SCIENTIFIC ABSTRACT BOYTSOV, V. V. - BOZADZHIYEVA, Y.

BOYTSOVV* V.V, - Role of standardization in the improvement Of DroductJnr quality and development of the national econorV. Stan~artiutsiia 28 no.10g6-16 0 164. (~CRA 17;12) 1, Predsedatell Gosudarstvennogo kor?-teta standart-ov, Mer i izmeritellnekh priborov SSSR.  L 30308-66 ElIT(d)AWP(v)/T t-ill?(k)/EI'IP(h)/e'elP(I)/F=TC(m) 747 ACC NR2 AP%25452 SOURCE CODEt UR/0028/65/000/006/0001/0004 AUTHOR: _,,_V~Chairman) ORGIS.- State Gorkitted- of - Standardst !!taiures and-Measurin ApIwatus of the SSSR (Gomdarstvennyy koiRU standartov, max. i qj izmaritellnykh priborov SSSR) TITLE.- Assembly and staridardization inmachinery construction ISOURGE1 Standardizatsiya., no. 6, 1965$.~ 1-4 [TOPIC'TAGS% machinery construction, automation, machine industry/,K 52 or DEK 51crane IABSTRACT: The need for improved standardization of basic subcomponents to make them interchangeable in machines of different function is discussed qualitatively* Standardization of subcomponents permits building-block type of synthesis of tomated.assembly-lines for different purposess permits easy changing of asvembly~ -lines,, and results in savings of design~and labor. Although standardization is considered beneficial in any branch of lndustryj,,the present article particularly encouragea atandardization.in machi=7 and assentV 3-ine design'and in the   :1-10TSOV, V.1% Ex-oartsi cin of Ln tc rn a!, i oria I rl tandh-,-d a' z~ze ',,-i I-,.- ~ . :2 !.-- .dai- 4 , --, L ' .- ~- -- F, 29 .110-4:25-30 A," 165. 1 L-I"., I -'; 4.11 2. Pred8edatell 211.1~! mer 1 izmer-itellnyld-i priborov SS.,1R.  P'O.-ITS011, V.V. Standards and quality. Stentartizatsiia 29 no.11:1-3 14 t65 (1-1 IRA 19 -. 1) 1. Predsedatelf Gosudarstvemiogo komiteta standartov, mer i izmeritelinykh priborov SSSR.  -L-31229-66 SOURCE COM.-M-AW97667=7 R1 AP6022833 AUTHOR: B, LOP V ORG: none TITIZ: Pitchblencle and selenides of lWdrabhermal uranium deposits SOURCE: Atomnaya energiya, v. 20, no. 1, :1966, 46-50 TOPIC TAGS: pitchblende, solenido, uranium, mineraloM gooohomistr7 ABSTRACT: The association of pitchblende and selenides was chown, the sequence for the formation of the minerals was established, and the basic paragenesis of the asso- ciation was determined. The interchange of the mineral conpasition of the parageneQ association made it possible to draw some conclusions on the geochemical donditions for the formation of the uranium series and the aelenidese Orig, art* has: 8 figaret, flZA7 SUB CODE: 08, 11, Sum DATE 13mar65 ORIG REF: 003 OTH REF: 002 UDCi 353.495_ 77'   BCJj'1SCX,'i"B. I. Bot, K. A. Vp3-t novatorov-parketobikov P. K. I'ochilkinn i E, I. Doltsov fExperience of innovator parqwt-worlke:-~- ~. K. Tochilkin and E, 1. Bol a2v J. Lenitirrad. 1-953. 32 P. SO: MonthIg List of Ruaajan-AccpssjonZ,_V larch 1954. 21. 6 No. 12 M  BOYTSOV, Ye.N.; FINKELISHTEYN, A.I.; FETUKHOV, V.A. Dependence of vacutm ultraviolet spectra of a-triazine derivatives on their molecular structure. Opt.i spektr. 13 no.2:274-276 Ag 162 (MBU 15111) (Triazine-Spectra)  BOYTSOV., Ye.N.; FINKELISHUM.. A.I. --r=- I Production of mono- and diamides of 32 no.11321-322 Ja 162. (Cyamolurio cyameluric acid. Zhur. ob. Ichim. (MRA 1512) acid)  BOYTSOVP Ye,N.; FINKEWSHTEYN, A*I# ,Spectrophotometric method for the analysis ol';pelaxine and the .products of its hydrolysies ammeline, ammelide, and eyanurie acid. Zhur.anal.khim. 17 no.6s748-750 S 162, (mmk 16a) 1. Gosudarstvennyy-nauatmo--i-naledovatellskiy i proyektnyy institut azotnoy-- . .017 o ti :L produktov organicheskogo silrteza,, Moskva. (Melamine--Spectra) (Ameline....spectra) (Ammelide-Spectra) (Cyanuric acid--Spectra)  FINKELISHTEYN, A.I.; BDYTSOV, Ye.N. ........................, Moleculir structure of a-triazine and its derivatives. Uqp. khim. 31 no.12tl496-1510 D 162. (MM ~6:2) 1. Gosudarstvennyy nauchno-iseledovatellskiy i proyektnyy institut azotnoy prorWeblennoati i produktov organicheskpqo sinteza, Dzerzkdns)dy filial. (Triazine) (Chemical structure)  BOYTSGV~ Ye.N.; FINKELISHTE7N, A.I. Structure of molec4as and ions of aminoxy derivatives of sym.-heptazine toyamelurio acid amides). Zhur.ob.khim. 32 no.10:3403-3406 0 162. (MIRA 15:11) (Cyameluric aoid)  FINKELIS]ITEYN, A.I.; BOYTSOVI Ye.N.; MUSHKIN, Yu.1. --, Spectrophotometric method of analysis of multicomponent mixtures by absorption in the ultraviolet. Zav. lab. 30 n0.1. 44-45 164. (111111 17; 9) 1. Gosudarstvennyy nauchno-issledovatellskly i proyektny-Y institut azotnoy promyshlennosti i prodiLktov organicheskogo sinteza.  SIDELIKOVSKIY, L.N.; kand. tekbn. nauki SHCHEMOV, V.N., inzbo; BOYTSOV,,-Yu.M,L inzh, Study of temperature fields and beat currents in a cyclone chamber. Prom, energs 21 no. 1t44-48 Ja t66 (KIRA 19tl)  IL 181oq-6~ EWP(q)/EWT(m)/BD$ AFFTC/ASD JD ACCESSION NR:. AP3004107 S10670/63/008/004/068'4/0686 AUTHORS: Andriashin, V. K.; Boytsov Yu. P.; Baltushkina N. V.; Mitrofanov, V.V11, TITLE: Growth of fine la era of Ge on Ge seed crystals by the "closed-tube", method (p-type Ge) SOURCE: Kristallografiya, v.-,8, no. 4, 1963, 684-686 TOPIC TAGS: seed crystal, closed tube, Ge~, specific resistance, I, cube, octahedron, parasitic crystal, ABSTRACT: The. authors used the closed-tube method described by-J. Marinace.; (Illinois biol. Monogr. J., 7, 248-255, 1960) to obtain Ilepitaxial films" of Ge' The seed crystals were plates of p-type Ge with specific resistance of 0.001 ohm/cm. They were about 500 /J-thick and 10-20 mm in diameter and were cut parall6l to the (111) and (001)'faces. Before being placed in the tube, the were etched in SR-4, washed in distilled water, and dried. The tube was filled with iodine. After growth of the Ge, the seed crystal with its layer of Ge J,- ~was examined morphologically, after which a thin section was made, and a plate cut-for measurements of electrical-physical properties. The studies showed-the i Card 1/2  _77- L 18109-63 ACCESSION NR: AP3004107 seed crystal to be covered with simple cubic. d octahedral forms. -The rate o* &n f growth in the EIQ direction proved to be 2.5 thnes that along [000 , being approximately 10/Z/hr in the first directions, 4,oa/hr inthe second. This rate depends on amount of I in the tube, orientation of the seed crystal, surface area of the Ge source, temperature of the zone, position in the tube, appearan;.e~ of parasitic crystals, and some other factors, but the relative importance of these was not studied. Orig. art. has; 5 figures. ASSOCIATION: none A "A i" SUBMITTED: 13Aug62 DATE ACQ- -15Aug63 ENCM 00'-~ S UB CODE: PH NO REF SOV. 000 OTHER: OQZI.--. .;ard 2/2  N.Y.; *"--(-"",-, V.7. JUID11LISS11E," V.K.; ko I v 'II ~ ~, I Growth of thin germanium films on gern4mium seed crystals using the "closed tuba" method. Kristallografiia 8 110.4-.684-686 Jl- Ag 163. (MIN! 16:91) (Gerindnium crystals-Grow-th)  AID P - 3643 Subject USSR/Medicine card 1/1 Pub. 37 - 7/18 Author : Boytsova, A. A. Title : From the-history of the development of sanitary stations Periodical : Gig. i. san., 10, 32-36, 0 1955 Abstract : Historical outline of the organization of sanitation in Russia from 1862 to the present time, with special attention given to the activities of the Soviet medical service. References in footnotes. Institution: Institute of the Organization of Public Health and of the History of Medicine im. N. A. Semashko, Acad. Med. Sci., USSR. Submitted Mr 4, 1955  BOYTSOVA, A. A. 'Taperience of planning the actbrities of the rural reg16nal sanitary-epideyrdological station." report submitted at the 13th All-Union Coq7ess of Hygienists., Epidemologists and Infectionists, 1959.  GOLIDZILIBER. 3.M., kand.med.nauk; GORFIN, D.V., prof.;AIOWTA, P.M., kand. med.nauk; E=IN, K.A., naucbnn- sotruduik; BOYTSOVA. A.A., nauchnyy sotrudnik ----------- Standards in sanitary and epidemiological services. Gig. i san. 24 n0-9--35-41 S 159. (MIRA 13:1) 1. Iz Institute, organizatsii zd:ravookhraneniya i istorii meditsiny imeni N.A. Semashko. (PUBLIC HEALTH)  RZHEZKKOV, Yu. V., insh.; BOYTSOVA, E. A., inzh. A Causes of unstable opertrtitm of the control valves of large steam turbines. Teploenergetika 10 no-3:25-29 Mr 163. (MIRA .16:4) Vsesoyuznyy teplotekhnicheakiy institut. (Steam turbines)  RZHEZITIKOV, Yu.V. (Moskva); BOYTSOVA, E. A. (Moskva) Conditions for the disturbance of flow Rteadiness of a wall jet in a flat channel with bulging walls. izv. AN SSSR. Mekh. i mash- inostr. no-3:168-172 My-Je 164. (MIRA 17-7)  (11-,~ninzrrad, u1. Avrova, d'.12, Ab,~,tx~cts. Ortop.., trwm.. i Prn',ez. 26 no.7i7O-,,l Mx 165, kMIRA 18-7) I. 1z Leningrad.5kogo Institilta pro t e,,,-',r-(lva niya (dir. - dotsent M.V,  1UR1171, Iev Afanaslyevich. kandidat tekhnicheskikh nauk, dotsent, BOYTSOVA G..F.. otvetstverinyy redaktor; RTKOV, N.A., redaktor ilk BIT OV, A., tekhnicheskiy redaktor [Now trends in the davelopment of coal briquetting] Novye napravleniia v razvitii briketiroveniia uglia. Moskva. Ugletelditzdat, 1956, 1#2 p. (HLRA 10:3) (Briquets (Fuel))  F, ( L:, /) A j / b", fi , " Z- t-I 0" Yf LUR I TZ, ley Afanaelyevich.' dotRemt, kanclidat takhniabaskikh nBuk; BOTTBOTAO., WixW_4#4g~; RAVICH, Boris Mikhaylovich; RMOLIN. V otvetstvenUy rodaktor; GARBJM, T.N., redaktor lzdatellstva, SABITOV. A., takhnicheskiy redaktor [Research on briquatting of lAgnitel Iseledovaniia po briketiroyaniiu buz7kh uglai, Pod obahchei red. L-A-lur's. Moskva. Ugleteithizdat. 1957. 141 p. (Kim 10: 7) (Briquets (Fuel)) (lagnits)  BOYT.-)OVA, I.N.; STARITSKIY, Yu.G, Relief of the basement of the Siberian Platform. Sov,gecl. F, no.1004-96 0 165. (Miffik 1B.-U) 1. Vsesoyuznyy nauchno-issiedovatellskiy geologicheakiy institut. 11  GRIGOROVICH, Sergey Foofanoviobf 3,MT-SDVA#'- K.I. p redf; DZGOYFvp A.A. I tekhn. red. (Over the mountains and veXleys of Northern Ossetia; touristeO, studental of local lore and excursionists' companion) Po goram i ravninam Severnoi Osetii; sputnik turiatal kraeveda i ekskursanta. Izd.2., dorabotannoe. Ordzhonikidze, Severo-Osetinskoe knizbnoe izd-vol 1966. 125 p. (MMA 14:8) (Ossetia-Guideboqka)  BOYTSOVA, L., inzh.~ IZUTOVA, I-L. inzh.; OPALKNOVA, K.,, inah. Better quality,zeduced expenses. Most.prom. i khud.promyo. 4 no.3: 33 Mr 163. (Imu 16-.4) 1. TSentral!=Lya opytao-tekhnichaskaya shveynaya laborELtorl7a. (Garment, cutting)  24(2), 50) SOV/54-59-1-3/25 AUTHORS: Frisman, E. V., Boytsova, N. N. TITLE: Optical Anisotropy of Copolymeric Molecules (Opticheskaya anizotropiya molekul sopolimera) PERIODICAL: Vestnik Leningradskogo universiteta. Seriya fiziki i khimii,, 1959., Nr 1,1 pp 206-29 (USSR) ABSTRACT: In the present paper the authors investigated the optical anisotropy of the copolymeric molecules styrene and methyl methacrylate with various concentrations of their components. For each sample the solvent was chosen in such a way that the difference of polarizability (al-ad of a statistical segment can be determined by the formula (n2+ 2)2 4 7E , 8 -K-T 45 na . 1 (a I -a 2) (1)., The necessary condition nk !:~l Tj8was checked by a refractometric measurement of the increment. The measurement was carried out by R. K. Chander. In formula (1) [n] = dynamo~optical constant, EQ] = charac- Card 1/3 /-teristic viscositY, n. . refractive index of the solvent-,  Optical Anisotropy of Copolymeric Molecules SOV/54-59-1-3/25 and n refractive index of the polymer (n k =4 n.). The equation [n] = holds for this case,, where A n denotes ~9 ---; 0) 00 the quantity of double refraction in a solution of concentra- tion c. with a velocity gradient g~ and ~o the viscosity of the solvent. The authors measured the dependence A n on g for solutions with various concentrations. This dependence was found to be linear within the investigated range.of veloci=- ty gradients and concentrations. The values (al-a 2) for the copolymers are listed in a table. If the anisotropy of polari- zability of a copolymer segment is assumed to be the sum of the anisotrop-Jes of polarizability of the components, it may be stated that the difference of polarizability of the copolymer and methyl methacrylate is a sum of the differ(-ice of polarizability of the individual components. The author Card 2/3 thanks Professor V,, N,, Tsvetkov for discussion of the  Optical Anisotropy of Copolymerie Molecules SOV/54-59-1-3/25 aforementioned problems. There are 5 figures, I table., and 7 reforences, 4 of which are Soviet. SUBMITTED: May 15, 1958 Card 3/3  BOYTSOVA,.N..N..)IOMMA).M.- 0.., TSVE'TKOV, V.IN. and MACARIK, S. Ya. (USSR) Stereospetsifichnost I opticheskic svoistva polimerov Stereospecificity and ciptical properties of polymers IUPAC S 11: 378-87 report presented at the! Intl. Symposium on Macromolecular Chemistry, Moscow, 14-18 June 6o.  11 -7 C A Al Al PVC it I 4 v 8V Id C]t r,4 8 _Z x RE Ns td 8:0 tig I 'all V a A Am 091  87024 Is'.9116 S/190/60/002/007/003/017 B02O/BO52 a 0Y AUTHORSs Tsvetkov, V. No, Frisman, Es Vol oy'a TITLE: Optical Anisotropy and Shape of Siloxane Polymer Molecules in Solution PERIODICAL: Vysokomolekulyarnyye soyedineniyap 1960, Vol. 2, No- 7, pp. 1001-1009 TEXT: Here, the flow birefringence method is applied for the investigation of polydimethyl siloxane (PDMS) and polydimethyl-phenyl siloxane (PDMPS) solutions. The samples investigated were fractions of the commercial poly- mers PDMS and PDMPS; the latter, however, contained 1 qo monomer chain links with a benzene ring as substituent of the methyl groupw The moleou2m: weights of the fractions investigated were determined by the light scat- tering method (Refs. 2,3) and, in the case of PDMS, also from the in- irins.ic viscosity in-toluene by the equation 110 = 4.2-10-4 MO*59 (1) (Ref. 2). Gasoline was used as solvent in the determination of the anisotropy of the molecular segment on the basis of Card 1/4  87024 Optical Anisotropy and Shape of Siloxane b/190/60/002/007/003/017 Polymer Molecules in Solution B02O/B052 birefringence. The birefringence of the PDDIS fractions in toluene were measured for the investigation of the effect of shape. The absolute vis- cosity % and intrinsic values Djj of all solutions were detumined besides their optical characteristics. Fraction Il (M=1.79x10 ) and an unfractionated PRIS sample with an average molecular weight of 7.1o5 in gasoline, were examined. In all the cases, the dynamic birefringence A n increased proportionally to the velocity gradient g (Fig. 1). The con- centration dependence of the quantity (An/gcT.) q --) o(with rqo denoting the viscosity of the solvent) is given in Fig. 2. The characteristic values of birefringence En] = lim ( An/gcVo) obtained by extrapolation 0 0 of the straight line of Fig* 2, are given in Table 2. Three fractions of FDMPB (III, V, and VII) in gasoline were investigated. The biTefringence of all solutions was negative and very low. For the determination of the characteristic values En] and En]/EI2] therefore the Peterlin method (Tables 1 and 2) was also applied besides the graphical solution of the equation (A n/gcjc) = f(c) (Fig- 3) for fractions V and VII (where the Card 2/4  87024 Optical Anisotropy and Shape of Siloxane B/190/60/002/007/003/017 Polymer Molecules in Solution B02O/BO52 extrapolation of c ->O seems less promising). Table 3 gives the charac- teristic data of PDMS in toluene. The dependence of [n] /[:I] - (45n kT) / (4 3T (n 2 + 2)2) on M/C-q3 and a a 2 _ 3 2] y [n] f001k ia~/ns[1/120JTp'RTJ] of the molecular weight of polydimeth siloxane in toluene are given in Figs- 4 and 5. Fig. 6 shows the trans- chain of polydimethyl siloxane, and Fig* 7 the monomer link of methyl- phenyl siloxane. On the basis of the data obtained one may say that the quantity of the effect of shape is proportional to the molecular weight of the fraction. The determined asymmetry of the coiled PDMS is somewhat lower than the values L.usually obtained for Gauss chains. The segmental anisotropy of PDMS in gasoline is 4.7.10-25 cm3, and that of PDMPS is 2-3-10- 25 CM3. Thence the anisotropy of the monomer link was calculated; ~).96.10-25 CM3, and 13-4*10- 251 cm3p respectively. From these data the dif- ference in the anisotropy of the compounds SiC and SiO can be calculated -25 3 as being 1.1.10 cm . On the basis of the data obtained for PDMPS one Zard 3/4  87024 Optical Anisotropy and Shape of Siloxane S/190/60/002/007/003/017 Polymer Molecules in Solution B020/BO52 may say that practically no slowing down of the phenyl side-group (in the sense of a favored orientation of its faces) occurs during its rotation round the valence _-bond .. Caromat. - Caliphat.*'The authors thank 1. K. Stavitskiy and V. M. Svetozarova for having supplied the polymer samples. There are 7 figures,. 3 tables, and 19 references. 13 Soviet, 3 US, 2 German, and 1 Swiss. ' ASSOCIATION: Fizicheskiy inatitut Leningradskogo gosudarstvennogo univer- siteta (Physics Institute of,the Leningrad State University) SUBMITTED: March 4, 1960 Card 4/4  86292 S/191D/60/002/008/003/017 910 51' ZRD5 B004/-BO54 AUTHORS- Tavetkov, V. N., Boytsova, N. N. TITLE: Stereoregularity and Optical Anisotropy of Molecules of Polymethyl Methacrylate PERIODICAL: Vysokomolekulyarnyye soyedineniya, 1960, Vol. 2, No. 8, PP. 1176-1187 TEXT: The authors discuss the effect of stereoregularity of a polymer on the physical properties of its molecules. They arrive at the opinion that the measurement of optical anisotropy should be a sensitive method of structure determination. In a previous paper (Ref. 29), they had proved that isotaotic and atactic polystyrene show considerable differences in optical anisotropy. The present paper studies the effect of stereoregulari- ty of the molecular chain on optical anisotropy in polymethyl mothacrylate (PMMA). The following PHMA samples were used: sample A, isotactic, vitri- fication temperature T. = 50 0C; sample B, atactic, T v = 1100C; sample C, syndiotactic,T vabove 1100 0. Samples A and 0 were dissolved in benzene, Card 1/4  Stereoregularity and Optical Anisotropy of S/ 19 o/6J06)(0~2700 8/00 3/017 Molecules of Polymethyl Methaorylate BO04/BO54 centrifuged, and decomposed by precipitation with hexane into fractions which showed a regular dependence of the Kerr effect on the electric field applied. Next, the double refraction 8n in flowing benzene solution was measured as a function of flow velocity. A linear dependence A n - f(g) was found. From the reduced double refraction An/g 70C (~0= viscosity of solvent, c = concentration of polymer), the following relation was cal- culated by extrapolation of experimental data: Lnj = lim (6n/g7oc). Fur- c+O ther, the intrinsic viscosityrl)7was determined. The segment anisotropy a a of the macromolecules was calculated from these values: 4 it L(n'. + 2 ) '/4 5n kTj (a, - a . These values are given in Table 9 1 Sol 2) 1: (M molecular weight) Card 2/4  86 Stereorogularity and Optical Anisotropy of 5/19()710/002/008/003/017 Molecules'af Pnlvmathvl Mathaervlate B004/13054 Polymer Fraction M-10-5 &i.cm3/g Lq 10 8 [nY r.. 1. 1010 L71 (a, 25CM3 -a2 .10 isotactic 111 3.2 82 1.86 2.19 26.1 IV 2.0 58 1.20 2,07 24-7 (A) VII 1-15 37 0.72 1.94 23.2 VIII 0.8 28 0.50 1.78 21.3 (C) 111 4-7 66 0.09 0.13 1.4 atactic not (13) fraction 5.2 t 120 0.18 0.15 1.8 I ated I I I Further, the optical anisotropy was calculated according to W. Kuhn (Ref.20): a a = 7-5(a - a - a.L)-10-25 1 2 11 L). The following values were found for (a,, cm sample A: 3.3; sample B: between 0.19 and 0.24. Thus, the anisotropy of molecules of the isotactic polymer is 14 times higher than that of the ataotic one. This increase in anisotropy on transition from the atactic to the isotactic structure is explained by a change of rotation around the stretching vibrations in the eater side group of PMTA. No differences were observed between the optical properties of the ataotic (B) and syn- diotactio (C) polymer. Consequently, these samples should have similar Card 314  86292 Stereoregularity and Optical Anisotropy of S/19 60/002/008/003/017 Molecules of Polymethyl Methaorylate B004%054 microstructures. Double light refraction is a sensitive method of studying the degree of stereoregularity of a polymer. The authors thank A. A. Korotkov and S. P. Mitsengendler for supplying the samples. There are 8 figures, 2 tables, and 39 references: 19 Soviet, 10 US, 1 British, 1 French, 1 German, and 1 Swiss. ASSOCIATION: Fizicheskiy institut Leningradskogo gosudarstvennogo universiteta (Institute of Physics of Leningrad State University) SUBMITTED: March 19, 1960 Card 4/4  TSVETIMVI, V.N.; BOYTSOVA, N.N.; CRISHCHENKO, A.Ye. Study of the magnitude and orientation of birefringence in a flow of polyisobutylene BOlUtiDna, Vest. LGU 17'no.4:594A 162. (MLU 150) (Propene-Opitical properties)  TSVL'MV, V.N.; WTIN, Yu.V.; GLUSHEBKUVA, V.R.,- GRISHCHEVKD~'A.Ye.; BOYTSOVA, N.N.;' LYURINA,S.Ya. Electric af4 dynwdc birefring'ance of poly - benzyPI-L-glUt#Mte solutions. VymAm.sood. 5 no.3453--1+59 Mr 'iY,7. MIR& 16;3) 3. 1, lmtitit vyaokomDleku:Lyarnyk4 soyedineniy AN SSSR i Fizicheskiy institut Leningradskogo gosudarstvennogo universiteta. (Glutamic acid-Optical proberties) (Refraction, Double)  TSVETKOV, V.P.; _PqYT40VA.,,.Y.,_I,;,,.VITOV.TCAYA, M.G. Flexibility of the side gro-4pa and optical anisotropy of some polyacrylic and polymethacrylit esters. Vysolcom.soed. 6 no.2:297-303 F '64. (MIRA 17:2) 1. Institut vysokomolekulyarnykh soyedineniy AN SSSR.  BOTTSOVA, 0.3, *Dispensary methods for therapeutic and prophylactic institutions." K.Y.Mistrakhe Reviewed by O.S.Boitsova. Sov.Wrav. 15 no.2:63-64 Xr-Ap 156. (XLHA 9:7) (FULIG EULTH) (PAISTRAU, KMIIA VASILIMA, 1900- )  BOYTSOVA9 0. S'ef CAND MED SOrl, "METHOD OF DETERMINING /), wrl"ll, s *&WA*.,.OF REQUIREM-ENTS-1 ~~HOSPITAL AND SANATORIUM BED 0400", -W~ --- - - RHEUMATIC k"; T-H-E-,j-U E -i-Li 1`40PLEiil (FOR THE TREATMENT OF Z T 1:0 E ]b PATIENTS)." MOSCOW9 1961- (FIRST MOSCOW ORDER OF LENIN MED INST IM 1, M, SECHENOV). (KLI 2-61, 217)o -243-  BOYTSOVA.. -Q.S -- Method for determining the need of rheumatic children for dispensar7 and oanatorlum treatment* Zdrav. Ros. Feder. 4 no.5,.28-33 MY 160. (MIM 3-3:13.) - 1. Iz kafedry organizitaii zdraVookhraneniya (sav. - prof* W.A* Vinogradov) Tgentrallnogo instituta usovershenotvovaniYe. vrachey (dir, H,D. Kavrigina). (RHEIRUTIC FEM)  POIT, -N.Woo~w 11 GnItivation of **ad flaz OIL virgin and idle lands. Vest. AN lasalthe =1 11 no,9:75-79 8 154. (KIRL 8:2) (71AX) .,P"  SOV/81-59-16-57618 Translation from: Referativnyy zhurnal.. Xhimlya, 1959, Nr 16, p 281 (ussR) AUTHORS: Il'inskiy, V.P., Boytsova, V.F. =U:~ The Sorption of Bromine From a Bromine-Air Mixture by Sulfur Dioxide and the Reprocessing of the Obtained Mixture of Acids to Br2 or HBr PERIODICAL: Sb. tr. Gos. in-ta prikl. khimii, 1958, Nr 41. pp 129-152 ABSTRACT: The reaction of interaction of bromine with S02 in the gaseous and liquid phases is studied and the necessary technological Indices of the process are obtained. Methods for processing a mixture of HBr,, HC1 and H2SO acids to liquid bromine or hydrobromic and sulfuric acids have been veloped. It has been shown that the reaction of interaction of Br2 from a bromine-air mixture with S02 at -room temperature (14 - 200) proceeds quickly and completely at the stoichiometric ratio of Br2 and S02. The sorption of Br2 from a bromine:air mixture by an aqueous solution of the mixture of the acids HBr+H2S04 runs to completion, but the consumption of S02 is 30 - 35% higher than in the reaction in the gaseous phase. The reaction products are absorbed to SO - 99% from the gaseous phase by sprinkling the absorption column with a mixture of acids. The concentration Card 1/2 of the HBr acid in the solution can be increased to 20% by means of the re-  sov/81-59-16-57618 The 3orptlon of Bromine From a Bromine-Air Mixture by Sulfur Dioxide and the Repro- cessing of the Obtained Mixture of Acids to Br2 or HBr circulation of the sorbent in the absorption tower. The vapor pressure of HBr + H2S04 over a mixture of' HBr 4 H2S04 acids for the temperatures 0.25 and 500C is raised with an increase in the IiBr and H 2~04 concentrations,. The absorption coefficient of HBr and H2S04, in the absorption by a mixture of acids, depends principally on the concentration of the sorbent,.the temperature and the gas speed and does not depend on the concentra- tion of HBr or Br2 in the gaseous phase. The value of the absorption coefficient for the absorption of HBr at a temperature of 14 - 200C varies from 37 to 40 m/hr and for HCl from 12 to 17 m1hr. The oxidatiop of the acid mixture (HBr + HU + H2S04) by chlo- rine to bromine proceeds practically to completion at the introduction of 1.05 - 1.1 chlorine equ. per 1 HBr equ. The distillation of bromine from the solution by steam proceeds to completion at a steam consumption of -5 kg per 1 kg of bromine; bromine obtained in this way corresponds to the type 11ch" (pure). The separation of the acid mixture (HEr + HCl + H2S04) by means of distillation makes it possible to obtain HBr of 4o% and H 2S04 of 'To - 80%. The yield of HBr in -the form of a 40,16.solution is 90 - 95%. V. Borisova. Card 2/2  SOV/81-59-16-57620 Translation from: Referativnyy zhurnal.. Khimiya, 1959, Nr 16, p 281 (USSR) AUTHORS: T11inskiy, V.P., Boytsova V FDrozdova, Ye.G., Kuzlmina, N.P., Ru- sinova, K.D. Tl=-; The Freparation of Dry Hydrogen Bromide PERIODICAL: Sb. tr. Gos. in-ta prikl. khimii, 1958, Nr 41, pp 161-170 ABSTRACT- Dry Mr is synthesized from bromine tind H in the presence of the "BAU" coal Et 6000c; the yield is 91 - 96%. A ?echnological, method of purify- --ing and drying HBr has been developed ensuring the preparation of a pro- duct containing,--0.04% moisture and H2S traces. N. Shiryayeva. Card 1/1  .BOYTSOVA. V.F..-IRUSINOVA. K.D.. STEPANOTA. I.I. Detemination of moisture in bromine, Zav.lab. 26 no.5:550- 551 160. (MIRA 13;7) 1. Gosudaretvennyy Inatttut prikladnoy khimll. (Bromine-Analynis) (NotatiLre)  TSVETKOVt V.N.; BdYTSOVA V N. Optical anisotropy of molecules of polystyrene and poly-p-mathyletyrene stereoisomers. Vysokom.soed. 5 no,8: 1263-1267 Ag 163. (NMA 16:9) 1. Fizicheskiy institut Leningradskogo gosudarstvennogo universiteta. (Styrene polymers-Optical properties) (Stereochemistry)  IJ:-'3 R Ca"Cog,rj *CULTIVATED 111-AN'~.-,~').~'ONlMERCIAL-01--iforoUs. SUgar- 3 r ing. R F ZHUR E .616L.,21,1958,N0.96o67 Authcr Boyt9ova'V.P. w:u ,',uitlivt~tioik of, oil !~I.,ix on Virgin and long- Lnin Tjin(l iv Northarn KaZakbotan ,)~_j r,. lab V sb- . 1'~aslichn. kulltLLry v voot. -r-nakh SSSR. nodar, 11-Sov. Kuban"', 1956, 151-153 Ab~traet Fioid teats madu at KcirabadykAnyu Seleotion StIn'tion J-T, 1945-1~)/.t6 have snown that oil flax oan b.,-.! -ro-an zucouF~sfully in tb~t -districts of Northern Kaza;`_hs'%zm_ It mitured qulk;t- wall on hard soil, althowh on old tu"Mod plota its vegetution was pro~ract_vd, and J.t therefore had to be placed on vix.gin qnd long-lain soil throughout tho area. Karabelykakly Z provod tc) bit the best -variety. 53mirnov  JTHCRS. Boytsov, Ye.N.. and Finkelishtayn, A-.I. TITL S* An optical Investigation of the 1:olacular Structure of S-Triazine Derivatives. V. Infrared bsorption Spectra of Salts of Oxy- and Amino-Darivatives of S-Triazine. MIODICAL. Optilm i spektroskopiya, 1959, Vol 7, N'r 4, pp 482-486 (USSR) "BSTRACT: The following co:npounds wera prepared: trisodium salt of cyanuric acid, disodium salt of amalide, monosodium salt of R-111neline and monochlorhydrates of melamine, aunaline and ammelide. The method of preparation was the same ap that described by Bel 'stein (Ref 6). The infrared absorption spectra of thase compounds were obtained on samples pressed together with KBr using an IKS-12 spectrograph (NaCl prism, the wavelength range 3-15 ji). The spectra' of all these salts are shown in Figs 1-3, -where transmission T is plotted in against wavelength in ji. The frequencies near 1700 cm-1 indicate the presence of the G-O group in acid salts of aimaeline and ammelide. In the region of defo=ational vibrations of N--H in acid salts an increased number of bands is observed which indicate the presence of various -types of N--H bonds. In the region of valence vibrations of N-11in acid salts two intense bands Card 1/2 appear which are strongly displaced touardr, the longer waveleng~bhs. In the case of awelide there are two stron6ly displaced absorption bands  6 O-VI51 -7 -4 -8/32 -,A,.n- Optical InvestiEation, of the 1~olecular Structure of S-Triazine Derivatives. V. InfmreA Absorption Spectra of Salts of Oxy- and Amino-Dorivativas of S-Triazine. which indicate foruation. of aaLT2 group or an *H3 group. The authors suggest that fonaation of acid salts of armnalide occurs by attachment of a Protor, to the ring atom of nitro6ou. In the case of ammeline and 0 melmiino, -rihich have more tnan one amino-group, two bands appoar in addition to the bands Of th& XH2 group. The fraquencies of these additiondl bands Bra close to the frequencies of NH in a--inelide salts. It follows that fonaation of mono-salts of a-934ne and melamina involves only one of the amino-Groups and procstAs in the same way as in the case of amynalide. Thare aro 3 figures, 6 structurstl formulae, I table and 13 references, 6 of which are Soviet-, 2 3nglish, 2 German, 1 Belgian, 1 Japanese and 1 translation. 6U&ITTED; February 26, 1959 Card 2/2  BOYTSOT, TO.N.; FIRMISHMN, A.I. Optical investigation of the molecular structure of S-triazine derivatives. Part 6o Opt.i spektr. 9 noel:51-56 J1 160. (MIU 13:7) (Triazine)  86237 12,111 IZA2, 11 !~l S/032/60/026/0001/025/046/XX B020/BO52 AUTHORS; Pinkel'shteyn, A. I., and Boytsov, Ye. N. TITLE: Spectrophotometric Analysis of the Isomeric Compositions of Toluylene Diamine and Toluylene Idisocyanate Mixtures PERIODICAL: Zavodskaya laboratoriya, 1960, Vol. 26, No~ 8, pp. 959-963 TEXT: The authors suggest a spectrophotometric method of analyzing mix tures of 2,4-, 2,6-toluylene diamines, and 2,i~-, 2,6-toluylene diiso- cyanates on the basis of their infrared absorption spectra, since for thiE purpose neither the determination of melting and boiling points nor the speatrophotometric method described in publications (Ref, 1) are suitable. For increasing the nnalyois accuracy in measuring the optical density of the analyzed solution, the wire-gauze method was applied by which the ratio between the optical density of a wire-gauze and the solvent, and th( ratio between the optical density of the solution an& the gauze were measured instead of the optical density of the compound. Since neither th( solvent nor the wire gauze show selective absorption, the optical density Card 1/3  86237 Spectrophotometric Analysis of the Isomeric 5/032/60/026/008/025/046/xx Compositions of Toluylene Diamine and B020/B052 Toluylene Diisocyanate Mixtures of the analyzed solution does not depend on the width of the slit. The spectrographs of the 2,4- and 2,6-toluylene diisocyanate mixtures and the values measured, are shown in Fig. 1~ Figs. 2 and 3 give the absorption spectra of the isomers of 2,4-, 2,6-toluylene diamines, and 2,4-, 2,6-toluylene diisocyanates. The absorption bands 12.35 ~i and 12,80 (A were chosen as characteristic lines. For the determination of 2,4-toluylene diamine, the absorption bands of 11,86 and 12.57 ?.t were chosen, and for 2,6-toluylene diamine those of 12087 P. Using three wavelenglhs two pairs of equations were obtained whose solutions gave two values for the con- centration of each cQmponen*,,. Their arithmetic mean was calculated. The authors investigated the solvents which are transparent in the range between 11 and 13 ti, namely: carbon disulfide, cyclohexare, and nitro- methane. The spectrographs of the solutions inveetigaied were taken by the spectrophotometer of type OKC-12 (IKS-12) which was equipped with wan NaC1 prism and a special device for the fixation of the wire gauze and the bulb in front of the slit. The method is described for determining the ab- sorotion coefficients of 2,4-, 2,6-toluylene diibocyarates by means of Card 2/3  86237 Spectrophotometric Analysis of the Isomeric S/032/60/026/008/025/046/XX Compositions of Toluylene Diamine and B02011/BO52 Toluylene Diisocyanate Mixtures wavelengths of 12.35 and 12.80 ~A, and the isomer analysis of their mix- tures. Also 2,4-, 2,6-toluylene diamines were analyzed. Fig. 4 shows the dependence of the optical densities on the isomer concentrations from which the absorption coefficients of 2,4-toluylene diisocyanate and 2,6-toluylene diisocyanate were determined. Tables 1 and 2 give the analysis results for a number of mixtures of 2,4-, 2,6-toluylene diiso- cyanates, and 2t4-, 2,6-toluylene diamines. The mean absolute error of the analysis did not exceed 2~; the analysis lasted approxAmately one hour. L. G. Zelenskaya, A. V. Iogansen, and G. A. Kurkchi are mentioned. There are 4 figures, 2 tables, and 2 non-Soviet references. ASSOCIATION: Dzerzhinskiy filial gosudarstvennogo nauchno-issledovatell skogo i proyelittiogo instituta azotnvy promysb'lennosti i produktov organicheskogo sinteza (Dzerzhinsk Branch of the State Planning and Design Scientific Research Institute of the Nitrogen Industry and OT,ganic Synthesis Products) Card 3/3  YANSHIN, A.L.; RV!MUMVSKIY, 3.A.; AL3KSMROVA, H.I.; BORSUK, B.I.; VOLIK, A.V.; ZUBKOTSUIL, I.H.; YAKOVIW, D.I.; BXR, A*G.; BOROVIKOV#f L. I.; BOTT!gkuy : OVIORKIN, N.K.; BZSPALOT, V.7,; SHLYGIN, Ye.D.; SME SKIT, 3.7.; KHAKHLOVO V.A.; FAGOZIffq L.A.j DITM. V G.; GORMY9 1.1.9 red.; XALSSIJ, N.Qo, red.; FOMICMff. V.D., red:; wwomur, -ruZ red.; 011MAWK, P.K., red.,# KOKISW;*'-'~4., red; ; DASMWVA, A.D., red.; 70WI4GINA, S,, tekbLn. red.; VDOVINA, M.P.: takhn. red** [Geological map of the U.S.S.R., scals, 1.01,000,0001 Geologiabs"ia karta SSS34 mapahtab 1;1,000,000.1 tixpl&uatory uotes to accompaxq sheet] Ob"lasnitelInaia naplaka k 34atu. L-40 [36bal (Faba). '1949. 56 p. ._,_ L-41 Erzyl-Orda] (riYl_Orda).'- 1946,, 2o p. 1-42 [IrareakpWI (Karaakpal). 194~. 42 p. X-41 ~a_nd7a'(Karagauda)' ~vj Oa~O. 1948. 28 p.' _ K-43 ELM . 0 '42 [Fetiopavlov~kl 0;triopavlovsk) 1947. n P, 1947-137 P. S- ' 0 _' -IN-W [Novosibirsk] (N~vosibirsk).1948. 33 P. 0-45 Rom'skj'(Tomeik). 1949, 26 pe- 0-" [Kirenik] (-Kirensk).'1947 Moskva, Goa. Izd-vo gsolf* lit-17. (Mm 1116 10 Russia (1923- U.S.S.R.) Ministerstvo geologii. (Geology-Naps)  'r 30TTSOVA Ye P.; HAZINA, Ye.A.; HIMYLOV, B.M.: OVJCWUN, H~I,: . S.M.. radaktor; GUROYA, O.A., tokhnichaskikiy redaktor. Erreology of the southwestern'region of the Turgay Gates] G,eologiia iugo-zapadnoi chastIFIVigaiskogo progiva. Mo;skva, Goo. nauchno-takhn. izd-vo lit-ry 1p geologii i okhrane necIr, 1955. 154 p. ~Lmnineracl. Vessoiusnyt geologichaskil institut. Trudy, Vol. 5). (KF.RA 9:.J) (Turgay Gates--Geology, Stratigraphic)  AGRAWVSKAYA, I.A,,; ASATUM, YePT - BDYTSOVA.Ye.P.; BOCHAMIIKOVA, A.D.s .It, .-7 ~-- - P BOYTSILI. Z.A.;,IWOVA, YeAj 10.n.j KLIKKO9 S.A.: KWCHINIZU' N.V.; KALYA~OVA. Ye.So; MARKOVA. L.G.; MARTINOVA, E.I.; POKROVSi~Y!, I'.K.; POLDIMNA. V.A-; ROKANOVSKAYA. G.K.; SAMIGULIKA, Ye.P.; SUOVA, K*A*; SIGOVA, NoN.; MLIMAK, N.K.; MLIN, S.S.,re- daktor izdatel'stva; GUOU, OoA., takhnichaskiy redaktor. [Atlas of Oligocene spore and pollen complexes in various regions of the U.S.S.R] Atlas oligoteenovykh sporovo-pyl*tsevykh kompleksov raslichn.vkh raionov Willi. Moskva, Gos.nauchno-tekhn.izd-vo lit-ry po gologil i okhrane nedro 1956- 31Z Ps (Leningract, Vaesoiuznyi geologicheakii inatitut. Materia.1r, no.16) (MLRA'10:3) 1, Vaesoyuznyy nauchno-iseledovatel'skiy geologicheakiy institut Kinis~erstva geologii i okhrany nedr SSSK.(for Asatkina, Bo'ytsova, XalashnIkov&,Kruchinina, Pokrovskaya, Romanovskaya, Sedova, Stall- mak). 2. Tushno-Urallskoye geologicheskoye upravleniye (for Sigova) 3. Ural'skoye goelogicheskoye upravleniye (for Agranovska7a, Bocharni- kova, Martynova, Polukhina, SamigulIna). 4. Treat uZapsibneftegeologiraw (for Boytsell, Ivanova, Klimko, Markova). 5.Geograficheakiy fakulltot Leningradskogo gosudarstvannago universitata(for Malyasova) (Pollen, Fossil) (5pores (Botany), Fossil)  Ped 1//9, -)/C-, /--) BOTTS016,",., GL&DIOVA, A.N.; ZAjJM, V.V.; KRUCHININA, N.V.; MORIVA, V.A.: POKELOYSIATA, I.M.; ROXANOVSKAYA, G*M.: SZWYA aN.A.; SIGOTA, N.H., POKROVSKATA, I.M.. tedaktor; PMIN, S.S.: redaktor isdatellatya. GUROVA, O.A., takhnicheakir redaktor. .[Atlas of Nioce3w sp6re and pollen conple"s of various regions of the U.S.S.R.] Atlas miotsenovykh sporovo-pylltsevikh komplaknov razlichafth raionov SSSR. Xoskva, Gos.n&uch.tekx.tzd-vo lit-ry po geole- i okhr.medr, 1956. 460 p. (Ioningrad, Vessoiuzzyl geologicheskii institut, Materialy, no.13) (KIaA 10:1) (Sper4s (Botany). Fossil) (P*Ilen, Fossil)  BOYTSOVA, Ye. P. Cand Geol-'blin Scii. -- (.d:Lss) XUM"Palinolo-gicAW P"XA,-,.4 1 -07 ~ ""~Uivn of the Stratigraphic MissociatIon of- 3mf -kIw Cretaaeous and Tertiary Deposits of the Turgay Depression. 11 Len, 1957. 22 pp 22 om-. ( Mi:nof Geology and Conservati:on of Mineral Resources USSR, XXXX All-Union Scientific Research Geologim Inst VSEGEI), (Ell 118-57, 94) _V40- oo. I I~  Ye - P. BOYTSOVA B. M. NIEHAYLOVA, N. K. OVECMMi "Geology of the Southwestern Sec,Aon of the Turgay Dovnwarp and Its Possibilities in Bauxite Mining" P-378 M=IrMIWW gnd"Origln of nm=tes.. Nbscov.. 1zd-vO AN S= (OtA. Maogo-poVW. UAWO 1958, 480". TWA OoUeatlon of aMdea by variouis aUtbors on tbo mimrajoa aM 00!bml tX Of btuxitft APPOWSd 09 a MUlt Of 1955 COO. on the orWn of bauidte (Chairmn: Acad. N. U. StWdwv)  BOYTSOVA Ye P.; VITTMOURG, :P.V.; GANESHIN, G.S.,; GROMOV, V.I.,; ZUB'kKOV, VPA.; IVAITOVA, I.K.; XRASHOV, I.I.; LUNGERSGAUZEIT, G.F.,; ' NIKIFOROVA, K.V.; POEROVSKAYA, I.M.; CHEMEKOV, Yu.F.; 3TSHTEM, S.V.; YAKOVLEVA. S.V. Sergei Aleksandrovich IAkovlev; obituary. MuLK-om.chetv.pero no.23:97-101 159. (MIU- 13:5) (Ukovlev, Sergei Aleksandrovich. 1879-1Q57) (Geology)  AGRANOVSKAYA, I.A.; ALYUSHIIISKIY, Yu.A.; ASATKINA, Ye.F.;_BOYTSOVA, Ye.P. BOCHARNIKOVA, A.D.; VOYEVODOVA, Ye.; GROMOVA, H.S.;--ZAUY3M, V.Y.; MARTYNOVA, Z.I.; PA110VA, 1.A.; POKROVSKAYA, I.M.; ROIWIOVSKAYA. G.M.; 33DOVA, M.A.; STZLII.UK, N.1r.-,- KHAYXINA, S.I.: EDELISHTMN, L.I. [deceased]; MAIMUSHIN, V.A.i tekhn.red. [Atlas of upper Cretaceous, Faleocene and Focene spore and pollen complexes in certain regions of the U.S.S.R.] Atlas verkhnemelovykh, paleotBanovykh i eotsenobykh sporovo-pylltsevykh komplekBov nekotorM raionov SSSH. Leningrad. ig6o, 574 p. (Leningrad. Voonoiuznyi geologi- cheskii. institut. Trudy, Vol-30). (MIRA 13:10) 1. Vaesoyuzny7 nauchno-issledovatellskiy geologicheskiy institut Ministerstva geologii i okhrany nedr SSSR (for Alyushinakiy, Asatldna, 13oytsova. Gromova, Panova, Folwovskaya, Romanovskaya, Sedova,Stelimak, Xllshteyn). 2. Urallskoye geologicheskoye upravleniye Ministerstva geologli i okhrany nedr 383-R (for Agranovslaqa, Bocharnikova, Marty- nova). 3. Severo-~Vostochnoye geologicheskoye upravleniye Ministerstva geologii i okhrany nedr SSSR (for Voyevodova, Khaykina). 4. Lenin- gradskly filial Gidroproyekta Ministerstva elektrostantsiy (for Zauyer). (Palynolog7)  LIVOV) K.A.; POPOVICH) N.I.; SERGIYEVSKIY, V'M-;KONDIPaN, O.A.; SFEPAKOV, D.L.; GORSKIY, V.P.; BOYTSOVAYe.P.- BOGMSOVA, T.B.; GORSKIY, I.T., otv, r*d.; YEVSEYEV, K.P.,, otv, red.; KRASNOV, I.I., red.; POKROVSKAYA, I.M.p red.; DERZUVINA, N.G., red.izd-va; GUROVA, O.A., tekhn. red. [Resolutions of the Interdepartmental Conference on Working out of Unified Stratigraphic, Sobemes for the Urals) Resbeniia mezhvedomstyermogo soveshchaniia po razrabotke unifitsirovan- zWkh stratigraficheskikh skhem dlia Urala. Rassmotreno i ut- verzhdeno Mezhvedomstvenn~m stratigraficheskira konitetom 9 fev- ralia 1960 g. Moskvap Gos. nauchno-tekhn. izd-vo lit-ry po geol. i okhrane nedr,, 1961. 50 p. (14IRA 15:2) 1. Soveshchanije po unifikatsUl stratigraficheskikb ekhem Urala i po sootnosheniyu drevnikh avit Urala i Russkoy plat- formyy 3verdlovsk) 1956. (Ural Mountains-Geology, Stratigraphic)  BOYTSOVA, Ye.P. Spore pollen complexes from the Paleogene marine and littoral sediments of the northern and eastern chinks of Ustyurt. Trudy VSEGEI 102;115-151 164- (MIRA 18:2)  VOUVODOVA--,#'T%M,; ZAUM,,T,.Y.;,KOLITSCfV BOM A, T.T.; KRUCHININILp.N.V..; MAR7YNOVA,, ZJ,;.FANOVA., LA,; PMOVSKATAp I.M.; 4CI4ANCrVSKAUO G.M,; SEDOVAp M.A4; STELIMAK, N.K.; TABkCHNIKMr I.P& a of lower Cretace'aus spore ind pollen domplexes of some regions of the IJ;S.S.R'*'] #las nizhnemelovykh eporovo-py]:Itsevykh kempleksov nekotorykh rkimwv SSSR. Moskva, Nedra, 1964. 551 p. (Ioningrad., Vsesoiuznyi geologicheskii institut. Trudy, vol.124) (MIRA 18.9) 1, Vossoyuznyy muchno-iseledovateltakiy geologicheskiy insti- tut (for Boytsovap Kolltsovat Kruchinina., Panovat Pokrovskaya., Romanovskays., Sedova, Stellmak, Tabachnikova).-2. Urallsko3m goologicheakoye upravlaniye (for Martynova). 3. Severo-V-ostoch- noye geologicheekaye upravleniya (for Voyevoclova). 4. lanin- gradakiy filial VBoooyuznogo ordena Lenina proyektno-izyl3katell- skogo i muebno-issledovatellskogo instituta im. a.la. ZInLka (for Zauyer).  PANAESHKOV,. N.; BOTTSM, T. The influence of dispersion (the paxticle.size) of dried milk on its stability. Molochnaya Prom. 14, NO-7, 30-2 153- (MTR 6:6) (CA 47 no.22:12676 153) 1. S,M.Kiroy Agr. Inst.. O.mak.  OGIENETSHTY, I.I. (Dnepropetrovsk); DOWSUN, L.G. (Dnepropetrovsk) A theorem proposed b7 E. Titchmarsh, Izv. vys. -ucheb. zav.; mat. no,4:100-103 165, (IMTRA ILS;Q~)  BOYU,,N.V., Inzh. Calculation of losses in the yoke beams of pouer transformers. Vast. elektroprom. 34 no.4:13-16 Ap 163. (KM 16tlo) 0  TRIYONOVA, A. Own UZ&A C-rtatxyt Bulgaria Awil~lb Dreftest not Inascatea AMUUU:~u- not indicated Coi=ut Sofia, XhiwitnS, NO 29 I;ATIAPr 61, PP 31-32 ixtAz Me Etiologic Role of pstb~ogonlo Coll Bacteria in Omstro-Intestinal Dissases.4 CO-withores ATknZOVA, a. C80yukit ST if So  BOYUTSKIY. S.S.: ZAYORCHKOVSKIY, A..D.; RMINA, S.I. The causes of the ranulation of powders, Collold.J. (U.S.S.R.) 14, 29-37 '32 [Engl. trauslationl, - (CA 47 no.20:10313 153)  XLLINIZA, L.Te.; AUMMANO, V.I.; DOTUTSKIT, B.S. The separation of solutions of high polymers [with Zngliah sumoLry in insert]. Koll.sthur.18 no.6:691-696 N-D '56. OaaA 10:2) I* Wentral'W macbm-iseledovatellekly Inatitut zansuiteley koshi, Moskva. (High molecular weight compounds) (Solution (Chemistry))  BOTUTSKIT, S.S.; VAKULA, Y.L. Adhesion of synthetic rubbers to different high molecular veight substrata. Izv.vyo.ucheb.zav.; khimJ khim tekh. 3 no.l: 186-189 159. (MIHA 13 --6) 1. Kafedra Izolloidnoy khimii Moskovskogo inatituta tonkoy khimichesko7 takhnologii imeni M.V.Lomonosova,