raises the beginning recrystallization temperature, or 11-t9" (4), of Cr. 2) For binary allgys that have one phase in this concentration range, the increase of tr was 20-100o C. It is proportional to the effective atomic diameter difference of Cr and the alloying element. In aging binary alloys tb rai�es by 200-2500C. Aging r Cr-Ti, Cr-Ta, Cr-h-b and Cr-Sb have the highest tu (1,000-1,0600) and a recrystallization temperature/fusion temperature rratio above 0.60. The abrupt increase of tb in these alloys is due to the inhibiting effect of r the second phase on the growth of forming crystals. 3) In single-phase binary Cr g1loys containing several atomic per cent of the alloying element, t depends on the way this element affects the strength of the r b interatomic bond. If the bond strength drops, tr decreases and may be Card 2/3  83290 3/148/60/000/007/011/01c, A161/AO29 Dependence of Binary Chromium Alloys Recrystallization Temperature on Alloying Components below that of Cr, as for example in alloying with iron. If the additive raises the interatomic bond, the recrystallization temperature rises, e,g, in alloying Cr with tungsten and molybdenum. Repeated remelting of' Cr in a neutral atmosphere without crucible, and reduced saturation of Cr by gas and products of the reaction with the crucible material, lowers the re- crystallization temperature from about 800 to 7500C. There are 5 figures, 4 tables, and 6 references: 4 are Soviet, 1 English and 1 German. ASSOCIATION: Moskovskiy institut stali (Moscow Steel Institute) SUBMITTED: November 5. 1959 Card 3/3  8/03 60/026/009/003/0-8 B01 5YB058 AUTHORS: caller, N. N., Bernshteyn, M. L TITLE. Application of the Microscopic Method for Studying Structural Characteristics of Real Crystals PERIODICAL: Zavodskaya laboratoriyal 1960i Vol. 26; No, 9, PP. 1084 - 1086 TEXT: The structural characteristiOB of samples from refractory aus tenitic-0395 (EI395) steel (16% Cr, 25% Ni, 6% Mo, 0.1-0.2% N 2~ 'up 0.1% C), from the refractory N4437 (B1437) alloy of the type "nimonik-80", and from metallic deformed chromium, were microscopically investigated, The E1395 steel was hardened at 12000C, cold-formed, and subjected to aging for various periods at from 5000 to 7000C. After differential thermal pre-treatment, the polished sections were electrolytically etched. On the basis of photographs (Fig. 1) of the microstrunture 'it is stated among other things that the microscopic picture obtained is to be explained by the dislocations of plastic deformation. The E1437 Card 1/2  Application of the Microscopic Method for S/032/60/026/009/003/018 Studying Structural Characteristics of Real B015 B058 Crystals alloy also underwent thermomechanical pre-treatment and electrolyti,- polishing. The structural pictures (Fig. 2) also show "pitting beads' at. the grain boundaries, like in E1395 steel, and it is stated that at first gliding only takes place on grains suitably oriented in corresponden-,e. The etbhed spots are in no connection with a possible phase formation. Metallic deformed chromium underwent "thermal etching" '. i.e., heating in the MU-2 (MVP-2) furnace in helium- or argon atmosphere at 15000C f--)r 12 or 24 hours. The influence of inclusions on gliding can be seen ir Fig. 3 and it follows therefrom among other things that the deforming influence of inclusions on the configuration of the gliding structurr~ ~_z also visible at some distance from the inclusion. The change of the direction of gliding at the grain boundaries of metallic chromium is shown in Fig. 4. The present experiments showed that a propagation -f deformation from one grain to the other does not take place in chromi-)m in any case, which is in accordance with the brittle charactor of hr~- mium rupture. There are 5 figures. ASSOCIATION: Moskovskiy institut stali (Moscow Steel Institite; Card 2/2  LIVSHITS, B.G., doktor takhn.nauk; MULLIR, N.Y.. ksmd.tekhn.nank Investi&tivg phase equilibrium in the system Go - Or - Al. Sbor.Inst.st&li no-39:267-283 160. NIRA 13: 7) 1. Kafedre metallogrefil Moskovskogo ordena Trudovogo Krasnogo Uameni. inatituta stali im. I.T.Stalina. (Cobalt -chromiunk-&lumirm- allay a-Me tallogre-phy) (Phase rule and equilibrium)  HOLLIR, U.N., k-nd.teIdm.nfuk; KRIM, B.I.. kand.takhn.r-u Properties of cobalt--chromius-aluninum alloys* Sbor.Inst. still n0-39:306-314 160. OU3& 13:7) 1. lafedra metallografit HovkoTskogo ordens TrudoTogo Irasugo Znmenl Instituta st&li Lm, I.T.Stalin&- (Cobalt-chromium-alumium alloys)  100 27239 S/14d/61/000/003/010/015 A161,4133 AUTHORS: Myuller, N. N., Orlovskaya, Ye. Ye., Panchanko, Ye. V., Strag, Ye. M. TITLE: On the anomalous change of ahmmitbu properties at room temperature PERIODICAL: Izvestiya vysshikh uchebnykh zavedenly. Chernaya metallurgiya, no- 3, 1961, 134 - 137 TEXT: The results are given of an experimental Investigation-with chromium of different degree off-put%ty-ftlong with ref erenoes to data of two English-language publication3 concerning analogous studies. 4-ohart gives the content of impurities in a few of the studied chromium specimens, determined by spectral and gas analysis The anomalous effect of-volumetric changes in specimens with different impurity contents reached ita-maximum in the temperature range, of 20 - 460C, and the ob- servations confirmed ti-,Le data of Fine, Greiner and Ellis (Ref. 1: J. Metals, 191, 56 1951) in respOot of the effect of impurities. Anomalous electric resistance savior at differaht temperature points was also stated, as well as points of anomalous t.e.m4t. It isapparent that the anomalous electric resistance and t.e.m. f. variations afe connected with a peculiar interaction of chromillm electrons with the electrons of the impurity atoms and dislocations. The artiale inoludes three Card 1/ 2  A 27239 S/148/61/WO/()03/010/015 On the anomalous change of chromium properties at 1.. A16l/A133 graphs showing dilatometric curves of chromium smelted under different conditions, dependence of the electric resistance on temperature, and the depowdenoe of t.e.m. f. on the temperature in chromium that had been melted in different ways. Conclus- ions: 1) Anomalous changes of ahromium properties (contraction of vQlume, drop of electric resistance and of t.e.m.f.) has been revealed in the temperature range of ~P - 460C; 2) The nature of the anomalous effect of property chw,groU and the temperature point of anomaly are connented with the purity of n~iromjilm and the anomaly is the more pronounced the purertik chromium.There are 3 figures, 1 chart, and 3 references; 1 Soviet-bloc and 2 non-Soviet-bloo. The two refere ences to English language publications read as follows: Fine, Greiner, Ellis. J. Metals, 191, 56, 1951; Pursey, J. Inst. Met., April 1958, P 362. ASSOCIATION: Hoskovskiy institut stall (Moscow Steel Institute) SUBMITTEW August 31, 1960 Card 2/2  2-' ; - S/1,8/1;1/000/005/007/015 E07-5/E:1~`1 N, N 1"T ji 0 P.5 TITLE f I PER1 flu II-L' t. h eiii Chernaya t 1 31 AXT, I,- tthor estab) 1h c d I n c:, r 1 3 1 work (Ref 1~ Izv. %. I-sshil,h ii:-: -! -i I "deiii , , th e r n a e r~ 'I I it r gr i y a , 1960 , No ~ 7 ) It ~' at - 1, r ':'11 , I-, I, I% I ur I r " -I I (-,I ,, U t I ru,-- ib] e possesses .1 r P I a t v t-! J v v -i ~ t a I I I. i a t i , n i a r~,- L r e . I /T f z 0 . 48 - rf ~ I I s '- (I I 1 -5 ' I , 1. 1 if h - r th,in 1h(, L. I I ~ 1, ri,ii;ig ratio for other we f I h- -.ij - Of p 11 r C I pos.91 b1 I I t y tha t ~he *e f ea t u t 5 o r i z~%tioii :,f' 1! r ro I I., I and of its allojs I ILL e r ~3 t L it r- q t r!j f~ ;i thf~ deformed T.-I n t. 1 --,3 r r i e d Q 1.L po; - ; k - i i rve s I: i ga t inn s ~ 1, he ch iin z F l. 0 j 11, ,- tul e ,III Ing i~-! o. 'n--1 tioll of "Ir-OrIll 11th '~fld Of C,!: C I -, ', .: ti'l d I S '. C, I I r '.111 The y all.-11 'zi F! d W I d t-, I I - 11 g Yr -I j n P 9 1 11 1 )1 - d k. f (, r it. c. d s t. a t- e t h j F p e r - -I t) n o t t n-- st ru-- ture and (v (lei vi initte at 6 115  ~klr I- t :it I h I 10~ 'kila I of t0f, rill a r d Pn t-d ro m ii Lm a nIitjj ~j 9 iv oii pt i i t!ti s w o r k i i def r ni,~ 1 n ti rwc! u ta Ywi 19 c) c, n s i~ it W.) I Ik Ilardenea b., 11 r f I L S -1 1.1 7 : nk.).- I -kIiISfT11 , II I1113 1 r~ I 1 11e P;) w c-r ,i,-foTnir,d i n % nit, t iiwit t-,i :io r ;3 1 o (JI u t- i t i v itv v n .~ i r; t I , ' (,- rill o n a L ho X - f ~ a t ii -~i i, ~ r- t-- ma (I i. n I in d a I Yi a n rjD i ii d , t, i,re 1 c r c,, j 7 e sian (A r d p t: w I v- r ~-, I t h e i I iIt ean i i e e d s 1. a t e i, a z, u5e-l Cr - f f- In ad'i I r I oil t I--. t 1 0 '11 :A'r, :j p o e: i w t- n s .C r F e (2. F ) an I C r - Ta ,,I% T& )I lovs -z*? I IC" 1 11 a t F (I Undar tht, iondi t i c) r. .9 o f 0 )' 1) ~- S u I E! i tfie -- i n e s t r i~ Ina r d qn d iro i, A a F: de ( e r m i n c- d t h e I rprIva - pro(III.- e d L' y fl 11 11 v Thi~ t, i d en t n z anal -,r-sed 1) y hp Irima t i on me 'hod u ~ ii i (,y a s a ri ap r i r,-) x i mo t e f Lin c t _i o n I / I + xii- a I '.. u I a t I o n I... a S c a r r i ed out by co;:;parinv the widening a f t h,*~t( 1 1-0 )a and ( 2 11 )a . usl nit t he rad !a t iota froin a , liromium a I Ic, -,, he rbtained results indi cate that d e [o r ma t i o n c f c h r.D r. i u ii a c - o m p a n i e I ba s i c a 1 1 y by di.'3persion of the struc tLI.re and i t I -,;3 to the rreation of sli gh t ela s t i c s tre2ses wh j c h ar(. :zu ( I i ha t the -i uo no t have an influpnce on the widening of the X ti,' -i i i frac t.ion I ines This conclusion is Card 2/ 3  Fra!urr,~ h+- cft.ln.tt: in tile S/I VVOKO/005/007/01 i 2073/E535 c,)rrect olso io. -hi.. inveatjl.~ated Cr-Ta and Cr-Fe alloys and conclusive evt,-I-rice of the correctness of this conclusion 3s tii,~ f.,3,c--t thot nnal~sis of deforitind iron grave an oppatiite result, nAlne I I ill the uj0enin,v.,3 proved to be due to microstrr~,,ses Tht- follovin u (-ot,clusirms are irived ati I Me Structural ~ ranxe-,i durin)~ d,iormation of chromilim -Ind it,,, allois ra-ilrilly conc~ist in refinirl~, ol the structure. The inLCrO- itre5tls~6 ir,e relati vely Ik)%-4 arid do not have an,i infllien(e on the Widening ~)f the X I a rli f Cr a c t i on pa t t ern -s The a 9 Sulno t 1. on 1.3 expr,a6.ied that the hi~s--h relfitive recrystallization tenipcretturr- ( vr/I, i us - 0, 4 11 ) 1 9 ivith the low valid- of the stressee arid the weal-f-ried rele of elastic clLstortions in a,:celeiatiti 'P recr~stallizatiori rhe letter ptoceeds basicaLly as selective r e~ r j s f a I I i zpk t i on whi cli i. a a t imul a ted -,; i mA r i I :, b~: the t(-nden,.-Y (if t1te systotit tn be in a state for Wiich tnr., surfac'e energy of thi, 5:-;Tew ii et! a minimum There are I table atid 3 rpfer~-ncoq~ 2 S(Y-1'1#`t'bIOL and I nun-Suvief blob: ASSuC IA IJON ~ ; illstitut -3taij (NIO%-~Ow steel 1116tittite) SUBMITrED JaIIIIi't ~ 20 ~ I Ih I Card 11/3  -JUULT I N- N-; SOTNIKOVA, L. I. Studying certain properties of copper cathodes deposited in presence of various surface active additives. TSYst. mt. 35 no.10:29-33 0 162. (MIRA 15:10) (Copper-LUctrometallurgy)  MYULLERY N.N.; SOMIKOVA, L.I. Kffect of additions of surface-active substances on the structure of cathodic copper. TSvet. met. 36 no.l12l-22 Ja 163. (MIRA 16:5) (Copper-Electrometallargy) (Surface-active agents)  14YULLER, N.N.; SGTNIKOVA, L.I. Effect of surface-active additions on the structure of cathodic copper. Trudy Giprotsvetzretobrabotka no.24:139- 145 165. (Map, 18:11  MYULLFR, N.R. Effect of dimesole and vitamin B12 on the metantasia of different inoculated tumors. Vop. onk. 9 no.9:27-33 163. (KRA 17:9) 1. Iz laboratorii eksperimentallnoy onkologii (zav.- zasluzhennyy deyatell nauki prof. N.V. Lazarev) Instituta onkologii AMN SSSR (dir.- deystvitellnyy chlen AMN SSSR prof. A.I. Serebrov). Adreo aytorst Leningrad, P-129, 2-ya Berezovaya alleya, 3, Institut onkologii AMN SSSR.  LOGINOV, A.V.; UYULLER, X.R. Cholonergic properties of chlortetracycline. Ant"biotiki 7 no.3:8340 WIM2. (1-111-u1 15:3) 1. Kafedra fiziologii (zav. A.V. Loginov) Leningradskago khimiko-farmatsevticheakego institut&. (AUREOMYCIN) (cH=xrr,)  HIULLER N R. Role of histamine in cancerogenests. Vop. onk. 8 no.7:105-111 162, (MIRA 15: 7) 1. Iz laboratorii skeperimentallnoy ankologii (zav, - zasl. deyat. nauki, prof. N. V. Iazarev) Inatituta onkologii ANN SSSR (dir. daystv. chl. AMN SSER, prof. A. I. Serebrav) (CARCINOMMINS) (HISTAMINE)  MALYUGINA, L.L.; MYUIIER '..R. Some peculiar-; t.,,es -f me-rastassizat'on of rat sarczma S.IR fol-loving incculat-= ~-nder Lhe skip cf the I~ail. V-.~p. onk. 9 no.6:56-59 163. UMTRA l":8) 1. Tz laboratcrii eksperimentailroy onkclogii (zav. - zar-lu- zhennyy deyatell nauki prof, N.V. Lazarev) Inatitu-,n onk(-Icgli AMN SSSR (dlr. - daystvi,.ellryy chlen AMN SSSR F-of. %f. Serebrov). Adres avLcrov-' IA-ningrad, P-129, 2-ya Berezcvaya alleya, d.3, Institut onk(,Iogl;i AM SSSR.  GERSHANOVICH, M.L.; KAUFMAN, B.D.1 WMLLER,,_.N.R. ,cf, Conference an problems of drug therapy in an oncological clinic. Vap. onk. 11 no.12:98-101 165. (KRA 19: 1)  i~iverall the gr1ruiers K o ml , I e K ,i ria I a mo ai T -,,L t -ovki balansa k- defibreram. Nc-zskvtx, issl. in--t lesnoi, tselliulozn,--burnazhr.c-', dere', proiqsh-1. i lesnom-u klicz.,  a 9 v Ole 0 0 0 0 0 0 0 0 0 0 0 0 a 411 1 4 1 a I _101 Is .:LU_ MAPI T 00 99A Tho VAR 40 Me allircirkal canifuctivily of barate d It d &I" COGUM. R. Jilyallicir MW B. Mjutin- ' Add has' 'S 00. U. R. It%) MWW(in Cwtinal"). - "Wevare Alf the jittecumirmm a 6. %1, tit. tly upitatom 41 trillivit. st which Ilse 141. viev. "Wido. . III Irciusal. The truips. .W given 41 lufal 2 IL NA14) ialovirs 04010s 2 few f l see a tieli o va are 4 X PV . ., ., s - WA 3 x It)-, at 41,17, 114 2m% to -"at 317 fail 72% 4 X 10`01 2MV MI -. INA&ASs- * (fork Idwri, are rvA Wwwru by tbror fikem as 317 alki , 2, . I .. v twWair. GUM-0 wilb If" IbAll 111.5% 0 ~ N4~,(),k, allow puWarialkies laccattiar tile tffcvt. title to low Val is "twarrv W OWY at tempt. attA.Ve tile wAt as or after a very Ims little. The ciacut. 1x1ra 1e il saa knik. ew an efectrunk. claa& Oa this pti,m the obwfvcd . hir Mevi,Vil A-tdi"Am I.lactlill III I fill, atralysia Indicall" N&.0 "mir"t .4 tiar, Raithillat's.0 J, a - I a & ae?ALLURGSC&L 1.119441 LASIVOCAIMS -14- .0-1, 1111ld" it Iq - I a It -9 i" ir- V_~ . 's 0 a 9 _T -44 of 9 a 4 a 0 f At 0 o o 1 Cl 0 0 * 0 e 0040 00 0  00 C 00 Ir, 06 00 a 44 go A$* L A -f 'ALL UPGKAL LMNATLo .1,31 'IV .1-1 It b V "w to P a 0 0 0 0 0 * 0 0 0' 0* 10!; 0000900000000,0000*006*0,0000004000*0000* IV lft~Fm . -- -.; 'C's- "I , a - I F7 l! f v W rst ! - X,& listuJois u IOU ita&v 'J., ..ge A-M-A-0 f A A A .0 "O##$ lomll.ft @wow, @seduw-ill at 040-ow ad" OWMO lWaAki s%4 III L. MA&r. -Wd flAwfumkin. V M %~MACI ' ' kv. r."1. 4 WO 4- 12W-71. IM 711%14). - The r W 71. 1 711 1 ' %,jbey2 the equ4- %bLvw% vilivirr Rf - Ij, K. Rh,w ( ht- Nt X it - -A,' r + B in the raw -1 hifier alkau ron- A r + n in fn fn t. 0010%. at COMIRs. 1.5-2.5 1f the Vablie Of the t at jo j Coed. inMILVS rapidiv. All" a min. i_ (minced for K.0 ghtwq. The r-im"ancy ot .4 % -l coum.) wim tiffided ffw high 41UH content. The -00 er ol mabilfty of the Inn% is ht the order Li* > W > eramithIlf, a he at'. C(. > Rh'. cf. C. .4. 29, 2"'. F. It. R. see we* tie* f CLA%SWKATiGN tie 00 *0 coo lt ~; ax n It x 11 1 to n 1 , " "' O 0 0 a 0 0 0 0 0 0 0 0 0 a 0 0 0 0 4 0 0 0 0 0 0 0 r! f : 0 ,  0 4 006 *0 9 *go*** 00OW 0000000000000000090 0 0:0 0,0:"* 1& 0 0 * 0 0 0 0 4 0 * 4 * 4 0 6,10 M is 14 it 0 " tin Djax 16"imp fill U 0 IAP is" N to a 41 Q to a Gco - IF 4 A .1-1 JAL e I ' )OP P.J. fit ..v t.0 cow*$ go -.111 A I q OtO IM LIS S 2 Aas S R I 4P" I . . , . .. ,, (IMIMin (kintan); J Phyl. C". (V, S. S, R.) 6, Oil$- it 30 ltfjS)(ia Ku&w&n)-By cunsuirrmt; gl"wz as enter- nwfiate betwvcn iuck crymai fattkcs w0 liquid salt ~4tas. an attempt was mwk w a thc~wctical intcrpretatatin 4 c1m. cmitt of jltawc The I-tvnkcl vmd. theiwy Is oti,ldsorable d a currectim ftw ivnip. depectwkswe is inadr. 04 4 I'm Bokh aad'-Ah Am" cutw., iu ithwh A is *0 .1,`ctAd b Ow f-wricouls fa, iv - ckv. ccicod.. In (A ~ r) "; 1 D l W F = ft** 00 .3 oo. - : at - . ~... . d + A ti , be SiO. glaiow~ Ar - 4. A dissificatim of clason is given. zoo 000 1-4tw-alWi g&wjws act "miklewd as frusim "ns, o( %0s ago 000 :S4~) to the Name (od"te). Witte twirritior tit 11.4h j OO , --,nwu. V,4 tl.,A. (win aud i1wiraw in sisr. Uxptl. late 1 Z oo "C-01 '. ~Atkxf% alkali I.Wate 11. to. R .00 of Joe Argo We i so ~o I As. ik. 41TALLUMPLAL Ultfl&y6ft (LAWFICAMN j. all -- t- V v w too ao a I & 00 i to " R ~ '10 A 0 0 0 00 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 oje 0 o o 0 0 & 0 o 9 0,  Olpflosts" oftill Igo, ..v m LITVIO 04P 00-: oo- ! go:. V 0 Go::, oes w-Aq. !5W, a pwnFop 41 of x plabW a" p W -oqp p o 4 A *Oft PM"Bnpp Arm ap OMMOR '10 AD :x %lA VIM" F OMW r WA so-' Imov.-Y,'-p Join" 00- t#0t. IV 'I va 0 M ii R43 nit4 -6-0 TRA I-A- I 'a A of 4, IN 0 0 0 0 a a 0 ~9-9~ a al &V a vt 'to* roe 00 00 0e -Ir V FT 1111 0 # I 1 0 00  sot NO t A iffnMIT Mmk- OSWASUS SAW 004"at*6 a"& 00 00 lilt nm abowa, a embowd 00A UNw. Aaw 16 10-116, In& to -00 zlr_ ohm@ 009 ft now ad 00 that t 00 06&*atim. [au" a so 4 bet -00 tdatme to akwownive whMmum go a &ja Sur tie voludds 00 ad nkdnd bkuvmm tta uAmundwas mkntm see 0691 ddledommehan 4140mmeam"N" w" 41101IM31fir hudw f so: * a 13 surwinwow d'C"'timmaing 01 tow N 8y of activvtim 411 000 kmoigW"bwgingiv4s&vabwodlo~-lak.cal. AnattemptiGmadc so 004 to clarity the Physical ad tim coma of activatim Of ~WutbmL Ono* 00 Simakamemnly a definW= is Ovem Im On tmtW Of Octiv&bm Of dw 00 am"11-timm I Fimn a computan of dw experimem"My dedowd goo 0 wahm of C in the I 6w the ,-joedy ol mAutwa Vm - Cc - AIT see with the tboure4kally calculated valves. it to concluded that ft valAw of OA emAcient. acconling to UyamoWs tb-y on the sWutKm p-ocem bawd on 400 dm WA94k pa %b-y is am -voic- . The cakulailion ol the constant C 6*0 aggardift to tbw adsorption tkAm)f oj,Fgjmhel and to a certain deirme see J,I to dw wMautica tbmy ad Pdanzi and W4P- I-A to 6040 all! detwecturymaks. jSmmAbdrwtIGU(I9M)-1 J. K. e ASO-SL& IRTMANIMAL LRMIM CLMWKATM see 81 1 4"m 7-~' 7 It L-HT- 140"Inoff W, go w9 I a p 0 1 02 so a a -Fw w '. I a. 9 d 074 'We 0 al ow , s 2" I I a 4 d 0 1 6 0 9 4 1 0 is 0 0 0 o 0 0 0 0 0 0 0 0 0 a 0 0 0 0 9 0 * 0 a 0 0 0 6 0 0 0 0 0 11 000*0000000000 00010  90*009909000000060 sees WWWw 1) 14 to 1# 17 )#,)1, 11 V z is is 111 17 x 10~ Ja v to It a J. v a A Q t3ce ~L-f -r. gL-.k- JL -i. &,- -o,$ a 411114 adw R71, ulkr Ada Pkysw- CUM. V. R. S. S. 4. 4111 W(MMI ~'& C- -A 49, WAP'. 1U igmed tid *An. iq coculit"Kii toy Ito rate of "I"Ch traullptort acid toy the rate d chutt. reaction- A ~ti- faculty calirr"oll 1W the turama-I rate ulu,14 ilocluAk -Aftmoo c"Nesploo"fing 1.) owto Uf Uw~c pffoxe~'- It 1, alwalomord 111koas a curicti. turbulent film of sin. exillb in th. -00 locighbollooluld 419 the intolfwc lu"t that The thkklw,, 'd thor film Lq pragairt4onal to the sp" td the CWTVtot .."I t., 00 the daw. Trouts(keFt through this fart talw. VW, Iq 0 fucatts of tak-ro-ciLlks soul currvtat~ sold 00 not by diftion. By equating the rate at whk-b rrt&trrL4 -00 00 is latrodwed =0 reauned from the layer an exWessicta tot 'Aftined far dw measured rate in tcrM%,)f the spwd of the 0 0 00 z tionlat OW of the reactim rate. Atloavspvcdsothcom~ 00 *0 veeUvw rate is oneAsured; at hish nxvds the mcimard j (# 0 late approwbrq the Muctiom vats 6% nmenitude. cons 00 joarivou to olawk with tittit. P, 5. "Ict, ~00 0 0=2 ;00 see woo 00 001 .:0 00 we0 0 0 0' 0" 0 0 0 0 6'0' 0' iio 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 ~169*" 0,0 0 0 4;0 0 0 0 41 0 0 0 0 0 0 0 0 0 0 0 0 WO 0 0 a 0 0 a 0 0 0 0 0 0 0 & 0 0 0 0"  0 a 1 a it W U so t$ is U a to a -it a at v a a v cl Ad a 1, u a a Al & I I a A a .0 a d) 0 4lio A. IL-L-A-L-L-A-- - . dl~ r- a l b 111"W8141111 49 68 11111111 all 0*99= al W8t* AWAS , Malla-r Ab To V ValmAtilgo and R J limm L 4110 . . . . . . . y g UI.An " t,-uajpn, ui water of 9 and Na tomate ommw~ us tb I )S 00 a A (in big q in the umA. froctum q,% jMh + (I - # 'd mmalkAt'SmAh) is flor elb"i vr~ft lualitj At a tutu - *0 a I km at tim *=~. said da case of anxing. r�W Imainsund 0 ,f tbr vWW rime of slow dec. maid - and t Im, ImItinning us t th ' foss ' of she aw of WAIL M fumlkm* of m"Jc Usti as j y IZ kooke gamm IU dbc. outat. iA a , iu a a"M lvil sul 41" go(* of moft. 6 6 (unclim Ut Iculp. and Im.ans c atc, Wbm q - 04 the cute cA mals. is nut guvcrwmi by clsfamigma. 6m a 6Mp, mcf, at 7 N%IdrVm anti in i Jw o rtsuallm Vag 411. A - II&M, maW C - 73 with a co Wav probalmle gam. Wbes q - (1.1 even ralmd tumois I k MIRM votat ou, -.) did mot O&Allk~ t. It," t tW -1 - do 0 the phaw4mandwy reaction tate bt-Cins iv Ix the rai- Xo* Jeog. step. Tlw rck(l%v mtca u( sula. *( IfIll'. 73' and ' ' 1 Of 5, 5 god I fia d i 11, toki 1 mw ohms A, 2 mod 1. hir f " I'lorcalrof OW". I* Stmol dl 1) A o.' I(N Na hotale 00 al Andat (1.4 4131 (,w K (Kwao and al%put I potilt it% volur Rafluumill wee i Ao , "A4 Liloo&IWW CL&SIAMPICSTION I&I.&W wee ago. 514,611" load a* ONO aft 3W I 40 0 0 0 0  4 4 A i a 0 FIG I venal) RUN an u a 0 0 at a 4 0 $I Cm AV a lv~*WIITAIPO ow ow; : oc I or ' . .. - - -.- . . f Stor I 1 w &M " 0 1 ow ~ "I umm"Po 9 A*0 " & 1 4 6 "M o �u * a" 040, 4 *4 " t r V 1 XIM, 310"4.9= m P" (em ew V o-Ajjj 10 A"l aq) will O)WIM top '101.1 Wblj 41,f) "A lq 3 '19W3 1141 JD upy 4111111" wqp SO amp" so p Now" 00- 04r I q at 17 4 w a a a If U 47 1, IN to; a A It a a 11 11 1 111111 N A IL JL-21~ d tof4i &i -T-1 It j w do x g Iwo I I ' I 'IT . a v u 14*0606064 Akk*" wit If 00 I r 00 t o go of too 1 90 1 09 00 so 00 00 - - - - r T W j TT T t 40 090 900 009 9 9 U LLLL LOIJ  ~Moo *00 0 fOO *a 0000000 of), 00 000 6000 00000000,#0&0000: 000000 1061,9000 0 0#0006 0000 oil 4 v it a A it a 4 It a a a a x 4 v fillfunlex, A. 11 i mum It Q 11 4) S) a L, 0 A fi-A-A-L A 1 -0 f- i -, , .I, ,. A 1.0"Diss R 0 1 '" 0 .. - I. ...,. . -0 4 - ! MI ...D -*Cote -00 00 it to 614 a Seesaw gloreavien for of fair of 00 . r -*0 5 It ? 7. W.) 4WIM61). I-soul" a mvpik~t to C11041. dst4k .5 burk m i -00 me a ts and (matt als~q 1cf. premlime ahtgraJ). -00 -00 00 .00 so li 0 40* zoo '00 "00 -:94 04~ =00 S t L a.11ALLURGOLAt LITIVallAll UASWICOICO CIO 0 WOO , 0 1- T F U 0 At 00 1 IV It oil 41010141 1901111 Ital w u w 11 1 am a a It a did 2 0 0 0 0 0 0 0 0 0 0 0 0 0 0 a 0 0 * 0 0 We 0 a 0 0 0 0 0 0 * 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 4910 0 010 0 0 a 0 0 0 0 0 0 ~% 0 * & 0 0 0 0 0 0 0 0 0 0 0 0 0 0~  06A --.wdldft 4 0ft U. A. S. J., a band -W ONIM 004 IMP I t, I ess ~ W=b. a 004 004 sow 000 ON" so do 84* o00 DWI" The dbmwo. Ike wmtbe AM owed ift tee. 40 a VOWN of Obw- ktdm Od tm " 66,5 . 0 to dm etbw. am l, . M. d"i"d VAMd IA ilta b md"r 11 qqxqnwdimm 6w dw ". 4kc. as* in op. al dm while auks. E '400 W4d dk~., R We emma.. T abs. imp. ad v mtia 1-000 * Im w 004m"w 0 Stamm (0 do on. OF kmww 0 410 to wify L 1900 ' b dad. by do ahtma im do Om d a nktim be fewindeadva4malmd0"ems. Abmbkwibc gee of dw 34VURNOUnt wha If akw. C300 the mWy* d dw twake at SM 11 i; OWAS. of thm skam is 61"0. The canto of t Is** "Pumil" to *A 3. Ow 340000mat avatclus 400 a 6" GWAW mstw* of Cho cbmams ud the dw. coews. wVbx and Work si~. The at.4~Wc sam"wai gee WM am appficew to 11, ad makate &I"-. -Soo low po' Nk b k i == use ntum. irc mes. -o ant C W. IK. Ise" 00 I #WJA. to kka mysim. W lit, 0. lpmv (It-O-R). in the Gum (K - Im caim d a No* !~ ton UWW im is attwmd to 0 doofflawk clumboub 0. The Snop O-Ka* cam-be M-. a 4 .0%0, 0.0, 404 0  a A . n 5 I 'I 11 ;'5 1 631, . .III a III i ,F* 6ii ma 4-11 1 P-1-4 4n;; ap-al I C4 it - !r- I il 11,   /V r1l /- 4 F T W. ~L - USSR/Physics - Conductivity of glass FD-808 Card 1/1 Pub. 146-21/21 Author : Kyuller, R. L. Title : Nature of electric conductivity of glass Periodical : Zhur. eksp. i teor. fiz., 27, 264, Aug 1954 Abstract : Criticizes article by M. S. Kosman and R. T. Paranyuk. Accuses Kos n of ignorance of the chemical composition of the tested glass, which led him to erroneous conclusions. Six references including one German. Institution : Submitted : February 2, 1954   ccInce 9.1 A-1 rig ca iiepz 6:be All--Giitliili ~(1931   - ---- -- Gas -Ki    1'ub. 153 L(-: I ~Iju:.ler, R. L. L .1 i tf ~)l a iol I C C -a tom. C va 1-- --.t S ULl.; a-,- T f '-t In the present work the author describes an c--xpertment _i. cal physical analysis of the electrical conductivities Of iCL:-- atomic valent amorphous bodies, with the electrochemical vicw- point representing a subsequent development of existing,, physical notions- In su,-ceedinE~ works the author will show that, -'r, Rre in agree2inent --It the views eypoundt!d in the prei;,int wQt h pcrien,:e and coni~idcrably expand the circle of facts) amenablH- to theoretical generalization. Author's conolusion- According to Stj'aCtLiral chemical and ag6rc-Sate --I- ri. -t4- of a medium one must distinguish the electrochemistrl Cif a) molecular, b) purely ionic, and u ) ionic -at;:)mi~- vaivi,L to the latter variety oelongir4L the ciectruchnnis'-ry of cates and allied refractory vitreous substances; the *p~--cifilc  characteri.~;:-e f ;cn; :-at(jmi,,:. valent systems distin,~uish:ng them from all cLh,,.j is their -nvariaole caL,-'oni,-- c,:,ndU,-Li-, n, awmic val,Wl- at-u- closc to 6(.1-"d I:cni(: ~.:ryLla.Ls '11 -heir properl;ie-.~ (Wea4 degree 'If electroly!~ic n for compal dissoclate~4 cw~lons), an' -atLVely t.,r(D(-,d mobility of close to liquid electrolyte sulutions in nunpolar .311.'~LnL,~ Ing to their con,.,entraLion dependence of electrical. S llbTq t t- y  US~-'P-/Phy~~4cs Electrical conductivity Pub. 153 - 9/23 Author Ryuller, R. L. Title Electrical conduct-"vity of I-ol-d II Cxperimental theoret.'cal expressions 1'oi- tlfllt.~ cjndu:-,4,v1;Ly c)f burosiiicatcLi Zhuz-- te,-ih. fiz., 25, February JL.~~, 24' -2c5 In the preceding work the author erpha3iLed that cations -n bcrG- silicates are bound electrostatica2ly nugativel'i :,~n-,zed boron atoms or oxy_,,en atoms, of hf-, enerrr t MY of -,u,,h bonds b-ein6 c~-.r.,~iderable (arc-11.1 calories per mole), U) whiLh is due th(~ very IL)w troly-tic dissociation in borosilicates. In the present wor'! he expounds a strictly founded theoretical derivation of ~he e(;tta,ion of molar electroconauuttvivy of buruL~1.11cat,, after the tion of changes that rjjr~e more prk:clce also expouxids the cheoretically reasLned tran- fc i -,ri c C equati6n of molar electrocondLl,~L-V-A~ appil*cablc lzbile sbate (in the critical rufl---on , f temperatures). He concludes  wilh :han,--e of and ccmocs t:cn of Ela-;3..~ cnt~ rb- -iL-ruo c chan,cs Li the pc,-,enta6e uf catiun.; Lpatlinj~ 'n Uip clectricai c~onducrlv~uy, thus confirmLrC Lhi, L~;ccnce ;.n gla,z~(f, c-f very weak degree of clectroiytic dis~,~Gclation ,A polar- -.Aru,~Wral elerncr,'-i~ and the le(-;;;Ive -,;pnif'.-ancc of the Jl';3~-UCiaL,Jon c2nevil'y for ( m(li:cU,'vjl.y. Jubvi-: t -..ed May 29, 1954   USSR/Physics Semiconductors FD-3131 CaA 11. 15~ - 6,,iq Author M3nCLler, R. L, Title Electr4-cal conductivity of solid ionico-atomic valent substances. IV. Prob- lem of polarizational-electrolytic phenomena Periodical Zhur. tekh. fiz., 25, No 9 (September), 1955, 1567-1574 Abstract In the preceding communication, III, the author emphasized that specific electrical conductivity as a phys'-cal quantity uniquely characterizing a substance of definite chemical c(,mposition and, first of all, of definite volumetric concentration of cations can be experimentally determined only under the condition where near-electrode concentrations.! polarization is absent, which is eliminated by means of inverse active anodes. In the present work the author considers only such electrical conductivity, i.e. in the case where near-electrode polarization Is absent. He remarks that A. M. Venderovich (ibid., 23, 282, 1953) and G. 1. Skan vi (Fizika dielek- trikov, Moscow, 1950) extensively investigated the problem of drop in ini- tia.1 current with time in consequence of formation of volumetric polariza- tion when surface-electrode polarization is absent. The author concliides that stations y ("settled," "residual") specific electrical- conductivity is physically the most strictly based quantity for specific electrical conductivity that uniquely characterizes borcsilicates of given chemical compositicn (and of preliminary thermal treatment), and is experimentally determi.ned by means of reverse active electrodes under the condition where  Pard 2,121 FD- 31- 31 near-electrode concentrational polarizaticn is absent. Norista~iunary ele- tr--'ca,L conductivity, including conductivity determined by an a.1ternatiniz c-rrent) is in most cases arquantity that does not uniquely charac-erize tne substance of g3ven chemicai composition. Correction for decreasing r1it external field by polarization phenomena changes slielitly the tht-oreti- cpC- va:Lue of the power quantity pt in the expression for molecuIar (,Itz~,:ruri- cal conductivitv. APDroximate computations of free ener-y of elecrTc-ly-tic -11*.-uc~atlor I!! vitreous borates of alka-14- metals in nonpoiar and in priar fllf-)~& irldica',e the ic-,tering action of self-3clvational eff---1, u,)()r : !-u C-nergy o-f electrolytic dissociation. The author also e-tab-:14shed a ~.eries Twelve referpnf,es; of mobilities for boron [_xIaoses: R. L, Myuller, "The vitreous 3tate and the electr~.-chemi~;try -.1' Dissertaticn, Leningrad, 1940. Tnstitution : -- Submitted : March i9, 1.954  ------------- fit'.  US&R/Ph-ysics Send.conductors FD - 31.3G card 1111-2 15") - 5/19 Author Mlyul-ler, R. L. Title Electrical. conductivity of solid ionico-atomic vallent substances. III. Problem of polarization in an external field Periodical Zbur.. tekh. fiz., 25, No 9 (September), 1955, 1956-1566 Abstract The author finds that the polarization of ionico-atomic valent bodies is characterized by peculiarities absent in purely ionic crystalline bodies, namely by: activated ionic polarization of bolind cations as a result of their transltion from one potential well to another of same structurFOL element ', and orieDtation of polar complex occurring with freq7.~encies m-ich less than jol 3/sec and upach greater than un-' ty as a result of va- lent electrons ', in structural atomic groups, occurring during flllc~'Ua- tion in distribution. The activated ionic polarization explains the increased dielectric losses at low temperatures in borosilicates poor in alkali oxides and in substances allied to them. Orientation of fluctuating polar ionicoatomic complexes explains most probably the anomalously high polarizability and dielectric losses in bodies with structural perovskites and rutile. The existence of critical region of an--,ma:Lousl-; ~-,rreased dielectrip losses is due to the disappearance  Card 2/12 FD-3130 of rigid valent bonds at high temperatures and to tte difficulty of C.-iletuatton of oriented polar complexe3 at low trmperatur-s in ~onz-- 11 quence of lowering of intensity of thermal valent oscill-lations. Institution : -- Submitted : Mar,-h 19, 1994  Category : USSR/Electricity - Dielectrics G-2 Abs Jour : Ref Zhur - Fizika, No 1, 1957 No 15o6 Author LN[n~, ~R.L_ Title Electric Conductivity of Solid 13pnic-Atemic-Valent, Substances. VI. Electric Conductivity of Borosilicates in labile State. Orig Pub Zh. tekhn. fizikI, 1955, 29, No 14, 2428-2439 Abstract A critical review of metheyls usv-.d to determine the characteristic values of electric conductivity of glasses in the labile state. These values are given and it is established that in the labile state a-11 these values are functions of the temperature. The causes of variations of electric conduc- tivity during the hardening and crystallization of glass are also briefly e)-mined (see also Referat Zh. Fizika, 1956, 25944), Card 1/1  Category USSR F-lectricity - Dielectrics Abs Jour Ref Zhur - Fizika, No 1, 1957 No 1507 G-2 Author Myuller, R.L. Title Electric Conductivity of Solid Ionic-Atmic-Valent Substances. VII Concerning the Temperature Dependence of the Electric Conductivity of Crystals Orig Pub Zh. tekhn. fiziki, 1955, 25, No 14, 244o-2W Abstract An ex:perixaUal-theoretical investigation shows that the electric conduc- tivity of cr7utalline borosilicates is caused by the motion of ions in the crystalline lattice over a wide range of temperatures. At low temperatures the electric conductivity is determined by the number of vacant sites formed as a result of the emergence of the ions to the surface of the crystallites. Such a transition is effected without a change in the entropy term. The poor reproducibility of the low-temperature electric conductivity is attributed to the dependence of the energy of formation of the vacant sites on the degree of dispersion of the substance. At high temperature the electric conductivity is related. to the number of vacant sites appearing when the ions pass Into the interstices, and this is accampanied by an entraSy effect. The energy of the entropy formation of the vacant sites diminished with the temperature. See also Referat. Zh. Fizika, 1956, 15ob. Card 1/1  USS R/Chemical Technol3gy. Chemical Products and Their Application -- Silicates Glass. Ceramics. Binders, 1-9 Abst Journal: Referat Zhur - Khimiya, No 2, 1957, 5158 Author: Miyuller, R. L. Institution: 'None Title: On Vitreous State of Matter Original Publication: Stekla i keramika, 1956, Nc 4, 11-14 Abstract: Conslderat�on of chemical class'-fication of glass-forming substances that characterizes them in the liquid state from the standpoint of capability to form glass. It is pointed out that of substantial im- portance is not only a character-I.stic of the final state of the glass, but an atamic-kinetic cbaracteriatic of glass-forming body is needed during all the intermediate stages of its cooling. Glass is nonequilibrium solatioD supercooled tn- the stabilization temp4rature of certain complex structures that are intermediate between liquid state and crystalline equilibrium state. Glass of a given composition Card 1/2  USSR/Chemical Tecluiology. Chem~,-al Products ard Their Application -- Sillcates. C-lass. Ceramf-cs - Binders, 1-9 Abst Journal: Referat Zhur - Khimiya, No 2, 1957, 5158 Abstract: must be considered during the development of its transitory states, taking into account the initial 1'.qu-d state and the not yet attained crystalline state. Card 2/2  AID F - 3924 Subject USSR/Chemistry Card 1/1 Pub. 152 - 7/19 Author Myuller, R. L. Title ialence theory of viscosity and fluidity in the critical temperature region for high-melting glass-forming sub- stances. Periodical Zhur. prikl. khim. 28, 10P 1077-87# 1955 Abstract On the basis of experimental data on the viscosity of silicates, values were established for the relation of temperature to the free energy of activation, as well as the enthropy and heat of activation. Three tables, 3 diagrams, 9 references, 8 Russian (1945-55). Institution Kemerovo Mining Institute Submitted Mr 17, 1954  SUBJECT USSR PHYSICS CARD I / 2 PA - 1815 AUTHOR NJULLIR,R..L2 TITLE Electric Conductivity of Solid Ion-Atomic Valence Substances. TIM The Dependence of the Electric Conductivity of Boron- and Silicate Glasses on Concentration. PERIODICAL iurn.teohn.fis.26, fase.12, 2614-2627 (1956) Issued: 1 / 105-7 On the occasion of the analyses of an electrolytic dissociation which in in thermodynanio equilibrium, the fact that the structure of the glass as a whole is thermodynamically not in equilibrium was neglected and the structural pro- cesses on the occasion of an electrolytic dissociation within the critical do- main of temperature is underestimated. For these reasons it has hitherto not been possible to,explain the physical nature of the observed dependence of the electric conductivity of glass an concentratian. In the present work the depend- ance of the solar electric conductivity of boron silicates A w ce., 2RT on the concentration of the metallic ions was investigated in consideration of structural chemical peculiarities. The dependence of molar electric conductivity on concentration is determined in first approximation by the dependence of "dissociation energy" Tj (in kcal per mol this is the energetic quantity of electric conductivity and serves as an approximated measure for the free energy of electrolytic dissociation). An exception is formed by the silicates of lead which must still be examined. On the basis of the modification of 7 the molar   S071 I I Z-58-Z- 181-1 Tran,qlaticn from: Refezativnyy zhurnal, Elektrotek'~LnAa, 1953, Nr 2, p 10 (USSR) AUTHOR:__~_~y,_,ller, R_ L. TITLE; Polarization 3f Atomic-loxiic DIfelectric i-.- an External Field (0 polvarizatsid atomn~)-ionnogo dielektrika vo vneshnern pole) PERIODICAL: Isv. T~;mskcgo politekhn. i-YI-ta, 1956, V_-1 91, pp 239-246 ABSTRACT: A review of papers on the structure of glass is Presented. it is noted that exieting statistical tfieories of physical p-roperties of glass are somewhat abetract, as they do n-A ai_!,'3w f-_)r real ph,,sical and chemical str-uctu-re 3f g'.ass. High quasi'-e1a2t-.c fo-rces of covalent!y linked atoms of glass-forming oxides determine the pecaia.Ti.tiea of amorphot:s stvactu-ire of glasses, as well aR the-ir Physical and chemica' properties. 7t is planned tc replace mechani- cal exam3nation of the reticu.'3r stract-a:re of refractory inDrganic al-umir=m- n-a~`-ate with in a-ialysis of Phenomena from V~e viewp.3int cf t~ie atom'c, bor- -L., valent, a!id ionic L-o-n-ds arnong elementary particlep. V--e theory cf V-Iermal i~D!-_ic polarization doec, nct de.p-;ct the mecl%anism ci the process, because it Card 1/2,  so~,,, /112, -~18 -Z - 1361 Dielecti-c ;.:. a.,-I Exte-ra.1 Field rernai--Ft w~Let4er cations make "cof~,qiderable tripa Wit,';,-. Sack, Weak Witil-Oll", t&k".Tlg PdTt ;TX Ole tt-,--z-C,-tgh CCO-.XdUCti-Vit~ , c~r if their di-place - rne,~ts are comiparab'e vvitl-- the &mef:-,3-'.Dr-a ~f tHe F-2.-ticles tt,.emselves - Tt~e rf P-e-tial elt~,,.er. TKe -ionic. -atomic -valcrice O~e-)37v s'iggeAeted by the ~7- -arswe.~-,A t-.~ above questicns an-d presents rl,mical qtr",.Ct2la" f---: a tt-~eovf -,f thermal io:ailc V!-,,aTiLatiO7!. 41". -tems. in .,, Kerner~:vr; -..-stit!,te), Kemercvo. A. M. A. C,~-, r d 2 1?  SOV/1 12--58- 2 -1870 Translation from: Referativ-iyy zh~~.rnal, Elektrc~tek~v)tka, 1958, Nr 2, p 12 %'USSR) AUTTIOR: My-,.,-Iler, TITLE: Effect of Metallic Concentration op- Electric Conductance of Boroel2icates (Zavisirnnat' elek-t-oprovadnosti boros-ilikatov at r I j netaR40%eak:k~-. PERIODICAL: Izv. pol--teR~-ri. _7111--ta, 1956, Yol 9 1, pp 353- 361 ABSTRACT: Electric cond--:ctance of harosLi'fcates !~, determined by concentratio- of ionizecF cornpon-ent parts of ion-atom-valence str,2ctaral lattice; the of concentration c..77. d,..asociaticrn e-aergy of iGvogenic polar lattice points is -,f decieive ;Tnporta~~ce- A slight Otange of molar electric corductance of boro- RKJcB~tes at low conce~tratinns- of alkAline iars is noted, as well as a steep rise of e1ectric cord---,ctar-.ce at lLigh c:ancentratjons. With low concentrat;0-3, tv~e electz-ic- conductance ia die to metioa of dissociated cati-oMe o---tside t)7..e polar rnedium, with )---gh co-acer-Arations, a th"-o---gh conductance is observed in the P-,13T medi-:rn of -.n.-zed compc.r~entj3 of the valent atomic lattice. '-te-zmediate Card 1,'2  SOVI 112 -58 -2 -18-70 Effect of Metallic lon Concentration o-a Electric Cor-d,,,.ctance of Bo.-osill-icates region ccrresponds to tl%.e appeararce of the th-rough cor-di:ctance d--p- to f,~rrnatior of continWou!3 bonds between iorized elements of borosilicate lattice. A new mathematical expressionL is suggested for the effect of cc,,,cer.- tration aja the dissociation energy of alkali-ne cations in the boroRilicate polar medi--Y.-,n; Ala.) a generalized is a-.-,ggcsted for the molar electric condu c - tance of "oroailicates. Bibliograph-i: 27 items. Gr-rn,;-y in-t (Minirg Lnstitvte), Ketne r,)v~,. M. D. M. Card 212    Krum. R.1.~ Relationship between the electric conductivity and viscosity of glasses. fiz. tver. tela, 1 no.2:346-347 Ir '59. (MIRA 12:5) (Glass--Zlectric properties) (Viscosity)  5W SOV/54-59-3-17/21 AUTHORS: Mjuller, R. L., Markova, T. P., Repinskiy, S. Y1. TITLEt __M1a`aolut`ionK:netics of Germanium in Nitric Acid PERIODICAL: Vestnik Leningradskogo universiteta. Seriya fiziki i khimii, 1959, Nr 3, pp 1o6 - 118 (USSR) ABSTRACT: Pickling of the germanium monocrystal surface is necessary for the production of germanium transistors. The pickling agents contain oxidation components, e.g. HNO 3' An oxidation of ger- manium was assumed to take place in pickling, followed by a dissolution of the germanium oxide. The Soviet authors Yefimov and Yerusalimchik are mentioned in connection with a review of publications on the mentioned process. The kinetics of the dissolution of germanium in nitric acid is investigated hPre for the purpose of explaining processes in connection with pickling. The function between the dissolution rate of germanium in nitric- and nitrous acid and concentration, temperature and intensity of stirring is investigated. The investigation method was similar to that employed for glass-like systems (Ref 5). Card 1/4 Each individual inveetigation was carried out at constant temper-  Dissolution Kinetics of Germanium in Nitric Acid 5OV/54-59-3-17/21 ature. In preliminary pickling with nitric acid the germanium monocrystals were intensively treated until a reproducible and constant rate of solution had been attained (Fig 1). The monocrystals are lamellae with parallel orientation towards the crystallographic (lit)-plane. Figures 1,2,3f4 show the ger- manium surface after intensive pickling, shoft preliminary pickling, mechanical treatment and treatment with aquaregia. The rate of dissolution was determined according to the formu- la I As- gramsatom/cm 2sec (S - total surface of the w- 7-2-TO-S &t sample,,&g - amount by weight of germanium solvin,a in the time ,5-t). With a retarding rate of dissolution in the simplest case wN= C.e_E/RT holds for w; C= 1.3.10 27atom/cm 2sec. The vaiae of C is reduced by diffusion of the solving agent in the germa- nium surface. Germqnium does not solve 4n the absence of oxi- dizing agents. From investigations of the rate of dissolution at varying concentration of HNO of temperature and of in- Card 2/4 tensity of stirring the followiAg' resulted:high concentration  Dissolution Kinetics of Germanium in Nitric Aold liOV/54-59-3-17/21 Infreases the rate of dissolution, a subsequent eddition of Rue3 without stirring causes, however, a plowing down 40 dipso- lution. When stirring, a further addition Of RNO I increases the rate of dissolution and the proQoso obtains in outooata- lytio nature. An accumulation of reduction produato of RNO 9a the boundary layer of the Go-solution likewise inortaa*i the rat* of dissolution. The values for w could be well re- produced and agreed with those of roforenas 2, The following dissolution mechanism of Go is giveno An oxidation of germanium is followed by subsequent hydration of the oxidation products. The oxidizing agents diffuse from the. solution to the Ge-sur- face and the hydrates forming diffusifrom there inic the so- lution. The upper and lower limit of the rate of dissolution were determined experimentally and theoretioally and found to be 7 and 24 10. The upper limit corresponds log W Oard 3/4 to the diffusion rate of the hydrates into the solution, and  pissolution Kinetics of Oermanium in Nitric Acid SC)V/54-59-3-17/21 the lower limit to the limit rate of the diffusion of molecu- lar oxygen from the air through the solution on the germa- nium surface. Stirring caases a certain reduction of these boundary values. The temperature coefficient of the rate of dissolution increases with rising temperature. There are 11 figures, and 17 references, 7 of which are Soviet. SUBMITTEDs U~y 11, 1959 Card 4/4  AUTHORS; Myuller, R. L., Kcstr~~'rcin, 4 TITLE: The First Attempt at Investigating 'the Chemical Kinetics of Ruthenium Distill'-it,on (Pervyy opyt izucheniya khl,~-,'Ic',-.i~sk~- kinetiki ot6onki rute:-.i~ja) PE'RIODICAL: Zhurnal neorganic~-,e-,ikn-, kh-mnii, 7c.". .,, Nr 1 2:_~7 (U3SR) A3STRACT: T1- Idnetics of the d-Istillation proceso of xix+lwnixm dirring oxid- etion by sodium c.Uo:mte vas invesdgated. initi il ruthenium, -,,ias nrc~'iced oy cniorinatinE thp 4r distilla t4 or, 1,13 carrJed out in the air curre,_+, 1.7 1/min. Th,~, of ruthenium on the conce.-.tra'_`~n of sodiam chlortitu. if 1 content Is raised b'.' 7 to 8 t4me-s, the of ruthenium rises ~y about 10000 timed:. On acidity of th~, h,,,,lr3chloric acid solutior, from 0.1, t,~ distillati.3n drops to 1/120. The dppendenct~ of t:i- -f the effective rate constant of rutheriun logarithm of 'he initial concentration of sodi-_~,.-. the initial concentration of hydrochloric acid wert~ Card gated and are shom in figures 2 and At roo:n tHmplr.,~:Iro  SC7 The First Attempt of Investigating the C-e:-.--.cal Kinetics cf RU~*-_.--_-_--. Dist'. llati on the rate of distillation rises by about 8/. on 1C *-m-,erature rise. The effective activation heat lies at 26.511~ZHe~2.: -,q1 /mo I The rate of ru thenium di 9 t i I la t i on i s a pprox I ma tel y pr,-, pr~r' icnal to the sixth power of the initial concentration of 3-1, chlorate. With a hydrochloric concentration > 0.12 n the r;Lte of ruthenium distillation is in the inverse propc-rtion to the a-proximately fourth power of the initial sol,_,tion of hydrochloric acid. The fourth power of the reaction -x-'-th hydr3chloric acid is probably caused by the reduction prccess of ruthenium: RuO4 + 4HC1 - RuO 2 + 2H20 ~ 2C1 2 The rate of rutheni~_zm distillation from the solut-,c-i rlseZ with an increase of ruthenium tetraoxide content, a lecreaE~ of hydrcch-icric acid concentration and an intensification -,f the air current. There are I figureq and 4 tables. Card 2/3  SO V/7 8 - 4 - 1 -.1,'48 Thle First Attempt of Investigating the Chemical Kinetios C' Distillation ASSOCIATION: Leningrad3kiy gosudarstvennyy univers-itet im. A. A. Zndano-,a (Leningrad State University imeni A. A. Zhdanov) SUBMITTED: October 20, 19')7 Card 3/3  krULL&R, R.L.- 14MOVA, T.F.; REPIMKIY. S.n. 6~ Kinetics of the dissolving of germanium in nitric acid. Vast. L(V 14 no.16:106-118 '59. (MIRA 12:10) (Gqr%aniu?m) (Nitric acid)  V-)-oaj. k P, zri 11~5o` llit~ dlel,ktrik-i %~dy toroy - Jri-j k~mfor-sll (Pbyal:a of ftsm-tl- of the 2d C, Z:,...tho Phy:.- I ""Tc :z Moscoo, Iod- 0 &~Sll, 19L-ZI. 5A P. Ilp Im. M "000P Frintad 3p-riag Agency, Akodcutj. -.k S53H. Fl-lo-kiy L..tltt Ime.i P.M. L.b.d.- Ll.,:f Publishing H- , T..L. D-khi-, U.- rl.I a".rd, (It..p. Ed.) G.I. Sle-1. D-t- of Phy .a (Deceased). and K.T. C of P4Y.'- and Y'ath-ti... r=-051i This coUaction of rtp~." Is IntoadsA for -1-tIffts tb. phy.l.. of COVIMA i The U-4 All-Ual- Coofer- :n t.%* Pt4i--s of Diel-triew hold I. at the Ustit-At %noni P.M. 11.t1- ~PhToLra l,stlw4 I-n-I Lebodev) im 0-bor i4~S as att-j~l ty -proo-t4ti-m or Uw pria ,;~l scientific centers of the USO and .1 -.-1 the , ~ , .. t r , a. Thl. -1- Isotim *=team oaa- of the r%F-ts presented .% the conference and o-orles Of t~- discus-Ica, a1ch f~ll-d. Th. ropor.. I- thl-tfIlection deal ~%th 41alectrio, pmp*.-ti*3, looges, " ~,Larloaton, and o,_ ,oolfic LhI,otjv, o. .Awlt~ o- ,and ra,xi Flo-t- ,funds. o. Y.1.1 , rx! on reAt ion d 1r-d at~-'- are I.' -t-g-t-d- 7- fact no I:t t,:f, paper. pru.et. t t 4 -to d..11.g .1th If tt-h a- P--jl.h,4 1. .a any. 9, P.,.a--I eo.t1a..d. r- to D-Ing PuI3. Poct- of 3.1-.d D-1-IrIc. [Tcook tit.t. 1.-J, ". LIr.,j C*rt&1z 189mlaritiod In the Physical Proport-o f 5.14 -1-ti-.[Totak P.Iyu.hu.I Institute 1-1 1; via,-sioa OIraets, L.L. "arties of the t - 1-t -Il 11,,1 r I '% ~ Ut LN Z : - _ . -,Ra -ibi.,.kiy Is. . . I 1. " of 918-tzilaa UJ-rlz,)j 02 LIZ= - C:r~tovivit0f C--pl- Glass- f d t yya-ra L t I.. A.A Zhui- Stat, Cniversiq A.A. Mid) r.'" tyu" C : Et--l Ci. -1 [G- ---Y7 slaktrok-,xichoaklY insLitut, Moskva (State 11-actroce-1- Research lusti- I.L.. Koonce, Umtltu% In. 3.1. Vavilcos, lanimermA (State Optical FLoses.ro b In%It~ to I... 3-1. Twun, ,Leningrad) I AAA tFdI -'. PI..h- Alyapd1j'k. jtt~=,t:..hL- Proo..... of "ZT- l 1 l ~h ti za ectrotecenica -tit,t, m LLOAzT,d E ectria.1 Cls Csr U-1 Mly..- ~ 4?3 aleavasion IL79 D.I:ay-, L.K., am. 001-L., and V. Fr.-dki. . 22. - 'IF5. c--.d U1.4- ". Act... .1 Llgh As--U-io. 1. A.*tLr..-. and the Uq- *1 baf1do (Cb*yodinwzn Inatitut y4domykh lsslad-iy 03.0, _ tIt Crystal.1ography, AS ISSA. P~y.lce lostit,to, Jaclsex-lamearth), Institute of . bAIpZL-_Asd..V 9f 4r I-doc-d I- B-T'03 by I-Raf ~.lo- Q, 1 A.To Tak~ln. Dopu 4a of 1--11.1-1 Electr I - 4!~ rd4cl lif-v-mly 1, - t- Thi-an... . c 1 ~ l' Diele4tric SPeciaame Qnoprcpatr~ek State ,,, , ty5 495 500 1 tb od Aff -I f 4 : ElI , . 4Z tiv, . ty 1.1- of Ytt -lo N--- IY 21shestly Izatitut ~M~och-".&k FoXytocUi:,1 50) T k " I P M V Y C Y R k C B l - . . . It, . A. . . . "llb, -1-t- ., , ty or 3411d and T.1jlj to tins [DA.P-P.Aft-skly :""4 ' ;!: , - to of Civil Eagiza-im,' 510 tI--tr1c stftrth of 3.d1- cacrtd. lrr.~I.td by I-Noy. t.lo.2 3.P. LLr-) 511  I A: F 1 1. -F, t." ..X.br~. 1~1,) State; T-- It r-e.:. Oa the vit- s"t., lield 1. ltd- KN SSSII, 19~0. 5" P. lip (S.ric.: lt~: Trudy) "'SK. Sponow-t', 4-cleat 1-t1wi. lmteii at er, -c ob h I. I.D.I Old :1. Editorial N-rd: A.l. AY8~Ualk, V.P. 15~"Akov&kly, N.A. Beibood-, 0,K. llotilr,tin, V.vA A.A- Lebed M*A* V*S' onlalta, Chsl- Ky~llarAPoray-K :;,A.K. Ukhki~d; Fd. of PblA.hir,& Ho,.e: I.V, S.Y.~~ ;elV:AE*d.: VT. 1, -,e. FURPWF: Ti. book 1. Intended f., -.rehcra 1. tl- -1-0. -1 teth-IC,,_v Of 91--. COVER~Z!:: T- t-.h vnt.J.. t,. -P.,u -3 d!-_.I-, of thm f,.1,-4 &II-Or,10, COOf, le-ce - the Vi,-0- StA te, held I,, ., 11_-1- V. ~ q, 1~,- ~. They d .1 i"~ t!,. ra,tr-i. -d -.1,. or tt,e t-et- lr ,, the re Jt b~t-- the t-It,- -d P-p-ttea of t- -t .- ~ L", 0-1-1 tcmd -4 1-. te-w-, -d tl,e or , Z~L~.. r-ed .1 11c.. _Z"'n or r1trIfIc"". 0"", r r.,-- 1 1, . -d 91-,-d Ipiv rti,6 0, a- .1- dl--d. A n-ber of the m- tlr.,_... of gl- p-per-tie. tintlm8 of radlati- eff"ta, ~d Meehanical, t proy~ r t' e. or 91-0. Dtb p:~:r:tt7.tpla-, IlI-t 9L- - Tbe C-far.tb 100 d ~&cy t-i-tin .,g_! I__ A._ tNc 1. rtl IS-t, 1. tt. at-..I- .a- N.V. Sol-i., Y.. V. K-h",kiy, Y G.tI1bped G.P. 1~~'.;Ioo IIr 0.K~h 1--petr-Y 't p ,&. e9ty. I.e ~.VK.T. Pl.at,hi-ki), A.Y.. r. E. D, _-, G.V. B)-~---k.ya. A.A. L.J,-. M.M. Sh-"k- , f, .Y..Eou1.1. Keller, Y..A. "". ",,~. It.,. Z.10. 0.,. Th.'fl-l C_f-c. - .4d:re..ed bI.I. Kitly,~O-Ukly. 0-1 Stlentist ~d "gla"r, Docto. of T,c--T,.I Tr,e foll,~IrZ a %1r- cit.1 fe-, --lr 1.11.1t~lt;1111 "I t!., de-I.p.,"t or g1... .,Ie.cc Olr ~s t. . . . .ny -9, or S, I PL.2cle-Ly (P-,Y~ie. I-t"_ A,', Ui), 1_tlt~, A_N,~55,-.N I-t1t.11 )V; 0~1_ ~!-;. In'tit.- fl.1~1 AJN B61,11, P11A.1, 1-t t.,tl r I:,,, t, pkead-y or L.b.r.t_ er P:~Y61-1- of Silicate, of I c Invtlt~zt ot.--,y I aeor,~~I. 'Le 0 , A...!-.' or Scle-~j,b 1~11 111tliSsh, Instlt,,t ry_-o1a-!ek~1y-,,v~. y*5 :11 "I AA _~-,I t :'*.I C-;--1,. AS Uz~.SIR o" I,." I-~t .-- (S.. t~ I-L "~,c f-0 ~;0-2-1LV-1,Y~ I11tlt (statcfor It--- Fil,er.), I- tit .1 e"Al-telth- lb (.1ithi, ?.~ r. x,tjt~t, I Flect,l-j Gl-), SIbi-1,1, T-X )`:~ I I tiot I t -t tetCLc F,~'! ;y it= r- t.., 1~ ;MOIc- tei-. le,- "I"'"'c t :t v Y'e-cu k! y .1 P.1j" --I~I 5~ dI -i. p,,! yn 1,., t11 T:.~ C-f"'l- ty I I k, ot t., I.. D. IM-.!-:,.-- (All1 -.1 C--dc,l I S.I. V, 1.,- 5. V., 1% C-f-- 'r.C G, A 0- 1 F.1 M,II, fC al: T(- y I T.  A" I T" t~7 -'~ - I ' ': ,, C, fie I j t -It; J, 1 "-1 .,4,4 9 a'- Z --,T~-W -I-A VIM -Y-C "h'q --d 4'n J. -m-f M -!~-j -X-O -Tt-'-J 10 -1-Y '1;-~TIIS~Y WUV,-Lq"V.L!A 9L TL -tq-a 19 -S--t  ta bK a P,,y q~ -WADS III-ItA C~a ",-,;v Iy , I r~ "I.1 r- -m-; -,IA -Z _TA 6 Tz I V. I q P -,7 J~Tl -T.W Y.1 '--pig Loa 'Y',L ",J"4 "IT11-W % -0-11A P-3 Coz Xq :T-tv km G61 'oj_qoQ cq -1,cr. otg 07.v 461 If f)-y ILI  8/054/60/000/02/13/021 B022/BOO7 AUTHORS: Goryunov, A. A., Myuller, R. L.-, Kapustina, L. K. The Rate of the Removal of Ruthenium Tstr V TITLE: aoxidelFrom Aqueous Solutions by Means of an Air Current PERIODICAL: Vestnik Leningradskogo universiteta. Seriya fiziki i khimit, 1960, No. 2, pp. 104-111 TEXT: In an earlier paper (Ref. 1), which is the first attempt at investigating the kinetics of distilling-off ruthenium in form of ruthenium tetraoxide, the distilling-off of ruthenium was found to consist of two independent processes, viz. the chemical process of the oxidation of 8+ ruthenium to Ru . and of the physical process of the removal of the Ru04 formed, either by direct evaporation or b~, means of an air flow blown through the solution. In the presence of a reducing agent a reversible reduction process of RuO 4 to lower oxides may occur. In the present case, the reducing agent used was hydrochloric acid. The investigation under review concerns the physical process of removing RuO 4 by means of an air Card 1/3  The Rate of the Removal of Ruthenium Tetraoxide S/054/60/000/02/13/021 From Aqueous Solutions by Means of an Air B022/BOO7 Current current from an aqueous solution in the absence of a reducing agent. The kinetics of the process mentioned in the title was investigated in an apparatus consisting entirely of glass (Fig. 1). Among other things, also a Komovskiy pump was used. Five aeries of measurements were carried out at temperatures of about 20, 40, 60, 80, and 1000C, and a velocity of air flow of about 5, 15, 30, 45 and 60 I/h. Figs. 2 and 3 show the results obtained for the rate of the removal of RuO from solutions of nitric acid in form of diagrams. A summary of the experimentally determined half- periods and of the rate constants of the removal of Ru04 from nitric acid solutions at various velocities of the air flow and temperatures of the reaction mixture is given (Table 1)~ The temperature dependence of the logarithm of the rate constant of the removal of Ru04 from nitric acid solutions with an air current at different velocities of the air flow is given in Fig. 4. Table 2 gives the values of the coefficients A,B, of the activation energy S, and of the pre-exponential factor Cc for the process mentioned. On the basis of the results obtained it may be concluded that the limitation of the process of removing Ruo 4 by the evaporation rate of water under the non-steady conditions in the quick passage of air through Card 2/3  The Rate of the Renoval of Ruthenium Tetraozide 3/054 60/000/02/13/021 From Aqueous Solutions by Means of an Air B022/ 007 Current the solution is absolutely possible. As to the decrease in activation energy with an increase in the quantity of air blown through, the latter may be explained by the use of non pre-heated air, oontrary to the con- ditions used by M. V. Tobvin and Ye. V. Savinova (Ref. 7). There are 4 figures, 2 tables, and 7 references, 4 of which are Soviet, Card 3/3  81657 S/161/60/002/06/47/050 -f . 77v 0 B006/BO56 AUTHORt Kyuller, R. L. TITLEt The Electric C onductivAt I y of Solid Ion-atom-valency- substances. IX. The Degree of Dissociation and the Mobility of' Cations in Glasses With a Single Type of Ions PERIODICAL: Fizika tverdogo tela, 1960, Vol. 2, No. 6, pp. 1333-1338 TEXTz In the present paper the author endeavors theoretically to cal- culate the mobility of the ionsV*0 in a glass having only one kind of ions. w0 does not depend on the ohemical composition of the glass and changes only little with temperature. It is essentially dependent on dissociation energy. The degree of the dissociation of the ions in the glass is determined by TV a quantity, the numerical value of which As a -isar approach to the dissociation energy of the ions in the glass. FoT- boron silicate glass with univalent cations, w oT is of the order of 5.6-lo-2 Cm 2/see.w. depends on the concentration of the polar Cari 1/3  81657 The Electric Conductivity of Solid Ion-atom- S/181/60/002/06/47/050 valency-substances. IX. The Degree of Dissocia- B006/BO56 tion and the Mobility of Cations in Glasses With a Single Type of Ions structural nodes, and with respect to the glasses under investigation, V. in a stable state does not depend on temperature. As investigations show, T # decreases with increasing content of polar nodes in the glass. Theoretical considerations are confirmed by the experimental results. The theoretical value,of (wa)T is determined by equation (3) ((x - degree of dissociation); the experimental value (w'X)e is calculated from measurements of the specific electric conductivity according to equations (4) and (6), respectively. Experimental values, take from Refs. 3-5, are given for boron silicate- and silicate glasses.in Tables I and 2. The results obtained are compared and discussed. It may be assumed that the decrease of T 0 with a growing content of polar nodes is connected with the solvating effect of the polar nodes upon the dissociated ions and vacancies. The nature of the quantities Pa (defined by equation (6)) and _V0 does not change when the glass Card 2/3  81657 The Electric Conductivity of Solid Ion-atom- S/181/60/002/06/47/050 valoncy-substances. IX. The Degree of Dissocia- B006/ 'm 056 tion and the Mobility of Cations in Glasses With a Single Type of Ions passes from the stable solid state into the liquid otatei Table 3 shows this for sodium- and potassium silicate glass. P. P. Kobeko and 0. V. Mazurin ar* mentioned. There are 3 tables and 12 references: 9 Soviet, I American, I British, 1 Dutch, and 1 French. ASSOCIATION: Leningradskiy gosudarstvennyy universitet im. A. A. Zhdanova (Leningrad State University imeni A. A. Zhdanov) SUBMITTED: October 1, 1958 (initially) and June 30, 1959 (after revision) X Card 3/3  17-c d AUTHORt Myuller, R. L. TITLEs The Electric Conductivit of substances. X. The Electric Contain Two Types of Alkali 81658 S/181/60/002/06/48/050 B006/BO56 Solid Ion-atom-valency- Conductivity of Glasses Which Ions PERIODICAL: Fizika tverdogo tela, 1960, Vol. 2, No. 6, pp. 1339-1344 TEXT: If in a glass the half of all alkali ions of one type is re- placed by such of another type, a conkderable reduction of electric conductivitAnd of dielectric losses ay be observed. This effect has already repeatedly been experimentally investigated, and the attempt was also made theoretically to explain the observed minima of conductivity and of the dielectric losses. There was, however, no general theory, and to set up such a theory the present paper makes a contribution. The paper contains a critical analysis of the influence exerted by ions upon the electric conductivity by using results obtained by earlier in- vestigations. Tables I and 2 represent the ion concentrations for various glasses (which are characterized by n,,:7.b-rFt). Fig, 1 shows th.- Card 1/3  81658 The Electric Conductivity of Solid Ion-atom- S/181/60/002/06/46/050 valency-substances. X. The Electric Conductivity B006/B056 of Glasses Which Contain Two Types of Alkali Ions dependence of the conductivity of sodium borate glasses on the volume concentration of sodium ions; here it is found that e.g. the intro- duction of about 40 weight% barium oxide into the glass reduces the conductivity of the latter at 1000[N&] - 10 to 100th. Fig. 2 shows the dependence on conductivity (here always denoted by x) of sodium borate glasses of the concentration (in mole %) of sodium oxide. Each of the two diagrams contains two curves, of which the one holds for a glass without, and the other for a glass with barium oxide. The curve of the former shows a weakly marked minimum, whereas in the latter case -log-,cincreases'%onotonically with increasing sodium content. Fig. 3 shows -logx - fkLffa2 0]) with and without barium oxide. H4,re the two curves overlap at 8 weight% Na 20. In the following, the author discusses the minimum effect in detail, especially the results obtained by investigations carried out by German authors. He points out that an explanation of the minimum effect in the case of two-cationic glasses by spatial-mechanical slowing-down cation motion is incorrect. The minimum effect may, however, be explained by the association of polar Card,2/3  8 L658 The Electric Conductivity of Solid Ion-atom- 3/181/60/002/06/48/050 valency-substances. X. The Electric Conductivity B0061BO56 of Glasses Which Contain Two Types of Alkali Ions nodes (of. papers IX and XI of this series). The author mentions N. P, Bogoroditskiy, I. D. Fridberg, G. I. Skanavi, K. I. Marty-umov, A. F. Vallter, and M. A. Gladkikh. There are 3 figures, 3 tables, and 15 refor- encesi 10 Soviet, 8 German, and I American. ASSOCIATIM Leningradakiy gosudaretyennyy universitet im~ A. A. Zhdanova (Leningrad State University imeni A. A. Zhdanov) SUBMITTEDs October 1, 1958 (initially) and July 30, 1959 (after revision) Card 3/3  81659 S/181/60/002/06/49/050 0 B006/BO56 AUTHORSi 1~yuller, R. L. TITLE- The Electric Conductivit~of Solid Ion-atom-valenoy Substances, XI. The Degree of Dissociation and the Mobility of Cations in Glasses Which Contain Two Types of Ions PERIODICAL: Fizika tverdogo tela, 1960, Vol. 2, No. 6, pp. 1345-1352 TEXT: In the present paper the s~uthor derives an equation for the molar electric conductivity of glasses kb containing two kinds of monovalent cations. According to this equation, electric conductivity, in the case of a differentiated association of polar structural nodes, is practically limited by the flux of cations of that type which predominates in the glass. The existing experimental data confirm that no spatial-mechanical hin- drance occurs in the motion of cations in complex borate- and silicate glasses. Experimental data concerning the electric conductivity of two- cationic borate- and silicate glasses confirm the existence of an entropy effect in the dissociation of cations, which causes a coupling between the Card 1/3 L~l  81659 The Electric Conductivity of Solid Ion-atom- S/181/60/002/06/49/050 valency Substances. XI. The Degree of B006/BO56 Dissociation and the Mobility of Cations in Glasses Which Contain Two Types of Ions latter and the growth of Pe and 4 according to the compensation law (Ref, 5). An analogous correlation between P. and T,~ may be observed also in glasses within the critical temperature range, and the connection existing wiihin this range with the occurrence of an entropy factor of dissociation is known (Ref. 6). Tables 1 and 3 contain a large number of experimental data concerning borate glasses, and Table 2 contains such concerning sodium-potassium-silicate glasses. The data are discussed in detail. In transition from pure single-cationic glasses to complex two- cationic glasses a dispersion of the associated polar groupings may be observed, which cause an increase of the dissociation energy of ions and of the statistical entropy factor, In borate glasses which, at the same time, contain polarized silver- and thallium ions, a reciprocal capt-are of polar struotural nodes causes them to be mixed, which, in turn, causes the minimum effect of electric conductivity to vanish; here, the quantities P and 'Y,4, do not depend on the concentration ratio of ions.(The electrir e Card 2/3  81659 The Electric Conductivity of Solid Ion-atom- S/181/60/002/06/49/050 valency Substances. XI. The Degree of B006/BO56 Dissociation and the Mobility of Cations in Glasses Which Contain Two Types of Ions conductivity of borate- and alkali silicate glasses containing two kinds of cations, the concentration of which is M.10-3molh/ml , shows a minimum effect whose physical nature is determined by Pe ' B10-1g[m] and Yl* = 4~6 A10 R, where A1(y and B10 are the coefficients of the conductivity equation ln K - -A/T + B converted to the decadic logarithmic system LMj - cation concentration). 0. V. Mazurin, Ye. S. Borisovskiy and Frenkell are mentioned. There are 3 tables and 9 referencess 8 Soviets and i German. ASSOCIATION: Leningradskiy gosudarstvennyy universitet im. A. A. Zhdanova (Leningrad State University im. A. A. Zhdanov) SUBMITTEDi October 1, 1958 (initially) and July 20, 1959 (after revision) Card 3/3 L41