SCIENTIFIC ABSTRACT STROGANOV, YE.V. - STROGANOVA, V.V.

SOV/54-518-3-16/19 AUTFORS: Tolkachev, S. S., Stro.-anov, Ye. V., Kozhina , 1. 1. TITLE: The Structure of Lead Hydroxide (Preliminary Communication) (Struktura gidrata okisi svintsa - (Predvaritellnoye soobshcheniye)) PERIODICAL: Vestnik Leningradskogo universiteta. Seriya fiziki i khimii, 19582 Nr 3, pp 134-139 (USSR) ABSTRACT: The crystal structure of netal hydroxides until now has only little been investigated because in general they are ob- tained in the form of amorphous precipitates. Lead hydroxide is able to dissolve in alkaline solutions and to crystallize from these solutions. In the present work the crystal struc- ture of lead mono-hydroxide was found. Because of data ob- tained from radiographic investigations the formula Pb(OH) 2 mu3t be ascribed to the crystal hydrate PbO.11 20. In figure 3 the structure of Pb(OH)2 is presented. In the crystalline "ard form of Pb(OH )2 the chemical bond is determined mainly by 1/2 the interaction between the lead ion and the hydroxyl ions.  The Structure of Lead Hydroxide SOV/54-58-3-16/19 (ireli,minary Communication) Nevertheless also the hydrogen ani hydroxyl bonds play a con- siderable role in the structure. On the base of some in- formation gathered and according to the approximation usual- ly employed in crystallochemistry the hydroxyl ion r~ay be represented by two spheres ME 4). This corresponds to the penetration of the proton into t:,.e sphere which gives an approximation of the oxy.-en ion (02-) within a listance of 1.13 3 from its center as viell as of' the domain of in- creased electron density formed around the proton. There are 5 figures and 3 references, 3 of which are Soviet. SUBMITTED: '~Tarch 21j, 1958 I~ard 212  AUTHORS": Struganov, Ye.V. , Kozhtna, I.I. , Andl-c""'V, 51,-10-2-13/16 TITLE: The Structure of the Clystal, CoCi 2 ' 6H20 (Struktura kristal-la COC12 * 6H 20) PERIODICAL: Ve-qt-iik Leningradscoge, Universiteta,ISeriya fiziki i khimii , 1958, Vol. 10 1Nr 2 , pp. log-i16 (USSR) ABSTRACT: Among the cobalt chlorides with different cr-js tall ization -;:ater content the compound CoC12 - 6H20 has not yet been investigated ,,rith respect to its crjstalline structure. The authors undertook to do this, hoping that knowledge of a ne-a structure would contri- bute toxards generalizing these cristal 1Vdrates. As a result of radiostructural investigation the structure of the crystal e+ COC12 - 6H20 vias determined. The crystal is composed of ions Cc Cl- and H 20 molecules. The vrater molecules occur in the crystal in t-,-r-o states: 213 of all water molecules are in the im-nediate vicin- ity of the ions C02"'. The distances betvieen ~he centers of the ,iater particles and the center of the ion CO + amount to 2.1~+kX. 113 of all water molecules is far a,.-;ay from the particles Co Card 1/2 (3.20 kX). The water molecules Jhich are nearest to the cobalt  The Structure of the Crystal CoCl DI'20 2 * " 54-10-2-11 IQ fon.n. grcurz of 4 round each o~ the Co 2+ ion and form a rectangle in the center of ,,,hich the Co-+ is located. The water molecules located at a greater distance are grouped along a straight line from both sides of this rectangle. This line passes throu6Th the center of the rectangle and -;rith its normal fonis an angle of 400- In the series of chlorine cobalt crystals aith different content of cvjstallization ,,rater the anion particles in the octahedral vicinity of Co~~+ ions are replaced by water molecules -;,ith an in- crea3ing -i-rater content in the crystal. Chlorine cobalt hexahydrate can be considered to be a complex comround. It consists of an octahedral complex JC02+ . 4H'0 . T - j and 2 rater molecules which 2 1 border immediately upon the Ct anions- It is rational to ascribe the chemical fonnula LCO(H201,912] - 2H20 to this substance in solid condition. There are 3.figures, 5 tables, and 3 references, allof which are Soviet. SUBMITTED: November -19, 1957 AVAILABLE: Library of Congress Card 212 1. Crystals-Structure 2. Crystal hydrates,"itructural analysis  STROGANOV, Ye.T.; KOZHINA, I.I.; ANMIEV, S.N. - " I - Crystalline structure of CoCi 6~20 [with sm-ry in Bn,-,Iishj. Vest. IGU 13 no.10:109-116 '_;~: (KIRA 11:6) ,(Cobalt chloride) :;. (Crystallography)  50) 5OV/54-59--'4/2r o AUTHOR: L;troganov, Ye V TITLE: On the somorphism of Crystals of Triphenyl Chlorides c.,' Ar,~-_- mony and Bismuth (0b izomorfizine kristallov trifenilkhloridov surlmy i visinuta) FERIODICAL: Veotnik Lening .L - _;radi3kogo universiteta, Scriya fiziki i. khimti, 19r1,9, Nr 1, pp 103-106 (US~;R) ABSTRACT: In the present paper the author investi~;ated the crystall'Ane sLb- stances Sb(C,H ) C1 and B-t(C H ) C1 b~, the aid of X-ray struc- 0 5 3 2 6 5 3 2 tural analysis On the basis of goniometric measuremert:~ he cal- culated the axial ratios of the crystal sections (Table 1) The Laue diagrams were plotted for both crystalo. Apprcximate cal- culations of the identity periods of crystals were then carried out, as ggiven in table 2, The exact values rare deternined from the 'Wei3eziberg and Yong X-ray diagrams (Table 3). The identity periods of both crystals are neither the same nor multiple, i.e. the simple characteri-stico of the isomorphous crystal series are not to be found there. They belong, however, to the same spatial group, their elementary cell volumes are duplicated and their Card 112 multiplicity number duplic-ates as well The explanation of the  SOVI/54- 59-1- 14/25 On the Isomorphisin of 'Cryutals of Triphenyl Chloi -ides ef Antimony and Bismuth facto observed may acoording tr, V, Dz Nefedov oe f,~und in the chemical as well as in the structuril similarity of the sub- stances A closer explanation, however, calls for a more accu- rate structural arialy-is of both substances. The author thanks V D. Nefedov f*cr crystals put at hio disposal. There are 4 tables aad 4 Soviez references, 5UBMITTED: June 28, 19'.!U Card 212  AUTHOR: strc~;ano%r,. Ye,--V-- 3OV/54-1q9-'-24/2r, TI T LE Simplified Methodi of Fourier Series Calculaticn in Cr-,-sta-1 1~'tructure Inal-;zes (Uproshchennaya metodika ;ychisleriiya ryadov Fur'ye ~ri strukturno-m issledovani-- kri!,tallov) Pi~HIMCAL: Vestn.4k Leningradskogo univers-iteta Scriya fizik4- i kh;.mll, 1959, Nr A,B-`T Z A C T 11 new tabulai dr-,vice for the calcul~----tior of the Fourier L;eraes is [;iven wrhich -~s cur.,6--derably simpler than the devices used hitherto (Refs ',2) It consists in p:rinciple only of a card- J board model with rectangular apertUres If e.E. the sc-rieo of the '~-pe 2C(h)ros2-7--hx is examined the rectanEular a1pertures are h provided -aith nurabers of "he harmorlics h. The apertures are pro- vided with a. division. inw N part,, and in thc,,a the vulue-cz for coq2~-,hx in 'he interval 0 1~~ x11 are plotted. By means of the values of the coeffici-~nits of C( h) , a loGari thmf~: rule--r , and the :.-:odel with the plotted value3 for cos2jThx all values of C(h)co~;27Fhx fov all x can be obtained in tabulated form Th summ,ing up in the columns of th--~; table y1elds the final values Card 1/2 of the oeries for d~ffurent x The given =ethod of sal~-ula-.ion  SOV/54-59-,-24/2r, Simplified IA,~~thod of F,uri(-,r aeries Calculation i:1 Cr~'Stal Structure Analyses SUBMITTED: is eopecially suitable for the initial investiF7-ations of unknown structures. By means of thit3 method it is possible to carry out the calculations for different N which facilitates the determi- riation of the optimum fiFure of the N divisions of the otructure to be investigated. The method described is especially suitable for students who must carry out Practical work connected with harmonic analyses. There are 2 references, March 17, 1958 Card 2/2  5 M AUTHORS: Andreyev, S. N., Stroganov, Ye. V., SOV/79-29-5-75/75 Khaldin, V. G. TITLE; A Subject of Discussion (V poryadke diskusaii). On the Applicability of the Equation by A. F. -Kapustinskiy for the Computation of the Energy of Crystal Lattices of Complex Salts (0 primenimosti uravneniya A. F. Kapustinskogo dlya rascheta energii kristallicheskikh reshetok komleksnykh soley) PERIODICAL: Zhurnal obshchey khimii, 1959, Vol 29, Nr 5, PP 1753 - 1757 (USSR) ABSTRACT: This is a discussion dealing with the suggestion made by K. B. Yatsi-mirskiy that the radius of the complex ion be introducedlinto"Kapustinskiyls equation for the computation of lattice energies of tetrahedric and octahedric complex salts. For this purpose the ion radius was determined from the X-ray structural data for 18 such complex ions and compared with thv calculations frog the Kapustin6kiy formula (Table). For salts with ions CrO - , so 4- 2, Clo 4- and MX6t2 ~of the structure type K 2- TC1 61 ) a good agreement Card 112 is obtained. Thus, the equation by A. F. Kapustinskiy may be  A Subject of Discussion. On the Applicability SOV/79-29-5-7505 of the Equation by A. F. Kapustinskiy for the Computation of the Energy of Crystal Lattices of Complex Salts well used for the determination of lattice energies of tetrahedric and octahedric complex salts. The authors thank K. P. Mishchenko for valuable critical remarks. There aro 1 table and 11 references,. 6-of which are Soviet. ASSOCIATION: Leningradskiy gosudarstvennyy universitet (Leningrad State University) SUBMITTED: May 30, 1958 Card 2/2 USCOW-Wz.41,2~Z  5(2) AUTHORS: Andreyev, S. N., Khaldin, V. G., SOV/79-29-6-6/72 Stroganov, Ye. V. . TITLE: Hydration Heats of the Ions Me(H 0)+ 2 (0 teplotakh gidrat- 2 6 1 +2 atsii ionov Me(H 20)6 ) PERIODICAL: Zhurnal obshchey khimii, 1959, Vol 29, Nr 6, PP 1798-1801 (USSR) ABSTRACT: The investigation of the hydrate sheathe of ions in solutions was hitherto one of the most difficult problems, since physico-chemical methods are missing, which permit the in- vestigation of the state of the water molecules isolated from the remaining mass of the solvent, which envelop the ions. The manifoldness of the chemical properties of the ions is another difficulty to be met with in this investigation. For the solution of this problem a many-sided investigation of the aquo-ions which are constituents of the crystal lattLes of the crystal hydrates of different salts, and the investi- gation of the properties of the water molecules which envelop the ions in the crystal hydrates could be of decisive importance. On the basis of the papers by K. B. Yatsimirskiy Card 1/4 (Refs 1-5) the authors arrived at the conclusion that the  Hydration Heats of the Ions Me(H 0)+2 SOV/79-29-6-6/72 2 6 investigation of the hydration heats of the aquo-ions Me(H 0)+2 initiated by this scientist had to be continued. 2 6 For this purpose one should start with the crystal hydrates, the crystal lattices of which are already thoroughly investi- gated with respect to their structure. Also in the present case the data of a X-ray analysis confirmed the presence of the ions Me(H 0)+2 in the molecule of the crystal hydrates. 2 6 The addition energy of the water molecules onto the ions Me'2 as well as the hydration heat of the aquo-ions Me(H 0)+2 2 6 can be determined if the primary integral heats of solution and energy of the crystal lattices of the salts are known. On the basis of the primary integral solution heats of the crystal hydrates of the metal perchlorides the standard formation heats of the following compounds were determined: Zn(ClO 4~' 6H 20, Cd(ClO 4)2' 6H 20, Mn(ClO 4)2 . 6H20' Fe(ClO 4)2 . 6H 201 Co(Cl04)2 .6H 201 N'(C'04)2' 6H20. According Card 214 to the equation of A. F. Kapustinskiy (Ref 10) the energy  Hydration Heats of the Ions Me(H 0 )+2 SOV/79-29-6-6/72 2 6 values of the crystal lattices of the crystal hydrates of the perchlorates Mg, Zn, Cd, Nin, Fe, Co, and Ni were deter- mined, the formation heats of the aquo-ions Mg(H +2 P 20)6 Zn(H +2 Cd(H +2 , Mn(H +2 , Fe(H 0) +2 , CO(H 0)+2 20)6 ' 20)6 20)6 2 6 2 6 ' Ni(H 0 +2 the energy values of the addition of water to 2 6 +2 the io s Me in the gaseous phase and their hydration heats of the ions Me(H 0)+2. These results are in agreement with 2 6 those obtained by K. B. Yatsimirskiy. It was shown that the hydration heats of the aquo-ions form about the half of the +2 hydration heat of the ions Me .The water molecules in the aqua-ion ble(H 0)+2 are considerably polarized. These aqua- 2 6 ions are so-called "Aqua Acids" (Refs 17-19). The authors express their gratitude to A. F. Kapustinskiy and K. P~ Mishchenko for valuable advice. There are 3 tables and 19 references, 16 of which are Soviet. Card 3/4  Hydration Heats of the Ions Me(H 0) +2 SOY/79-29-6-6/72 2 6 ASSOCIATION: Leningradskiy gosudarstvennyy universitet (Leningrad State University) SUBMITTED: May 30, 1958 Card 4/4  22455 S/186/60/002/001/005/022 A057/A129 ..'A (2/00 AUTHORS: Vdovenko, V.M.; Stroganov, Ye.V.; Sokolov, A.P.; Zand1n, V.N. Ueceaseck TITLE: The structure of the hexahydrate of uranyl nitrate PERIODICAL: Radiokhimiya, v. 2, no.,I, 1960, 24 - 31 TEXT: Using the method of Fourier series the authors determined the posi- tion of the uranium particles in the crystal of uranyl nitrate hexahydrate from x-ray data-and suggest a model of the crystal structure. This structure Is im- portant for extraction of uranyl complexes, because crystal solvates acre very-- similar to solvated ions [Ref. 1: Ye. V. Stroganov, S.N. Andreyev, N.I. Kozhina, Vest. LOU, 10, 2, 109 (1958)]. On the other hand structural data are of interest for the classification of this Impprtant group of complexes, and until the begin- ning of the present investigations the structure of uranyl nitrate hexahydrate was not determined. L. Pauling and R.G. Dickinson [Ref. 4: J. Am. Chem. Soc., 46, 1615 (1924)] assumed space-group symmetry DY, - cmcm with uranium-in position (c),,and Y - 0.130. Making allowance for the principle developed by R. Kern et al. Ref. 6: Bull. Soc. fr. min. et Grist., 81, 4, 103 (1958)] the present au- Card 1/10  22455 S/186/60/002/001/005/022 The structure of the hexahydrate of uranyl nitrate A057/A129 thors determined a space-group CJv2 - Cme (Y = 0.130, z - 0) with a quadruple reg- ulated system of positions (a) for the uranium particles. The same space-group was discovered already in 1957 by K. Sasvhri [Ref. 7: Acta Geologica Acad. Sci. Hung., 4, 3, 467 (1957)] by means of a piezoelectric effect. In the present ex- periments yellow-green uranyl nitrate hexahydrate,arystals were used with the crystal form presented in Figure 1. The x-ray diffraction data were obtained from Laue or Weissenburg diffraction patterns and oscillation photographs. The structural data correspond to those obtained by SasvAri (see Table 1). By pre- paring the diffraction patterns using Fourier series and calculating the electron densi -ty, coordinates for all particles were determined. From the obtained values a projection of elect~on-defisity in the planes XY and XZ was plotted (Fig. 4). Uranium particles have a T.000 maximum (see Fig. 4), while the' 1,500 maxima cor- respond to the water molecules, and the 1,800 maxima (in XZ plane) are due to oxygen of the uranyl group. From the difference between the Fourier series and electroft density projections (Fig. 4c) the accurate distance between the uranium particle and oxygen (in the uranyl group) was determined as 1.90 f 0.13 A. The maxima -500 (Fig. 4c) and -1,000 (Fig. 4a) correspond to the oxygen of the N - groups. The approximate coordinates are given In Table 2. The present resull indicate that the hexahydrate of uranyl nitrate represents an ion compound compo&- Card ?_/10  s/i86/6o/oo2/ooi/005/022 The ,tructure of thehexahydrate of uranyl nitrate A057/A129 ed of aqua-complex cations U02(H20)612+ and NOj anions. Thus the chemical for- mula should read [U02(H200(NO3)2' The oxygen atoms of the nitrate group are in the vertex of an ejuilateral tr1angle (side length 2.66 1). In the basis of the complex [U02(H20)6 2+ Ions there is'a linear uranyl group. The distance uranium - oxygen is here 1.90 A. Two possibilities for the distribution of the water molecules are studied by the present authors. Plirst variant: According to the data of Fourier series and table 2 the maxima of the electron density indicate that-the water molecules 2, 3, 5 and 6 (Figv 5) lie in a plane parallel to the equatorial plane at a distance of 0.3 L while the water,molecules I and 4 are in an equal plane on the opposite side of the equator. The dfstance between 2 - 3 and 5 - 6 is 2.82 A and between 1 - 2, 3 - 4, 4 - 5, and 6 - 1 it is 1.90 1. The second, idealized,.variant: This distribution is represented by the rotation of the water molecules 2, 3, 5 and 6 around the uranyl axis, assuming an equal dis- tance of 2.30 A between the water molecules-. The fact.that this distance is smaller than theiradii of-two water molecules (- 2b66 1), can be explained by the strong deformation of the water molecule caused by the uranium field and forma- tion of bonds between the molecules. Both proposed distribution variants are similar to the structure of uranyl aqua-complexes presented by I.I. Lipilina and O.Ya. Samoylov [Ref. 10: DAN SSSR, 98, 1, 99 (1954); Ref. 12: DAN SSSR, 122, 2, Card 3/10  22455 S/186/60/002/001/005/022 The structure of the hexahydrate of uranYl nitrate A057/A129 238 (1958)]. Equatorial distribution of particles around the uranyl ion was ob- served in other uranyl complexes by W.H. Zachariasen [Ref. 8: Acts. Cristallogr... 7, 795 (1954)]. The NO~ ions form a reticulated layer parallel to the XY plane, j while the [U02(H20)d2+cations form linear chains parallel to the Z axis. The axial directions of the uranyl groups are In a plane parallel to YZ under an angle of -370 to the Y axis. Each IU02(H20)612+ cation is surrounded by 12 N(~ ions and 6 cations~have one~anion in common. The distance between the uranium atom and the water moleeule in the aqua-complex cation was determined as 242 1. Cal- culations of the spherical volume give a value for the packing coefficient of Kspherical = 46-5%. Thus it is very likely that heating of the crystal causes rotation of the NOS groitps, and the following revolution around the axis vertical to the triangle (formed by this group). There are 5 figures, 2 tables and 12 references: 4 Soviet-bloc and~8 non-Soviet-bloc. SUBMITTED., July 2, 1959 Card 4/10  STROGANCV, Te.V.; KOZHINA, I.I.; ANDREYEV, S.N.; KOLTADIN, A.B. Crystal structure of crystal hydrate salts of transition metals. Part 2: Structure of the crystal MC12.4%0. Vest. LGU 15 no.4: 130-137 16o. (MIRA 13:2) (Nickel chloride crystals)  --- ~STJIWAFOV, Ye.V.; EDZHIIU, I.I.; MIDRYM, S.N. Structure of crystals of NiCl. 6~20. Vest IGU 15 no.16:109-112 16o. (KIRA 13:8) (Nickel chloride)  23872 A/I 8 IY61/003/001/005/020 A05 A129 'IT / J/ 00 AUTHORSs Vdovenkoq V.M., Stroganov, Ye.V., Sokolov, A.P. TITLEt The structural investigation of trihydrate and dihydrate uranyl- nitrate crystals PERIODICALs Radiokhimiya, v 3, no.1, 1961, 19-23 TEXT-. The authors have developed a method for taking roentgenograms of the single crystals of hygrosoopic substances and have produced UO 2(No ).)-3H 0 and UO 02 crystals. The main oharanteristios of the Ur&nM"itr?te 2(NO3)2 H20 trihydrate and dihydrate lattioe hava b?en ?,st:iblishal. The 'Dre,3ent artiale deals with the fi----t half :if ~~ stady -he aqua-l-CIMP14!x compo~IncLi of uranyl through the stru~itural trihy.irate and J.-hytrat-, of uranylnitrate. The authors p- Dve that -.. ran- eli'~ngs t:) I yl;iitrate dihydrate b the monotNlinic syngany ::-ather ths:tn to th-? 71yngony assumed by Vasil?- yev (Ref. 5). The UO 2(N0 ) 2 03H20 -lingl,~ .-rystalz- were produoed a.-.-,orq;ng t,) anylnit-ati~ t ,n s Colani's method I%Ref. 0 3by varn-ating and :-ooli.ng ur' Sol Card 1/1)  ZY-Vr___ A/18 61/00_':,t,/OQ 16051020 The structural investigation nf trihyd~,a,',;~ A051YA:29 containing nitric acid from 36 to 53%, --OHIO single ,ry,3tal.3 were produced by dissolving finely-crystalline U'ranjliij ~rltp dihydrate in 98~- HNO while heating slightly. Fig I is a di%gram thr, apparatas used for phoiographing the ctryatals. Lauegrams and of osrillatl'ins were taken using the kPO H -2 (KRON-2 pep (RU % Orl (RKOP) and C - "5(S-25) type i~hambers. Dejongograms were obtainad on a ter aocording to De Jong. Weissenbergograms were taken c-n i 1 (PGTK-1) and S-55 roent- genogoni~,meters. Roentgenograms of all typea were tiLkan on tabes with -.opper anticathodes, exceptfng uertain lauegrams taken or, eilve7 emission. The computation of the (*,,-. and ~ -angles for the trl'.hydrate of uranylnitrate was conducted by using the dejongograms according to Burger's method (Ref 7) of the "displacement" of planes. Angle T was somputed according to the formulas Cos 7-= oos D-cos (3 -sin Ck-_-inf3-aos-~, obtained by studying the elementary triclinal cell and the plane of the reverse lattice normal to the side c. Burger's formula (Ref 7) is said to be more complex. The crystallographic investigationsof the dihydrate of uranylnitrate were condu3ted on a bi- -annullar goniometer (Federov). The obtained coordinates of the planes and the corresponding hk1 indices are given in table 1. The dimensions of the Card 2/5  239 7 2 S/1 86/61/003 /001 /005/02 0 The structural investigation of trihydrate A051/A129 elementary cell UO 2(NO ) -2H 0 were obtained from the oscillation roentgeno- grams. The obtained vIlaes 9haracterizing the elementary cells of both in- vestigated crystals are given in table 2. 'The complete solution of the structures of the two crystals based on the analysis of the reflex intensi- ties using the calculations of Patterson's functions and the electronic density are to be published in a later issue. There are 7 figures, 2 tables and 8 references: 4 Soviet-bloc, 4 non-Soviet-bloo. Table 1: hkl Crystallographic symbols and ioo goo 000 coordinates of the faces of ~ ~ 0 .1 0 uranylnitrate dihydrate. 110 1 300 1 go 0 f0) ( 330 go 00 ; 0 270 0 go ~110 0 210 0 90 110 0 150 ,, 0- 9 201 1 0 90 0 0 134 301 0 1 001 go i 199 223 1 0 9 0 143 Card 3/5 223 10 17 0 143  The structural investigation of trihydrate ... Figure 1: quartzite ampoule with crystal prepared for photography: 1- quartzite ampoule, 2- crystal, 3- glass thread, 4- plastilene, 5- investigated substance, 6- Mendeleyev paste. 23872 S/186/61/003/001/005/020 A051/A129 Card 4/5  The -7~ --r,,.i !..:ivez '-' gat! 11 -,r 'hydrate A05 :/A!29 Tab,-- 2~ D a t a ~~r, t h E- el e z. an t ayI f TJ 0, N 0 2 2 2 3 2 2 ..,H,O and Uc (No 2H 0 Cry.? Laue dif f ra-i.- 11 - c arg-, sutq-... Nc- -,f ,~Iass 5ymb-.1 e.C-=Gnt- c- I emer. t - an,;s f .) r t."& 1. 11 ary ary "e~. den3lty -an i e 99 j*5-,~, "H'o 9 A 2 "-~A~ 90 7 a 1~ 't. 15 uo Yo ".:s '/m 2/zC./.. ~ / - 2 2 3 card 5/5  :1 /oou/Oo-,,./(;o:",/0O8 AJITIMM -itro, ~mov, Ye. V JOLOV -1 c T IT I i,: c I o 1 t! I 0~ r c se r r1 id Ell,, I (A) IJLe, n i I ("IdTie 1,;-. i Le vVc.", ;,I!, :~c_,riya matematiki, mekkaniki j. astronomii, rio, L9o) 1.69-1.71 Ti~XT clesignii,-', I-lo-, compul-er , tht--- ,L:Ol 1.uwixq~ )_coals were set,' to cor.,.i i - ,and SpCed Up COMPOLLtLous, and to make i t so S 171r) 10 t li a 1: i -~_ coiiche constu,,icted i-,: the Laborintory. The mac hi. ne hns i_-:~ of iid(ling onf--dimmnsional. -ierics of type N, 300 61) _)s ~j h-, for x e 0, 1, 2 ri-, easy to i-r(,-v-;c!c.rthv~ s eparate ad(litiori nF OV121L (h~ 21-L) c)(,Id (i-1-2nl) model of the Card  s/fv~ -~~,/61./000/003/008/008 ('01111)111 (.1- 1 )1, cal, III D .') 0 10 5 and 11 - o(I TtIO L~- i IQ; -:)fiziciplo iL; as 'Pi,.c L;ouL.-ht-for sums a---c FOlUid I)-" ,Pa-U, "' 11" til,C' -V0 I L a-e of a system o'L-' series -con- nCCtCfl~ Volt; h caj)ac-iLor shoul.d correspond i1111c 0I (21111CI to the vl~.]-,.ie of F(10r-osi.6IL%0, For sLabil-;Z,iLio1i O.L' UIC! C~-paCitorS, 2 volta,,c sta"t-ilizers ~?cre seri~,-,.-corinecte(I in silch a way that the 3 outp~lt Leria-Inals ()1' t;10 1-zistrument corresponcec to voltage values of 100, --.11d .100 v, T110 Capacitors ~-.rere ciiilr~,ed by potentimLieters, a-Lid R., A consistim- o~,rh of tt-.ro resi.stors r,1-,, stabilized voltagc ol. 1vi , 100 v was appli.e(l to the terminals of the poteritiomete-rs, as a rcsult f--)E- uhich th,~ vol-Lage-drop on R was found Lo '-;e !v1 cos(611-Lx)' I.egative series coefficients were accou- nted for 'Dy a chantro. of' poles, 17or computinr~ series with harmonics not highcr t1ian the eighth. 8 capacitors (capacity z 10/~-' farad) IlCr(' LISCO The coeff.icieiits F(h) were given by 9 resistors R. The potcnLiomoLcrs an(I cq),,,,.ci.tors wore connected and ,lisconnected by relay,: The values and si-,ns of' the series -coe-f.Ficients are applied to th~~ -,aciiino bv mcans o-jF mova',-.Ic contact.; o-, R. and by tuniblers at th~-! nutpiic of HIC, mL-L*n Unit (for tl,,,o ~:izns) The rate of compu- tin- t1fic ~-,um of a series-, for 5, positio-. s is of the ord'er of 2 mins, C ard 21/5  )/Oopj Iov!; not c1c")orIft 0 off ii'volv c L t c e P, T1 I I"-C- Col' j7)Ut,'jtj.Cjj I erl'or (I c! S n o t: 2 L! I. i s c d, for Our Ler- synt, 1~,C, Ses --O-d~lvz- ~vennyy till'i.versitcL Ul"'l-vorsiry) in t',io f prac - tico There is i I L-",I-11-C a r,,'  __ STROGANOV, Yo.V.; SOLOVIYEV, V.Yo.; '.!ENI~AIKOVI G.G. Computer for calculating trigonometric series in X-ray diffraction examination [with sunmry in English). Vest. LGU no-13:169-171 161. (MIRA 14:7) M.-VAys-Diffraction) (Electronic calculating machines)  0 STROGAIIOV, YP.V.; ANDREYLAT, S.D.; KNIIINA, I.I.; SOIjC'VIYE V) V.Ye. -- crystal structure of crystal hydrates of transition metal salts ystal structure. Vest LGU 16 no.16:114- Part 3: CoBr2. 6H20 cr, 119 161. (Cobalt halides) (MIRA 14:8) (Crystal lattices)  VDOVENKO, V.M.; ST-ROGANOV, Ye.V.; SOKOLOV, A.P.; LUNGU, G. Structure of uranyl nitrate dihydrate. Radiokhimia 4 no.1:59-66 162. (MIRA 15t4) (Uranyl nitrate)  SHCHUKARKV, S.A.; STROGANOV, Ye.V.; ANDREYEV, S.W.; PURVINSKIY, O.F. Crystal structure of the crystal hydrates of transition metal salts. Structure of CoI2.6kO. Zhur.strukt.khim. /+ no.lt63-66 ,Ta-F 163. (MIRA 16:2) L laningradskiy gosudarstvpmyy universitet. (Cobalt iodides) (Clwtallography)  VDOVENKO, V.M.;_STROGANOV,_Ye.V.; SOKOLOV, A.P. Structare of uranyl nitrate trihydrate. Radiokhimiia 5 n6.1:97-103 163. (MIRA 16:2) (Uranyl nitrate crystals)  ANDREYEVA, M,V.; STROGANOV, Ye.V. Spectrophotcometric study of ethanol solutions of GoCl and GoBr2 with a high concentration of Cl" and Br-. Dokl. AN ;G 151 no.3.-567-569 Jl 163. (ICU 16:9) 1. Lemingradskly tekstIlInyy institut im. S.M.Kirova. Predstavleno akadem-ikom I.I.Chernyayevym. (Cobalt halides-Spectra)  GUSEV. S.I.. KUMOV. V.1., STROGANOVA, A.M. -~- Use of ~-oxyuaphthoic Aldehyde in analytical chemistry. Part 1. Gravimetric and volumetric samimicro determination of magnesium. Zhur.anal.khim. 10 no.6:349-354 N-D '55. (MM 9:3) 1. Holotovskiy gosudarstvennyy meditsinekly Institut. (Aldehydes) (Magnesium)  o of 2-hydr~~-nSLh1rha;kIrle de in avalytical ch(!M- I scinirnicro deter / ."IJYI A~ld manstion of 41 "N \1  1. STF-OGANOVA, A. S. 2. *,J-5 sR (6oo) 4. Mammals - Stalink~rad Province 7. Mammal fauna of the irrigated lands and afforected areas of the Valuyki Ihmeri- mental-Soil. Improvement Station (Stalingrad Province). Trudy Zool inst. No. 11 1952- 9. Monthl List of Russian Accessions, Library of Congress, April 1953, Uncl.  STRWAHOVA,A.S. Mammals of the steppe and semiarid trans-Volga region. Trudy zool. inst. 16:30-116 '54. (KIBA 8:6) (Caspian Dgpression--Kammals) (Volga Valley--Kammals)  STROGANO Sciuridae in the southern part of Yunnan Pro-ince (China) [with all ry in English]. Zool. zhur. 36 no.11:1761-1769 N 157. (KEaA 10-.11) 1. Zoologicheekly institut AN SSSR (Ioningrad). (Yunnan Province-Squirrels)  STROGAIJOVA, A.S. Ecological study of the Caucasian squirrel Sciurux (Tenes) anomalus GUd. 1792. Trudy zool. inst. 25:304-320 158. (min 11:8) (Caucasus--Squirrels)  VERESHUGIN, N.K.; CrEPTNER, V.G.; STROGANOVA, A.S. Time and causna of extinction of the Caucasian narmot. Hauch.dokl. vyB.shko17; blol.naukl no.2:36-38 '59. (MIU 12:6) 1. Rokomendovana kafedroy zoologii pozvonochny1ch 14oskovskogo gonudarntvennogo univorsitata Im. M.Lononosova. (Caucasun-Marmota, Fossil)  STROGANOVA ANNA S. (USSR) - I I - I - -- ------ "Character of biology of Citellus relictus and methods of determining its population density in Russia" rc-r(-.rt T,,r-entt2d at the iriti. S - 1. - jI-o-ZiUm on. Mt~,thods of Theriological lnvc-2~~i.t'.atlon. Brno, Czech., I :~ ~'I -4sept. I)60  STROGANOVA, A.S,; CHZHU DIN' (Chu Tin] Systematic position of the relict suslik (Citellue relictus Ka4chk.) and materials on its ecology in the Kuuluk-Tau (central Tien Shan). Trudy Zool. inst. 29:81-100 161. (MIRA 14W (Kuuluk-Tau-Susliks)  L 16051-66 E7vP(e)/E_',.'T(m )'/~,7-iF(t) IJF(C) JDIJG ACC NR: AP6005515 SOURCE CODE: UR/0080/66/039/001/0013/0020 AUTHOR: Markovskiy, L. Ya.; Vekshina, N.-V.; Kondrashev, Yu. D.; Strog~nova, I. M.~ ORG: none TITLE: Ternary compounds in the beryllium-boron-carbon system I -w7 -3,7 SOURCE: Zhurnal prikladnoy khimii, v. 39, no. 1, 1966, 13-20 TOPIC TAGS* beryllium compound, boron compound, carbide, crystal structure ABSTRACT: To study the reaction of beryllium with boron and carbon, powder mixtures of the components were sintemd at 1200-20000C. and the products were subjected to x-ray and chemical phase analysis. The data showed the existence of two beryllium borocarbides2 BeC2B2 and BeC B The structure of BeC2B2, (studied by the single crystal method) is character z by a hexagonal system, Laue class Lmm, and lattice dim constants a = 10.84 and c = 6.18. The structure of BeC2B12, (Stu ed by the powder method) belongs I the B4C(B12CO structural type. The lattice constants are a = 5.615, c = 12.28 , c/a = 2.187. It is shown that in contrast to alkaline earth and rare earth borocarbides, beryllium borocarbides are chemically stable compounds and Card 1/2 UDC: 546.45127126  'L. 16051-A-0, ACC NR: AP6005515 do not undergo hydrolytic decomposition. Ternary compounds of beryllium with boron' and carbon form from the elements and also as a result of the reaction of beryllium borides, beryllium carbide Be2C, and boron carbide with one another as well as with elemental carbon, boron, and beryllium respectively. Orig. art. has: I figure and. 6 tables. SUB CODE: 07/ SUBM DATE: 070ct63/ ORIG REF: Oll/ OTH REF: 009 Card 212  1. T.r. 2. (600') 4. Oriental Studies 7. Eastern sciences section. Vest. Len. un. 7. no. 3. 1952. 9. Monthly List of Russian Accessions, Library of Congress, Februa= -1953. Unclassified.  AUTHORS: Krinclaik, G. S, a nd Stro anova, 1~ S. 9 TITI&,. _ J~ It "of Ircr., Nickel and Cobalt in bLa v, _ne t ~j --,qpL:~c ae:~t 1,3 5 the Ultraviolet Range R-a-Gnitoopticheskiye svoystva zheleza, nilkelya I koballta v ulitrafioletovoy oblasti) Pt-RIODICAL-. Fizika metaliov I metal'Lovedeniye, Vol 7, Nr 3, pp 460-461 (USSR) ABSTRACT: blag-neto-optleal measurements were carried out in the ultra- violet portion of the spectrum In order to widen the frequency range in whii~h the dynamic properties of ferromagnets are inve stiga tc-d ,The effect of change in intensity of reflected 11~-,ht on re-magnetizing the specimen was measured in the v1sible as well as in the infrared region by KrInchik (Ref.1) and Krinchik et alia (Ref.2). The equipment was laid out according to the plan given by -Krinchik (Ref.1), but instead of' the photo-resister FSK-1) the photo -intensif ler FEU-1b0-- and the photoelectric celf-STaV-4-L.-l were included. The spectrG- ~~raph ISP-22,,,~ provided mercury quartz 1&LMJR FRK-4 -:', served a 6---i--mano chi- omator. Nickel and cobalt speciffe-E& were girl J/22 polished mochanically and fixed between the terminals of small Ll~  . ". ~;'j / -L - J'- -'/'-5-~2/44' Magneto-optical Properties ofIron, Nickel and Cobalt in the Ultraviolet Rantle. electro-magnets. In measurements using Armco iron part of the magnetic circuit surface was polished and served as a specimen. The authors obtained graphs for the dependence of the effect on the current In magmetizing coils for Fe, Co and Ni in the visible light region. Results obtained in the magnetic saturation region for a few intensive mercury lines are given in the table on p 460. Values of Ml and M have been calculated by formulae obtained by Krinchik (Nef.1), and the optical constants are taken from Minor (Ref.3). There is 1 table, and 5 references of which 2 are Soviet, 2 English and 1 German. ASSOCIATION: Moskovskiy gosudarstvennyy universitet imeni X. V. Lomonosova (Moscow State University imeni M. V. Lomonosov) SUBMITTED: May 26, 1958 ~Jard 2/2  KOROVIIIA. A.; STROGAIIOVA, L., redaktor; CHERTOVA, Zh., tekhnicheskiy rodAktor. - - ~ . [Moscow zoological park] Moskovskii soopark. Kooky&, Goo. isd-vo izobrazi tell nogo iskusetva (IZOGIZ), 1954. [unpaged] (KEJU 7:9) (Moscow--Zoological gardens) (Zoological gardens--Moscow)  WR'~GANHVA, L. , roduktor. [Crilqna] Kryn. fMoskva, IzOPiz, 1.9551 30 111,18. pootcards. (Crimea.--Views) WLRA 8:8)  STROGANOVA, L., rodaktor. , [Moscow] Moskva. M*skya, Gee. izd-ve izebrazito!'Rogo iskusstva, 1955. 77 P. (MIXA 9:4) (Moscom-Description)  V~, T redaktor EIn the Tien Shan] V gorakh Tian'-Shanis. Cn.p.. Izogiz, 19561 15 post cards (in portfolio) (MIBA 10:4 (Tien Shan--Views)  STROGAIMA, L., redaktor [Througb Karelia] Po Karelil. [n.p., Izogiz, 19561 15 Post cards (in portfolio). (MLRA 10:5) Marelia-Views)  STROGATTOVA, L.,,red. I _t SItalingrad] Stalingrad. [Moskva, Ixogiz, 19581 12 post cards (in portfolio) (Stalingrad-Views) (MIRA 11:10)  FILATOV., I.K.P inzh.; STROGANOVA, L.I.,, inzh.; MOROZOVL, T.V., inzh. Insulating rail bond with inserts made with polymer materials. Vest,TSNIINPS 21 no.7:5&-61 162. (MIRA 15:12) (Electric insulators and insulation) (Plastics)  NICHIPOROYICH, A.A.; SMOGONOTA, L.Ye.; CHHORA, S.N.; YMSOTA, M.P.; MSABOY, A.L., otj.-ja~d.'; MMOYATOTA, I.B., red.izd-ve; YUKOVA, Y.K., tekhn.red. [Photosynthetic activity of cultivated plants; methods and object of records kept in connection with the formation of grain] Potoainteticheakaia deistel'nost' rastenii v posevakh; metody i zadachi ucheta v sviazi a formirovaniem urozbaev. Moskva, Izd-vo Akad.imuk SSSR, 1961. 132 p. (MIRA 14:4) (Photosynthesis)  STROGANOVA, ~, .I.F.; DONICLVICE, kand.med.nauk Some measures to improve the nedical attendance of women in the Mord ovian A. S. 5. ill. Zdrav. hos. Feder . 5 no. 8: 22-29 Ag( 161. MI,U 14: 10) 1. Ministr zdravookhraneniya Mordovskoy ASSR (for Stroganova). 2. Glavnyy akusher-ginekolog Ministeritva zdravookhraneniya Mordovskoy, ASSH (for Donigovich). (MORDOVIA-PRENATAL CARE)  KARGOLINA. V.L.; SMOGANOVA. M.N. - Jupiter in 1950. Blu.I.VAGO no.18:37-JW '569 (MLRA 10: 1) 1. Moskovskoye otdaleniye Vaesoyuznogo astronomo-geodazichaskogo obahchestva, otdol planet i lunjr. (Jupiter (Planet))  STROGANO", N.P. Some characteristics of cardiovascular reactions In experimental hypertension in old animals. Vop. geron. I geriat. 4:67-72 165. (MRA 18:5) 1. Institut gerontologii A14N SSSR, Kiyev.  STROGANOVA, U.S. '_ 'development of male genital cells in mammals. Ixv, Akad. nauk SSSR. Ser. Biol no. 6:37-48 Nov-Dec 1952. (CIAL 23:3) 1. Departmqnt of Genetics and Selection, Moscow Order of Lenin State University imeni M. V. Lomonosov.  STROGANOVA, N. S. U"IS-11/~-'erlicine - Immunology 21 May 52 T.:-~~uiiological Activity of Cells in the Central :.ystem," N. S. Stroganova, Moscow State U 1%~enL ~. V. Lomonosov .. Pok 'I-, *,iu'.- FSSR"Vol LMIV, No 3, PP 595-597 Usir,J '-','ryi:an blue, showed how the central nervous systein of adult rabbits, through the action of leuco,--ytes which phagocy-tize the dye5tuff, rids itself rf foreign substances that reach it by the way of the blood stream. The mechanism of cell im- munit 'ywhich has been described, while effective in Chp brain of adult animals, is totally absent in the brain of newly 'born rabbits. Presentod by ,'.-~ad A. I. Abrikosov, 27 !.ar 52. 225TI6-.j  STROGANOVAN, 4,sp- t..' ", -- Renal capillary permeability for colloids in newborn animals. Doklady Akad. nauk SSSR 84 no.4:8ol-8o4 1 June 1952. (CLML 25:4) 1. Presented by Academician A. I. Abrikosov 27 March 1952. 2. Soil Bio1of;y Institute, Moscow State University Imeni M. V. Lomonosov.  , i': (T --. I ~ - - - - I. -I . .3 p e, r m, a t o,~ e n e --i I ; . - :, I-- .. - 4, -19' -2. in spermatcf~-nesiS c' r-.-qrjral.3. DO]CI. A'.' ~~5, *70 Mcnt.lil- Lizt. cf il'usZian .-Accessions, Li~-rary of Ccngress, "---.,ember l9r2. Unclassifieti.  ISAYEV,, S.I.-,MERM'YEVA, Ye.K.;STROGANOVA, H.S.;FEPGINSON, X.I. Critique of new concepts in science from the position of old conceDtS; discussion on N. V. Turbin and N. D. Ivanov article. -Izv. Akad. nauk SSSR; Ser. Biol. no.2:34-48 Mar-Apr 1953. (GLKL 24:3)  STROGANOVA, N.S. 16 -,1 ~ -c ....... Origin of male sex cells in the light of Hichurin biological science. Vest. Mosk. un. 8 no.8:23-43 Ag '53. (MIMA 6:11) 1. Kafedra genetiki. (spermatozoa)  STROGANOVA, N.S. Certain problems of growth histo-physiology of animals. Ark h. anat., Moskva 30 no.2:78-85 Mar-Apr 1953. (CIAL 24:3) 1. Of the Department of Genetics (Read -- Prof. S. I. Isayev), Soil Biology Faculty of Moscow State University imeni M. V. Xolotov.  STROGANOVA, H.S., kand. biol. nauk; SHEINA, Ye.k. Nutrition and growth of the sturgeon Acipenser atellatus in aquariums and basins. Sbor. trud. Mosk. zoop. no.1:119-131 156. (Sturgeons) (71sh culture) (Aquariums) (MIRA 10:11)  ST.ROGA'-"-)Vn, N. S. ; CHUMAK, M.G. Histochemical study of cellular and noncellular structures 1n male sex glands of animaln. Vast. Moak. un. Ser. biol., pochv.. gool., geog. 13 no.2:49-54 '58. (FURIL Ilt9) 1. Poskovmkiy gos. universitet, Kafedra Zenetiki i Iselektaii. (Gonprative organs, Rala) (Physiological cbemistry-)  :; ;A,;( VA, N , J) , ; McNAY !!(-','A, M. A . ~'y ' , I ., - . - - - , cbser-lat`cn-s cr., s-7-r-ma-ira!eren in q s-~ec4en c,f' tlyl'OF~Ilypflid Irlite3. T-ISItclogiih f) no.!.-66--72 ja-F 64. 4aj'~A 17:9" 1, Knfredra genetik! i seleki-s-ii Mcskovskogo univ,!r iteta.  06ANO'j,'., WWKI:0VA, M, A F o rme, o n r, f fu r, c t i G n a -L on I"- nuclei ir. some species of TvroglyFrldi,.e, llokl. AN 57--.:OP l--/ ro.5,1213-1215 Ag 164~ Fri A:7, L Moskovskly gosudarstvennyy uirnlversitel.. ~iv ukademikom A.N. Bakulevym.  t F pe rna ' ogonla 18:2) ted Oc tobe r 16, 1964  L;.G:~.2 of Vest. J-'os':.~Lrj. Se 20 -5:25- s-0 Kafea,ra 7~netiki i seiektr:ij ~e,6 Januanr ub: i t, 1(164.  USSP/Inorganic Chemistry. Complex Compounds. C Abs Jour Ref Zhur - Khimiya, No. 8, 1957, 26431. f Author Ryabchikov, D.I., Sklyarenko, Yu.S. and Stroganova, N.S. Inst Title "Anomal" Valences of Rare Earth Elements in Processes of Their Separation. Report 1. Electrolytic Reduction of Ytterbium. Orig Pub Zh. neorgan. khimii, 1956, 1, No. 9, 1951+ - 1967. Abstract+ The influence of various factors on the yield of Yb at the electrolytic reduction of a solution containing ytterbium acetate Yb(Ac)q and potassium citrate K Cit with a Hg cathodg and Pt anode was studiea. Dry K3C't was added to the solution of Yb(Ac) 37 pH was ad- justed by adding CH 3C OOH or KOH, ths Card 1/4 ---------- -------------------------  Abs jolll, Chemistry. 'Rer Z12tZr _ ,,,COr"P'e-Y Compo'd, e.zect M.1ya 9 'VO - 8 cat 0 0l sjs 61, 1 1957 C 'and e C '4s , 26432. 1 lp Z en t Carrl Was Part dellsit ed 94t (? e tach e4, WhIch Y or 0. 05,hotzr W.1 th Cle t ed and (I the fop L a P t 0 es 92- Yleld eco'm r4 "d er so Th P" = 4 adtla-11 or -Yb Posed ftaz Cm e .0 Y W 0 0 02 optj'm and C, ith -is at W-1 th 'Ida 5 um C Pops sh the P'Fl6 C d'l- .0 11 Pe a per athode arp psq. C, sq o cz ons I t -I.Y OP of p it Wha t 0the 'Ind at pl~ aeldit Zesj~jt The 3~' Of th o :~~ 3. o. Y totnp Yle2c, WI th I 'Yleld an I epa ttir Of Yb ts ris cup4rent is 50o c1 i bzlt th n s., e p., decr e e 9121rJec se trojzl easL, -to 0.2 The eczea f . 1 3 5 e.zect ses Ur th or nt -5 t SOWe- Polys the n7p - PIse 0. *5'0 C q, C, acetate 31 is Yle-Zcl to era .Of the c Mor ttzz e an be cc e c ir than t-rise to olutloll Cont I rJed 0 Wj L% e nine 12. Ut r 0 C.1 -r Orn Abs jotzr Zh., tra te Ions, b taj quit the best J. .. ned t the M0.1 resUlt S have b 0 .CO Th. Yi ej (I ar 0 Yb2o ob- rorn 0 Centrat, C 0 eases .1 creases to 2 )12 1 ~h :~Clt 0 lesp .00% 0 e In.1tialtll- Incr." 0 eclaIj Sol -i MCIS,* .0,%o y ra and Itt alne(2 The the Dititila.1 by the Obtainec, range fr ISSOC atconn Pre ~E?Sujts I ectedsence of , 017, C orn a ser ar e e._ e Or' Of 'Yb equilibria e S Of (AC5 Ve uctjOn'3J"Yb(5It) 3 Y for L2 the Cluctl . 171 a t 10.2 amc 0 Of Yb + Sys t em Of Yb,0, to Yb 5~d its aA of t-~'- of gam C? ssoc the ama to YbO ('unand latj'3r. C a., Y at last, jl Oses acidity 0 T.-OLP ri partia.1-1 gem). Tt I x'c_ the -Se With The Ste -fOrTfr.,Z- Card 3/4 nledl s the aeczea abl.L., Um, btit the Stabise Of the  USSR/Inorganic Chemistry. Complex Compounds. C Abs Jour Ref Zhur - Khimiya, No. 87 1957, 26431 the complex citrate of Yb rises simultane- ously; in consequence of the action of these opposite factors, a maximum appears on the dependence curve of the yield on pH. The influence of the temperature is analo- gous: the dIssociation of the anion Z'Yb(Cit)2_7-3- rises together with the temperature and shifts the equilibrium chain Yb34- at Yb,~4 0 Ybo (amalgam) to the right, but above 50 the stability of amalgam drops sharply. The yield reaches 9P.2% of Yb under optimum conditions which are as follows;, pH= 6, temperature 50, solution concentration 2.0% of Yb203, molar ratio Yb203 : K2Cit 1 ; 2. Card 4/4  5(2) SOV/78-4-9-9/44 AUTHORS: Ryabchikov, D.I,, Sklyarenko, Yu. S~, Stroganova, 1'T. S. TITLE: The Electrolytic Reduction of Samarium PERTODICAL: Zhurnal neor_qanicheskoy khimii, 1959, Vol 4, Nr 9, PP 1985-1989 (USSR) ABSTRACT: A previously published paper by the authors (Ref 1) treats of the electrolysis of ytterbium acetate on a mercury elec- trode in the presence of potassium citrate. In connection with certain interrelations found thereby the electrolysis of samarium acetate was investigated in the present article, as but few references on this subject are found in publications (Refs 2-7), and low yields (maximum 471/4o) are stated in these reports. The following relations were investigated. I The influence of the acidity on the yield (Table 1, Fig 1~. It w3s found that Sm is not reduced below P11 3.0, that the reduc- tion reuches a maximum between PH 3.5 and 4-51 and that a pH of over 4.5 does not influence the reaction. 2) The influence of the potassium citrate concentration (Table 2, Fig 2) was found to be analogous to that in ytterbium reduction: the maximum yield was obtained at a ratio !,'e3+ : Clit3- = 1 : 2 and dropped at high citrate concentrations Card 1/2 owin.- to the formation of comInlex ions  The Electrolytic Reduction of Samarium SOV/78-4-9-9/44 rl.'Ie(Cit) 2j" 3) The influence of the initial concentration of Sm (Table 3, Fig 3) was evident in yields rising with in- creasing concentration. 4) The influence of temperature was also investigated (Table 4, Fic 4). A temperature rise produced a lower yield. Thus, a considerable similarity to ytterbium was found, and an 86.611'lo yield of samarium attained. There are 4 figures, 4 tables, and 7 references, 1 of which is Soviet. SUBIMITTED: June 7,,1',158 Card 2/2  66297 .5.W 3 0 0 507/78-4-12-5/35 AUTHORS: Ryabchikov, D. I., Sklyarenko, Yu. S., Stroganova, N. S. TITLE: Electrolytic Reduction of Europium PERIODICAL: Zhurnal neorganicheskoy khimii, 1959, Vol 4, Nr 12, pp 2682-2687 (USSR) ABSTRACT: In an earlier paper (Refs 1, 2) the authors put forward various assumptions on the chemical processes taking place in the elec- trolytic production of ytterbium- and samarium amalgam from the acetatesof these rare earths in the presence of potassium citrate. The assumptions proved to be useful since the yield of these rare earths could thus be increased. By this process europium can be produced easily and with sufficiently high yield. However, its reduction was studied especially to indicate the common charagter of this process for all three rare earths, and to detect individual differences. The investigations con- cerned the following problems: 1) the effect of the electrolyte acidity upon the yield in europium (Table 1, Fig 1). With PH - 3 no Eu amalgam is formed as yet. Between 3.0 - 3-8 the yield rapidly increases; afterwards it slowly rises up to a pH-value of 5.0; the further pH-rise does not affect it. Card 1/3 2) Theeffect of the addition of potassium citrate upon the Eu  66297 Electrolytic Reduction of Europium SOY/78-4-12-5/35 yield (Table 2, Fig 2). Data indicate that Eu amalgam, but, only with a yield of about 70%, can be produced from the acetate solution even without any addition of potassium oitrate. The yield is independint of the citrate concentration within a wide range (Eu3+ : Cit - between I : 2 and 1 : 6). 3) The effect of the initial concentration of Eu on the yield (Table 31 Fig 3)- The yield is increased but little by higher Eu concentration. 4) The effect of temperature on the Eu yiSld (Table 4, Fig 4). Maximum yield is attained between 0 and 5 , further temperature rise reduces the yield. Corresponding data for Yb, Sm, and Eu are listed in tables 5-8. They indicate that under equal condi- tions of electrolysis the yield increases in the order Sm - Yb - Eu. A modification of the experimental conditions has the same effect on all the three elements so that the chemical processes with the three elements are likely to follow the same scheme. The intensity of the effect of the individual factors, however,"is different. Yb offers maximum yield at an optimum pH whereas the yield of Sm and Eu is fairly independent of the pH within a wide range. For Sm, and Yb there exists an optimum citrate concentration, while the Eu yield is hardly affected by the latter. The authors are studying the possibilities of Card 2/3 employing these deviations of the behavior of the three rare L~~  66297 Electrolytic Reduction of Europiuz SOV/78-4-12-5/35 earths for an electrolytic separation of these elements. There are 4 figures, 8 tables, and 6 references, 4 of which are Soviet. ASSOCIATION: Institut geokhimii i analitiahaskoy khimii im. V. 1. Vernadskogo Akademii nauk SSSR (Institute of Geochemistry and Analytical Chemistry imeni V. I. Vernadskiy of the Academy of Sciences, USSR) 11K SUBMITTED: July 12, 1958 Card 3/3  ALIMARIN, I.P.; BILD40VICH9 G.N.; BUSEV, A.I.; VAYNSHTEYNt E.Ye.; VOLYNETS, M.P.; GORYUSHINA, V.G.; DYMOVp A.M.; YELINSON9 S.V.1- ZVYAGINTSEVt O.Ye.; KOLOSOVAp G.M.; KORCHEMSAYA, Ye.K.; LEBEREV, V.I.; MAWFEYEVA., G.A.; MSLENTIYEV, B.N.; NAZARENKO, V.A.; NAZARENKO, I.I.; PETROVAq T.V.; POLUEKTOV, N.S.; PONOMAREV, A.I.; HYABUKHIN, V.A.; STROGAiTOVA ---- j N.S.; CBER141KHOV, Yu.A.; VINOGRADOV, A.P., akaderdk, otv. red.; HY&C-RIKOV, D.I., doktor khim. nauk, prof., otv. red.; GUSIKOVAt 0., tekbn. red. [Methods for the determination and analysis of rare elements] Metody opredeleniia i analiza redkikh elementov. Moskva, 1961 667 p. imk 14:7) 1. Akaderiya nauk SSSR. Institut geokhimii i analiticheskoy khimii. (Metals, Rare and minor)  ItYABCIIIKOV, D.I., prof., otv. red.; VAGUIA, N.S., kand. tekhn. nauk, red.; KOIRGHEMNAYA, Ye.K., kand. khim. nauk, red.; RUSANOV, A.K., doktor tekhn. nau , red.; RYABUKHIIII V.A., kand. khim. nauk, red.; SENYAVIN, M.M., kand. khiTn. naukP red.; SK1YARENKO, Yu.S.., kand. khm. nauk, red.; ,5MPGANOVA, N.S,j nauchne sotr., red.; MAKUNI, Ye.V.) tekhn. red. Nare-earth elements] Redkozemellriye elementy. Moskvav Izd- vo AN SSSR, 1963. 391 p. (MIRA 17:2) 1. Akademiya nauk SSSR. Institut geokhimii i Awliticheskoy khimii.  STROGANOVA, N.S. Characteristics of s rmatogenesis in some bivalve mollusks (Unio, Anodonta, VTar- Vest. Mosk. un. Ser. 6: Biol., pochv. 18 no.6:25-34 N-D 163. (MIRA 16:11) 1. Kafedra genatiki i selektsii MoskovBkogo universiteta.  K. LY A!-. Y,., S T C/5 1 n3 t t  -AVOR','.'-;OVA V., YELOVA"ISKAYA., L.A.: IVANOVA, S.M.~ V A 14, T . 4~ 6'.'ROGANOVA., N.V. thE, cheml('al compo5l'"Icz, of gail and gas cf the Stepnovskoye tie-A. T-V. -,rvs. ucheb. zav.; "a z r,,,. (~aRA 17:6) Si  ,'_.I,..I" i'~ - , ~'~ , SKAGHKOV. Sergey Vladimirovich; KONSTAIIHNOV. Leonard Vasil'yevich; STROGAIWA, Rimma Petrovna, YUROVA, Lidiya Nikolayevna. TOPORKOVA, K_eo~nora Peir'6*iia~-MffIX_, V.I., red.; MURASHOVA, N.Ya., tekhn.red. [Collection of problems in nuclear physical Sbornik zadach po iodernoi fizike. Most-va. Gos. i7d-vo tekhniko-teoret. lit-ry. 1958. 164 p. (MIRA 11:3) (Nuclear physics--Problems, exercises, etc.)  SKACHKOV., Sergey Vladimirovich; KONSTANTINOV, Leonard Vasillyevich; STROGAU~VA, Rimma Ut Y1JRQVA, Lidiya Nikolayevna; 0 .TOPOHKOVA, Bleonora Petrovna; VIRKO, I.G., red.; AKSELIROD, I.Sh., tekhn. red. (Problems in nuclear physics] Sborni'k zadach po iadernoi fi- zike. Izd.2., perer. Moskva, Fizmatgiz, 1963. 222 p. (MIRA 16:8) (Nuclear physic*)  Aw, 1-7 V T. FAMERG, A.I., kand.ekon.nauk; DOMBROVSKIT, A.A., kand.ekon.nauk; POPOV, N.S., kand.skon.nauk; SKVORTSOVA, N.T., kand.ekon.nauk; SMOGANOVA, T.A., kand.ekon.nauk. Prinimali uchastiye: BCLOTINA, O.A., kand.ekon.nauk; GULIBINOVICH, M.I.. PROTSIRTKO, D.I., red.; SALAZKOV, N.P., tekhn.red. [Economics, organization, and planning of municipal services] Ekonomika. organizatsiia i pladrovanie gorodskogo khoziaistva. Pod obshchei red. A.I.Fainberga. Moskva, Izd-vo M-va kommun. khoz.RSFSR, 1959. 451 P. (MIRA 13:2) (Municipal services)  ACC NRI A1,70049813 S011WE CODE: UII/OU48/GG/030/009/1511/1513 r ALMHOR: riabotkin,V.L. ; Stroganova,T.'N. (OiIG: Tomsk Polytechnic Institute im.S.?A.Kirov (Tomskiy politekhnicheskiy institut) TITLE: Electroluminescence of BaS base phosphors /Report, Fourteenth All-Union Con- 1ference an Lu,,ninescence (Crystal Phosphors) hold a-t Riga, 16-23 Sept. 19657 iSOMCE: AN SSSr%.. Izvestiya. Seriya fizichesknya, v. 30, no.9, 1511-1513 TOPIC TAGS: clectroluminescence, photoluminescenco, roentgonoluminescence, barium compound,sulfide, copper, bismuth, manganese ABSTMICT: The nuthors investirated the electro-, photo- and roentgenoluminescence of copper, bismuth and manganese activated barium sulfide phosphors. Tho phosphors ! iwere prepared by the Lenard-Zhirov technique: a mixture of DaS, the activator, a flux, !and reducing agent was heated for 30 minutes at 12000 C with limited access of air. !X-ray studies showed that the phosphors had the cubic structure of the BaS lattice ~with traces of a second phase consisting of BaS04 and the sulfide of the activator. iThe cubic BaS structure was obtained, however, only when the initial mix included a iflux and was heated above 900 0 C. The activator concentrations were varied over the range from 10-4 to 10 percent by weight. The ac and dc electroluainescence spectra, ithe photoluminescence spectrum excited at 3660 A, and the rocutgenolucLinescence 1/2  ACC NR: W7004988 spectrum excited at 1.79 A were recorded for each specimen. For most of the specimens't the cloctro-, photon and roentgenoluminescence spectra were nearly identical. The luminescence properties of the BaS phosphors were found to be rather similar to those of the well-investigated ZnS phosphors. The BaS phosphors, however, require a higher I voltage for excitation of'electrolumitieseence than do the ZnS phosphors, and the electroluminescence brightness of the BaS:Ain phosphors decreased with increasing If-requency. orig. art. has: 1 figure and 1 table. SUB CODE: 20 SUBM DATE: none ORIG. REF: 001 OTH REF: 001 Card 2/2  c C-0 T T'. y CAT SfIGRY ABS. JOUP, R7hBIoI,, I~o. 1953., ro. AUTHOR k C "I TL !TI,'., s r ORTI C-. il"p, 59 ill. A F~S T 71 A!7 T CARO- 1/1 1561 17 3  YABLONOVSKIY, Semen Isaakovich; STROMIOVA,-,T.P-,.. red.; NERONOVA, M.D., red. izd-va; NAZARGVA,-A.-S.-", ~ - - t--a--. red. Now to make a lawn from ganual. flowering plants] Kak ustroit' gazon iz odnoletnikh tsvetushchikh rastenii. Moskva Izd-vo M-va kommun.khoz.RVSR, 1960 26 ~MIRA 15: 1) ?LawuJ*  STROGANOVA.-T.P.;_,~PKASH, A.F.; ALFEROV~ V.A.; VARGANOVAI A.N., red. izd- va; IIAZAAOVA, A.S., tekhn. red. [Catalog of flowering plants and lawn grasses grown in nurseries of the State Trust of Landscaping and Tree Planting] Katalog tevetoch- rqkh rastenii i gazonrykh trav, vyrashchivaemykh pitomnikami tresta "Goszelenkhoz.11 Moskva, Izd-vo M-va kommun. khoz. RSFSR, 1961. 93 P. (MIRA 14-.10) 1. Gosudaratvennyy respublikanakiy trest zelenogo khozyaystva "Gos- zelenkhoz.11 (Plants, Ornaments-Catalogs)  , : _7 ;ME'MwNSYXfA, T.14. STROGANOVA P.; I Green workshops. Mashinostroitell no.8:45-47 Ag 165. (MIRA 18:11)  STROGANOVA, V.K. --- Sawfly species (TDnthredinidae) in the shore region of Novosibirsk Reservoir. Trudy Biol. inst. Sib, otd. AN SSSR no.7:193-197 161. (MIRA 15:3) (NOVOSIBIRSK RESERVOIR REGION--SAWFLIES)  'STROQ-ANQVA.'V.K~ Materials on sawflies producting 6alls an wil-lows in Western Siberia. Trudy Bidl. fhat. oib. otd. AN SSSR no.8:157-164 1-62. (MIRA l5:i2 ) (Siberia, Western-Sawflies) (Siberia, Westernp-Willove-Dioeases at~ pesix) (Galls (Botany))  F,RrVOLUTSKAYA, Gall j'rjTIjjj!aja 'r -i" . , I., "~!'IOVP. . V.K.1 KUH2"TSOV, A.I.,otv. red. [Stem-mining pest in dark-green conifer forests of Western Siberia damaged by the tent caterpillar Dendroliims sibiricus] Skrytostvolovye vrediteli. v temnokhvoinykh le- sakh Zapadnoi Sibiri, povrezhdennykh sibirakim shelkopria- dom. Moskva, Nauka, 1965. 127 p. (MIRA 18:5)  BRASLAVSKIY, M.; SPICHELOKOV, A.; BIATNOV, M.; S'TROGANOVA, V.; BABKOV, Ye. Information. Avt. transp. 42 no. 5:55--58 My 164. (MIRA 17:5) 1. Glavnyy inzh. TSentrallnogo konstruktorskogo byuro Ministerstva avtomobillnogo transporta i shosseynykh dorog RSFSR (for Babkov).  ACCESSION NR: AT4030810 S/0000/63/000/000/0300/0308 AUTHOR: Presnov, V. A.; Rubashov, M. A.; Yakubenya, M. P.; Stroganova, V. V.; IvIeva, 0. M. TITLE: The physico-chemical nature of the formation of stable bonds between dis- similar substances SOURCE: AN UkrSSR. Institut metallokeramiki i spetsial'ny*kh splavov. Poverkhnostny*ye yavleniya v rasplavakh i protsessakh poroshkovoy metallurgii (surface phenomena in liquid metals and processes in powder metallurgy). Kiev, Izd-vo AN UkrSSR, 1963, 300-308 TOPIC TAGS: glass, ceramics, metal, oxygen, oxide, acidity, alkalinity, rare earth element, alumina ABSTRACT: The authors investigated the soldering of dissimilar substances such as glass, ceramics, and metal, and traced the historical basis of this research. Through a series of mathematical arguments they distributed the oxides of metals according to the increase of their acidic properties. The reaction of rare-earth element oxides La203 and Y 03 with A1203 was studied and results were presented in tables. The mechanism for iorming the complex compound, which leads to the origin of a Card 1/2