SCIENTIFIC ABSTRACT SOKOLOV, S.I. - SOKOLOV, S.N.

_W_W_W_4VWW-W UL 6-0 a a 0 0- M W W W W W W W-W-W W NWIT O L A 4. A I 1 1, 1 1 _A I L 4A if kl. 1.41 It t 1 0 Displacement of 0 Iftelectric point and virwtural changes indwAd is collelgen and pistis by trestmgot withalkall. S. 1. Sokolov and R.I. Fcl'dn3an. LeXhayu /Yom. J. No. 6, 19@22(1943)-Specimens front the mid- die of an industrially prepd. hide were divided into I groups. Group I was washed with water and delijurd l i h li w t 'l u'. Groups 11. 111 and IV were washed, kept l in g ass jars tonig. 12.5 x. CaO ptr 1. of H.0 for 10, 3) And 30 days, rt-sp., thtu wa4ird with If,(), delimed with liplJO., l and again wahtd. Chanlit-3 in isociec. point of ciollagru were d td b d t th l i ff i ee e . e e ve oc z. ty as a ectv y goo by the fill tif the mcdium. and by detg. the min. amt. of welli f ll b i ff h i I', Zoo 00 s co ng o agen n u er so is. at var ous fill values. The isodec. point offirlatin wasilcid. by the min. Ybiceiity 0 of gelatin at various pil values and by the max. turbidity ' 0 of a gelatin sol at various pil values. I lic extent of "Inli'l M hicnirning oft he coll2gen struct tire by the alkali treatinen u coliagen produced by treatment with alkali to 0 ,, Was detd. by -he absorption of IlrO vapor according to th' gradual destruction of the cruss bonds which lu I log'04C, i @ j van flermuclen method. Nx-lectric Points a' tictil. by tlic polypeptide chains; th6 process liberal" polar %wriling and fly electru0smosi 4 resit rb@ were for rou oint 15 43 f h i k h hif A - . ., . . soc c. P e s t o t e g p that are responsible for t and 15.41 5 -,,[1 4.th; and 5.00. 111 4.75 and 4.8), IV 4.453 and production of grlatin frou, collatten is considered a roo- be 1.1%). Isuck-c. points of gelatin ticti). by vi@cosity and by linuation by the t1jerinal action of the d6ruptivr fir-'e-, turbidity, resp., were from 1 4.X1 and 4.34. 11 4.24 and initiated by the alkali treatment. Therefore the ' 121. 111 4.10 and 4.00, IV 3A4 and 3.00. The remilt-; point of gelatin is lower than that of the colltgcr. frijin ' O b li i di as,* ot i valtlir a on in sorpt t lls and amiltv, lm cate that the longer the which it is derived. Formation of N 00 j 1 1 Ikali treatment the more the colLigen structure is loosent-of treatment ofcollagen with alkali also contributes tothr too 0 1 0 and the niore vapor is ab@orbetl. The chem. changes in shift of the i%oejec. point. 0 00 s. . t A stfALL11AGWAL LiTERAft,91 rLAWFiCATIC^ ill I all Is, - _ _ 1 3 An % L v ti 0 r, :1 1. is K a IE IT IT a rt it X LO n I lind: 16T 0 *1 00 0 0 0 0 0 0 so 0 6090 00000 00000 0 90010 0 Goo 0 *00000 00 *Go o 0  I - . - , - w-w-w-w- - - 0 00 0 0 o 0 a j o JA v v is du #1 #1 si AL 4 1 T u A Li 1 1 1 m 44 a @c . - - - - . - 4.0 as PNOCIMS AND parpt. The beat resistance of fibrillar otlins. S. 1. " F r ultotry). nst. for Lt S I 1 Kuganuvich Clicinim-Teclink-al 0 I,Ndv Kon(crentsil I'Viokomelekulyur. &wdinenipm. Akad. S.S.R.. oidri. KAsm. Nauk s Oldd. Fox.-Mut. @'auk. S . Z, III 21)(JU-14)(pub. Ils-15).-Revim wilts 21 It. NI, I-sc"tvr IV J =00 =so its 0 a !I ago a vi f - - - - - - - l a. S L A MITALLUQGKAL LITIMAT L. Me CL A SIFKAMN A $ & b u " All 14 a rw 0 00 a I N IN *'no it V-09 it u n it go's 1 10 @ 0 0 .0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 * 0 0 0 a 0 0 4 -00600 0 00 00004  all, 1 Is b )A P All IT v 41 41 63 40 ali* it 1) IS At Is itUis A 1, eal 1 4 11, L a 11 It F Q 4, 1 1 _k I P OC 90 9C 1 ; . I #. I I A It3 A es A a Study of the stakiiii of the Ploducts of Unning gelatin a d lli S = n co mlen. . 1@ vaud R. t. velmmAtt. Lartkm,a Prow. 19". No. IT. 20-2-in the study of ill, u_ ',a( so a - as a dimaxyr ut ft W" '1141WIA that tile stlungth "'I n of the tanning pr,m vuriml% talmilax pflou"lure, 14 : . 1 leld. by th,; rawtionut KC.NS with liviAtill ppl,. will, tile 00 _ ; ! 1 itiduou,x )I KC.NS v,,L, tj,jal j,y (lie Ili-4wrNion 14 thi- pill'. Alli'l 1! qA tile pptm. on a filter. FIC-111v, ppi'l, -.1 'd6 ,; er M b KCN l see 00. w o y . p u_ "c.-pt tb_ "1140";1NOcit =00 y. -141 rabl i " " c qxc ) y n " CA"Urell"'llt" of lib"r S%VcllillK tu COO KC-NS *Aujl, showed that the fiber btructure!,treligth i, iu- , reased by two factors: thkkenill, and coutriwti(ml. Syll_ zoo Ifirtic tanning 2gents without milfonic "group, are t@ b, goo alAm"l with materi&6 giving tile liltkt stable prigluct'. Cr -alts Ykid wrIl-tanned talalc but th,.w aA, ij,,t -00 oo prevented frous cantractj@j, am % wellillic. OA-l"cl, proal- goo uat% yield tanned malcrial which cantuit t1k,, a,'tioll of KC.NS milms. Thr rt@ull@ are vxplaint,il (ail [lie ;;Do l"'k of int"Illol. b6alK- If X-ming aKvtlts lW1%%vvIj the goo protein unit'. G. St. K(k"Aalmlly use Nt A it CLASSOKOVON n v soaa. ooi -Tal - ----- U 19 AV 10 40 .4. Q-T cot 031L)l dK 0.. ill 0 , NX -0@ Tj IL 4A L 1 41 rw a in I do a 3 if it 49 kw n I I& to D to it a a K a W 0004 Goo * 0 0 o 0 o 04100iO 0 0 a a 0 0 0 99099001111161111169 ::::::1 oeO4Oo6OO6 ooo o oG1/ 00410010 : o o o 00000000004o  0 o 0 o 0 0 0 o 0 0 O-W -00-0-w-wv- - 0 * 0 0 , ' 91 1 I . 4 Is w 17 U wo 0 w re T.D .0. m x v u u A 1% A x U W W V bi w a 96 .1 it 41 see A I.Catt a . . I . . . . L-L-AI-A U@__W_u _t__A__L I -t k A t J@@'jApcftj oo I 1.0cessit AND 04cactrIts -f. GO A 4p 00 -00 00 00 GO a go a 2HI at dw dability of coUolds 18 conit"don with = sukjaw and S. S. voynt- -00 0 . 21-3.-Rcviv-- 10-11 1944 -00 . . K K050apo" m G t 00 . . ' Rmo* *04 =00 God zoo Go,, 6*0 :Zoo 8 1 L A.47ALLURMCAL LITERAILIVE CLAISIVICATION SA-0.0 .4 1 saiabo "it 04V Get L' I ; ; .0 1. "' ; ' ' ' . . ; ' @ " - 0 0 0 0 0 0 0 0 d 6*0 ;rO* be* MOO C2400 Wool ...... IILIII OK G%T M '10 14, It Na to), %Noma weISM19 A a I I T e * 0 0 0 0 0 0 0  qpallot f ld $1 It U U fj it It it I A,& P 4 A-A -01 L-4@jf "-M-11 U" flit "M 111041111 adjud Device for coultinuous watmi of liquid densities of airups. S, L U.S.S.R, 60.376, Oet. 31. M7. - , It, Iv, d 4jr Is J, U."JL OC June M H . . 30.1 go A S 0 LITERATtWIE rLASSIF@CATMN ..wN It ---V r-7--W-T -T- i 4-, 1) U 11 it 1E it K a it x do 0 0 o, do 0 0 0 0 0 004 V Joe ~sees so 0 so* 100, log Gas coo roe use zoo Is ZA An 4 4 rw 0 1 'Ar so a a a 3 t v LLD n do 9 : 0 lej " 1-i-i-k A- 0 0000000  Lc?wuifm Of Ectlon of [@,I-tkizers cr; The @Ilvsicc rje-- azlcal properUca of bl.:1, *0 71"ern- J, @0 If- Nr. Tecll: Illst. I -pill I.-:11 Nfc@- 'ovlady 6-,,' cl-il. ilkd. , 1 Milili S.S.S.R. 1@49, !,i pol:-vill-4 C1110- mnn%,,iilv ii-,oi ill such of t1j,- npi:6-urns 41cciincs ralti4ly elulk w4h ;nmnse of the plivitikJxpr crincii. to abolit it miltv f:'S whi6i 01C. 41 clill'- Pq1tircil but ir stilt ri. 'Ippj,@( i-d I tilt! noba A Tlu- r,--,ults smil to m(ficate the com v@ ctlioid@mtii:in 0. (1w ;I,-tion ef Sacl. pimtki"cr, oll i.,!. Oil Ov. rvlative no. of Mots. in(roditcuit mio th@! qpeci-ii-vi, re- Tt-! %vork- rvquired for film rtytarc Of -.mi V@tiCiUd SpC6111CIIS 4 1113K. Lt abOttt G Mnk' % . A Lhe pl.-vitiizer, with sharp dcclin,i ill L-ith tilrectiolls ar k @aMly frOM thEr Liax. This imint cmr@ptm& LD t3j3)sition vhistioGne. At 1-1-1113mok lbere is a1sc Observed a mvorc sli@J!ow with ."ity. t1ol Irs, 4 of str-ngth wid fliil I . _-,%,iiiyl ciibj@de @,I,,vs ihow u!ongatiort that is li%,:tr in @c,-,,pcct to Wiwi. at 't"N temps., flittl Undergo a tr.@it-izioll afur -rhich tbc furth, hows a imup'leL rtlall,,r, Plait c@'4c-qdis- plao-, -hi* poNt to lower t-iniv. and -,1:tlWrAes and phos-, pfi-Acs @ive The saine result. rix ('.,VCL 3i the. trtllSL- l '"@Qla -120 k K ocL l l G M i / mo e. . . tion s a out ca . p PIN  FELIDNAN. R.I.; SOKOLOV, S.I. State of aggregation of high-molecular compounds. Linear thermal expansion and physiconschanical properties of some polymers. Khim. i Fiz. Khim. Vy9okomolakul. Soadinaniy Doklady 7-OY Konf. Vysoko- molskul. Soedineniyam 052, 159-67. (MLRA 5:7) (CA 47 no.16t7860 153) 1. Moskov. Tekhnol. Inst. Legkoy Prom. im. L.M.Kaganovicha.  PC117i-IN, Valentin Aloksandrovich, doktor khirlicheskikh nauk ;MOLOV. S.I. jwofmmor, doktor tokhnichmikikh jimik. rotsenzant; PLIWANNUM-TI17- rodaktor; MYMEDSY, L.Ta. , VmkhnIchoskiy reiduktor. [Measuring the activity of hydrogen Ions (pH) and oxidation-reduction potentials, and potentiometric titration] Imerenis aktivnosti vodo- rodMrkh ionov (pH), okislitalino-voestanovitallnykhpoteiltsialev i -potentsiometricheskoe titrovanie. Moskva, Gos.nai1chno-tekhn.Izd-vo Ministerstva promrshl.tovarov sliirokogo potrebleniia SSSR, 1955. 205 P. Mtentiometric analysis) (MLRA 8:12) (Hydrogen-iox concentration)  PISARENKO, A.P.; SOKOWV, S.I. :.,- : About the book og S.S.V*iutskii and B.V.Shtarkh 'Physicechemical processes in the formation of films form high-polymer dispersions." Reviewed by A.P.Pisarenke, S.I.Sokolov. Koll.zhur-17 ne.6:475-476 N-D 155. MRA 9:4) (Rubber, Synthetic)(Tsiutakii, S.S.)(Shtarkh, B.V.)   not Mh'2___@ _7 77@ tv Distr: hydmea' p6m,04billty Of I. S., A. RmftLwd. 'Kau. za." 1957. 19, a"-s. it WzA Lound tw &.0 plaaticiser affects the permeability of polymer films differently, depending upa the -stata of the i or eladle. The p_JyMer. -ndy Whether vitredus greaw- t, incrcuo in pecmealwty waa obsen-ad fer 6 7 the high ellaatis state. In th;-v state the legarithm of tile permeability is a linear function of the molar ' i the plutici5er. The permeability extra- frat-iion poWrA to imit raolar fraction of plasticiser approximately jinaitrly @Vith,tPo number of carbon atonis in the alikyl grolAps of the plitha-lates used as plasticL-erq. There are 14, rLAbroncei.  SHOEGOLEVSKAYA, N.A., kand. tokhn. nauk; qOKOW 5- n. V,, J,, doktor tekh nauk, prof.; KEIRSIN, G.L., inzh.; PRIGOROVSKIY, N.I., doktor tekhn.nauk, prof. Opticall.v active materials with various elastic moduli used in investigating stresses by polarization-optical methods. IEV. vys. ucheb. zav.; mashinostr. no.3/4:?2-83 158. (MIRA 12:5) 1.Moskovskiy institut khimichaskogo mashinostroyonlya (for Sokolov). 2.Moskovskiy ordena Trudovoge Znameni inzhonerno-stroitollnY7 institut im. V.V. Kuybysheva (for lVaesin). 3-Institut washinovedeniya AN SSSR (for Prigorovskiy,). (Resins, S7nthetic) (Strains and stresses)  x W-Effect-of W"ficii2f additions-On the m ch., Cal properties i 'd d ( I l!Wne hl id h i M , c or e an t i 01 V11 I ch e ny - M 'dmWA A. 1C. Mironova. j;W34 cb-ld - - -Distri '4926Q)/4E4j/ am w .. _So Techno . nst. Mer Ind., Mosco wy .1 AW"_ (1958); ct.. G.A I Fg M . ' /,F1/4FJi.f the el-Mi modwMSPE, of eakinx st The br 1 4 ,, and 17-j%n . CH 1-Mool :CH 177 + CH :CUI 23 (I)l lastRum: , . S , p and of % p ed. poly(vinyl chloride) (11) were equal to i a*t oi- an P, Ej@, resp., If wx and E, arr, or and E of the * f th E s are consts. o a, and e p unplasticized polymer, cizer (e.g_ 3 to 0 X 10-4 kg. wt./sq. mm. and about 3 X 10-4 kZ. wC/sq. - mm. for tritolyl phosphate (111)), -and n the mole fractionsof a polymer (reckoned as; And I-x are I - monomer) and plasticizer, resp. The equations were valid, and between n 95 when M 82 and 0 for I between n - 0 . . . 0,77 and 0.07 when di-Bu plithalate (IV) was thc pLasticizer-1 and for It betwcen n - 0.01. and 0.90 0.94 and 0,09 aucill or a chlorinaied hiphellyl Wasi 07 when M IV 0 01 d 0 . an . , , added. The values of p2 and Ej depended very little on the'  AUTHOR3: Felldman, R.I.; Sokolov, S.I. 69-20-3-21/24 TITLE: The States of Aggregation of High "olecular Compcunds (0 so- stoyaniyakh agregatsii vysokomolekulyarnykh soyedineniy) 2. Study of the Linear ExDansion of Gutta-Percha (2. izucheniye lineynogo rasshireniya guttaperchi) PERIODICAL: Kolloidnyy zhurnal, 1958, vol XX, Nr 31 PP 3-SS-394 (USSR) LBSTRACT: Gutta-percha exists in two principal modifications which havp been detected by roentgenological and electronographical methods. These modifications are differentiated by the po- sition of the various chain links and the chains themselves. @@utta-percha films on different supports have been studied according to their states of aggregation. For this purpose they were heated and cooled and their linear dimensions measured. A film of gutta-percha R (Figure 1) haz been test- ed and measured. At a temperature of 58 - 620C it became transparent, which means that this temperature is the melting point of the crystals and the transition point to the amor- phous state. Figure 71 also shovis the dependence of the length of a film of gutta-percha R, which had been heated in -,Vatier to 800C and then cooled to 150C, on temperature. The two Card 1/2 curves are similar, but the linear expansion is different.  69-20-3-21/24 "he States of Aggregation of High @,`Iolecular Compcunds. 2. Study of the Linear Expansion of Cullta-Percha The same curve for gutta-percha S is shovvn in Figure 2. This type of gutta-percha was in an unstable state with interior stresses. A contraction and expansion process was active in the sample at the same time. In the temperature interval of 27 - 420C, these processes compensate for one another. The temperature dependence of gutta-percha which has been prelimi- narily extended close to the breaking point is very slight (Figure 3). The thermal treatment of the samples is regarded as influencin.- the molecular packing of the gutta-percha as well as the stability of the system. There are 6 graphs, 1 table, and 25 references, 11 Qf which are Soviet, 8 English, 4 German, and 2 American. ASSOCIATION: Moskovskiy tekhnologicheskiy institut lt!gkoy promyshlennosti (Moscow Technological Institute of Light industry) Moskovskiy institut khimicheskogo mashinostroyeniya (moscow Institute of Chemical Machine-Building) SU3MITTED: April 15, 1957 Card 2/2 1. Rubber-Test methods 2. Rubber-Test results  AUTIMS: Shchegolevskaya, N.A., Sokolov, S.I 32-24-+1-66/67 MITLE, An Optical Act'-,e Material "Epoksiftamal!' (Opticheski aktivnyy LI material "Epoksiftamal") PERIODICAL: Za--rodskaya Laboratorlya, 1958, Vol. 24, Nr 4, PP. 511-511 (USSR) ABSTRACT: The method of producing an optically active artificial resin is described which, according to TsNIITWASh at '400 poss sses a .Longitudinal elasticity modulus of 35000-40000 kg/cm and an op- tical layer thickni-ass constant of 10 mm - 1 -1, kg/aajat 12D' tbesevakles axe -5 150 k9/cm7 ax-0 0-2 kg/an respectillvely; at ab 200 C . the Poisson. ratio is 0.5 with a low boundary effect. From the tech.- niqL,e of prcduction -It follows that as initial product epoxy resim E -40 or ED -6 is used. The former i:s obtained from epi@@I-_'oeiya;rin and phleenylolpropane and conts-ins 14-20% epo7y 8% of which are volatile; their saponification number is '10 ar-P their molecular weight 600-700 (withwit chlorine). The resin 7. -40 is hardened by mean of a mixture of malleic- and phtalf:c anhydride and a technique is applied which makes it Cali 1/2 possible to o'btain larger, homogeneous, and faultless specimens.  An Opt-i.cal Ac;@'-ive M--l-ay-lal "Epoksiftamal" 32-2-,+-4-66/67 Fr= 'I*h@- te-&-niatte of working mentioned it may be seen that a thermopolymerizzation of longer darat-Ion is carriel out-. Inst,,al of or-e part. maleic anhydride phtalic anhydride may be used but t'nds is, however, not possible in the oase of 'ED.-6 resi.n. ASSOCIATION., M(,-ik :---ticl, e y irv.-Utut khim@cheakogo ms b-inostroy n-1ya (Moscow 1--s @i -*,,i-'-Ie f or CheM4 _C@3LI Mac7airne Conij-ruct4 on) 1. Plastics--Optical properties 2. Plastics--Productiop 3. Plastics---Properties 4. Phthalic anhydride--Perforn-nee 0 a;.-3 V 2  50"), 15(8) AUTHORS; Shohegolevskaya, N. A., Sokolov, S.I. SOV/1 56- 59-2- 34/48 TITIZ: Some Peculiarities Concdridng't'h-e-'-Lne ics of tfte Process of Copolymerisation of Unsaturated Polyesters and vinylmonomers- Under Formation of a Three-dimensional Structure (Nekotoryye osobennosti kinetiki protsessa sonolimerizatsii nepredelInykh poliefirov i vinillnvkh monomeroy s obrazovaniyem prostranstvennoy struktury) PERIODICAL: Nauchnyye doklady vys8hey shkoly. Khimiya i khimicheskaya tekhnologiya, 1959, Nr 2, PP 350-353 (USSR) ABSTRACT: The reaction mentioned in the title has been invest-igated on diethyleneglycolpolyesters of the sebacin- and malein-acids and a mixture of styrene and methylmetacrylate. The dilatro- metric investigation showed that the reaction deyelops in an S shaped curve. The polymerisation process shows several phases. The first phase (smoothly rising curve,*)' can be understood as induction period. The concentration of the free radical is increasing. During the second stage, the cur7e takes a linear course - the concentration of the free radiGa7 re@ains cons@--nt. The reaction develops in an equilibrium state. From the Card 112 inclination of the straight portion, the activation energy is  Some Peculiarities Concerning the Kinetics of the SOV/156--59..2-34/48 Process of Copolymerisation of Unsaturated Polyesters and WinylLmonomers, Under Formation of a Three-dimensional Structure computed as 16,000 cal/mol. During the last phase the curve flattens out to an abscissa., A contraction of the volume occurs, the process slows down, not only through the consumption of the double compounds, but also through high viscosity and gel formation. There are 1 figure and 3 references, 1 of which is Soviet and 1 Hungarian. PRES30TED BY: Kafedra fizicheskoy khimii Moskovskogo institute, khimicheskogo mashinostroyeniya (Chair for Physical Chemistry Moscow Institute of Machine Buildizg for -the f,-hemieal Tndnstry) SUBMITTED: November 5, 1958 Card. 2/2  50,3) AUTHORS: Shchegolevskaya, N. A., Netrebko, V. P., SOV/153-2-2-26/31 Skoryy, I. A., Sokolov, S. I. TITLE: Polymer Materials for Models of the Polarization-optical Method of Examination of the Tension (Polimernyye materialy dlya modeley polyarizatsionno-opticheskogo metoda issledova- niya napryazheniy) PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Khimiya i khimiches- kaya tekhnologiya, 19599 Vol 2, Nr 29'pp 280-286 (LISSR) ABSTRACT: The demands made on the method mentioned in the title with regard to the materials used, have considerably increased because the tasks became more complicated and manifold. The present paper continues the authors' previous investigations in this direction. It concerns the examination-method mentioned in the title, of tensions on the basis of products of combined condensation and polymerization (Refs 2-4). The authors further developed the previously prepared ways of the variation of the structure and properties of materials and investigated some more possible and at present topical ways$ in order to obtain materials with various properties. Card 1/4 The optically-sensitive materials looked for, are based  Polymer Materials for Models of the Polarization- SOV/153-2-2-26/31 optical Method of Examination of the Tension upon products of common polymdYization of unsaturated poly- esters and monomerso..Apart from diethylene glycol,. sebacine, and maleic acid, 4bhthalic anhydride as well as terephthalic acid, tung-oil, linsied7oil, castor-oil# and caprolactam were used as initial chemical agents for the manufacture of poly- ester. Besides styrene and methylmethacry'late, acrylo-nitril also served as monomer. After an introduction, the expe.rimental part is subdivided into the following chapters: a) Examination of the influence of a-partial replacement of the sebacine-acid in the polyesters by phtalic anhydride, tereDhtelic acid,-and terephtbalic-dimethyles'ter; b) Examination of the influence of a partial replacement of the sebacine-acid in the polyesters by castor-, tung-, and linseed-oil (Fig 3)q as well as by a mixture of these oils; c) Examination of the influence of an addition of capro- lactam; d) Examination of the influence of tie replacement of part of the methyl-methacrylate and styrene by acrylo- nitryl. On the basis of the obtained resultsq the authors arrive at the following conclusions: 1) The task of Card 2/4 producing optically-sensitive materials according to the  Polymer Materials for Models of the Polarization- SOV/153-2-2-26/31 oplical Method of Examination of the Tension "freezing"-method (metod zamorazhivaniya) on a polyester basis, which are analogous to the material I'MIKhM-ImaSh", which however are distinguished by their optical-mechanical characteristics, was solved by varying the combination of the initial components, and the method of condensation- and'-polymerization-reaction, respectively. 2) Among a number of test samples, 'stiffer materials with an increased modulus of elasticity compared with IIMIKhM-ImaShII9 and less stiff-ones (with decreased modular values) lip to materials with signs of liquid state were produced 3@ The following can be used as structure-forming factors: a increase of phthalic acid contents in polyesters and b) increase of the content of polyesters in the mixture with monomers (styrene and methyl-methaerylate). The introduction of the two mentioned factors is specially effective for the modular increase. The optical sensitivity can be-iii6reased by raising the styrene contents in the monom6x --mixture. 4) The mentioned vegetable oils were used with positive results as fluxingagents which come into reaction with Card 3/4 other cosponents, of the "inner plastification").  Polymer Materials for Models of the Polarization- SOV/153-2-2-26/31 optical Method of Examination of the @ension 5) Caprolactam and acrylo-nitryl strongly accelerate the reaction of the common polymerization in the presence of benzoyl-peroxyde. The polymerization-process must, there- fore, be carried out at a lower initial temperature.. 6) The introduction of acrylo-nitryl at the expense of other monomers reduce *a the optical sensitivity of the finished product with a simultaneoua increase of the elasticity-modulus. There are 4 figures, 1 table, and 4 Soviet references. ASSOCIATION: Mo8kovskiy institut khimicheskogo mashinoEdroyeniya i Moskovskiy gosudarstvennyy universitet imeni'N. V. Lomono- sova; Kafedra fizicheskoy khimii i kafedra teorii uprugosti (Moscow Institute of Chemical Engineering and Moscow State University imeni M. V. Lomonosov; Chair 'of Physical- chemistry and Chair of SUBMITTED: May 6, 1958 Card 4/4  VOYUTSKIY, Sergey Sergeyevich, prof., doktor khim.nauk;-30KOLOY, S.I., doktor tekhn.nauk. retsenzent; RAZUKOVSKAYA, KIIA IN, M.T., tekhn.red. [Autohesion and adhesion of high polymers] Antogaziia i adgeziia vy2okopolimerov. Moskva, Izd-vo nauchno-tekhn.lit-ry RSFSR, 1960. 241 p. (MIRA 13:8) (Polymers) (Adhesion)  3 A -NAP IN 3 P jazz I Ao t4 Its. j, or 2:3 j Re 14 i - A -:23 V4 - -. Z u Vs P't .2 qlas INS-` VIIIA11"i g g TOG. - 4 4 -Sa -j N *u of .3 A A '@2 7 V 0  Pj 0 09680 AUTHORS: Shchegolevskaya, ff. A., Osokina, D. N., S/153/60/003/01/047/058 Gzovskiy, Y. V., Sokolov, S. I. BO11/BOO5 TITLE: Polymeric Materials With Different Physioomechanical Characteristics for Stress Investigations by the Optical Method PERIODICAL: Izvestiya vysshikh uchebnykh zavedeniy. Khimiya i khimicheskaya tekhnologiya, 1960, Vol 3, Nr 1, PP 172-175 (USSR) TEXT: The authors proved the possibility of producing photoelastic substances with high optical activity and a wide range of elasticity moduli (up to gel-like substances of the gelatin-jelly type). These substances are produced or@ the basis of copo@ymerB of unsaturated polyesters, of 2tyrene Wand of glyphthall5and epoxide resins."JThese materials had manifold, given physicomeohanical-iroD-ertiebig-riie authors paid special attention to the production of plastics with a viscosity (n) Of 1C14 _ 107 poise, an elasticity modulus E - 10- 1 - 101 kg/cm 2, and a high optical activity. Products of copolymerization of unsaturated esters and vinyl monomers have a reticular structure. Products with different optical and mechani- cal properties can be obtained by changing the number of chemical bonds between the molecules. For this purpose, saturated dicarboxylic acids (e.g. sebacic acid) are introduced besides unsaturated maleic acid, and the number of individual monomers (e.g. styrene) is varied. In contrast to previous papers, the authors investigELted polyesters obtained with the use of reduced amounts of maleic acid Card 1/4  69680 Polymeric Materials With Different Physicomechanical S/153/60/003/01/047/058 Characteristics for Stress Investigations by the B011/B005 Optical Meithod and an excess of diethylene glycol (according to Ref 3)- It was proven that the maximum amount of sebacic acid must not exceed that of maleic acid (1:1), or the Produot would become opaque. Benzoyl peroxide (0.1 - 1%) was added to the mixture. Polymerization was carried out at 20-400. The polyester - styrene ratio was varied between 2:1 and 500:1- Optically active substances with E = 0.2 - 20 kg/cm 2 and a coefficient of optical activity Bct = 100-1000 brewster (10-13 c2layi,) were obtained with styrene at a ratio of 3ebacic and maleic acid in polyesters of 2:1, and acid - diethylene-glycol of 2:3. Even at a polyester - styrene ratio of 1:500, they remained gelatinous. The figure (P 174) shows th 'at both the modulus E and the optical activity of the polymer considerably increase with increasing styrene content. Yodified glyphthal resins are condensation products of polyatomic alcohols (pentaerythrite, glycerin, diethylene glycol) with phthalic and maleic acid (Ref 4). They are called "gliftamal". They are suited for work at room temperature, having E - 50,000 kg/cm2 and B,, 36 brewster. Very trans- parent substances with 104 _ 107 poise, and B 2.103 brewater can be Card 2/4  6968o Polymeric Materials With Different Physicomechanical S/153/60/003/01/047/058 Charaoteristics for Stress Investigations by the B011/BO05 IK Optical Mathod SUBMITTED: April 10, 1959 Card 4/4  FELIDMATT, R.I.; SOKOLOV, S.I. State of aggregation of high molecular weight compounds. Part 6: Rupture characyeriatieB of anisotropic polycaprolactan films. Koll.zhur. 22 no.1:97-100 Ja-F 16o. (MIRA 13:6) 1. Moskovskiy institut khimicheskogo mashinostroyeniya i Moskovskiy oblastnoy pedagogicheskiy institut imeni N.K.Krupokoy. (Films (Cheinistry)) (Hexamethylenimine) (Polymers--Testing)  w 83659 ITIVIO C,@_ Ito 5 9/0) 6o/w6/ociq/oi4/01IS 801 5Y.058 AMORS: Sh.h. .1 ... kI 'L, __ L _T_S -I- - L.M. a , I I D., Tb Volt R-1 to for TITLZI Us. of I of the Type lWhod 11nJOI)ICALI U,od.k.y. I.b.t.torty., 1960.'Iol. 26, go. 9, p. 1149 TXL?: Lio optie.11y active mjnth4tit r-sla ... obtained by ..tvg the Cm.obo.L.v.kI%,m *Vo.j, rest. of the typo IR-r-CIM-2200 Ith Phtb.I_'I "hydrile as hardener. The rosin outio-4 diffqrs fro. tho mu-A usol epacy reline of the type 340 (YAO) sal )A6 (RD6) by having a low,r via- doolty. 404 4 b...c ... *as imst. h.Ing .... r%h.I... Ith anhydride. The Rattan anhydride (40 9) to 4,1404 " tbv *poly -mlm (100 c) blood 4. 120?C. the mass 1. ar.fully i.,d, p heated :04:t, and left 1. %be thermostat for 24 hr. at ;U."l- V@ to, 21 to 1209C.' The proporiles of the rosin *to tabuIxtid. That* I tsibl. anil 7 Soviet r.f ... nos. Card 1/2 9310CILTICII .110sk-skir inatitut "Lolobookoel .%ohiftostroy"nI14 11,w-hino Con.%-c-.jjn). T Uoh ItQt mmtallurgloh.sk.g. i-fttifig I .... r.-h o.tt t@t @f Se I . O.k.,Wj ly Mon.. state Card 2/2  SHORIN, S.N., dok-tor teklm. nauk, prof.p red.; SHCHEPKIN, S.I., zasl. deyatell nauki i tekhtiki, prof..* vtv. red.; LASTOVTSEV) A.M., prof. red.; KARAVAYEVI N.M., prof.0 red.; KOKOREV, D.T., prof., red.; PETROKAS, L.V., prof., red.; RESNCHIKOV, P.M., dots.p red.; SOKOLOV, S.R., prof.# red.;,_S0K0jg,_S I ', Drof.. red.; KHODZHAYEV, A.M., dots., red.; LFZEDEV,,,K.I.) kand, tokbn. naukp"dbts, red.; TAIROVA, A.L., red. izd- va; UVAROVA, A.F.,,tekhn. red. [Investigation ah4 calculation of heat engineering andpower generating processes] Issledovaniia i raschety teploenergeticheskikh i energo- khimicheskikh protsessov; sbornik statei. Pod red. S.N.Shorina. Mo- sk7a, Gos. nauchno-tekhn. izd-vo mashinostroit. lit-ry, 1961. 137 pe (MIRA 14:10) 1. Moscow. Institut khimicheskogo mashinostroyeniya. (Heat engineering) (Power engineering)  SHCHEGOL,VbI9,YA, N.A.; SOKOLOV, S.I. Materials for models used in the polarization-optical method for the measurement of stresses-i Plast.mas8y no.8:30-34 161. (MIRIi 14:7) (Plastics-Optical properties)  K I 1ES IN', G.L., kand.teki,n.nauk; Si.V'1_)'ST'Y,',17__1V, V.N., inzh,- SHCHEGOLEV6K@Yii, t JESN'1`1-i;IY, Yu.N., inzb.; FACV, Z.I@' r!oktor tpLh-n.nauk Lar,-e I.-locks of onticp'LJy acitve materi2ls !-rith unlikp modul-us for models simulatinf7 the optical',:@k polarization metl-od. 51-or. trud. MISI no.'35:114-123 Ir"l. (EdRA I 4:Q) 1. Moskovskiy in7benerno-stroitel'nyy institut im. V.V.Kuvtysheva (for Savost'yanov). 2. Yloskovskiy in.-titut kbimicbeFkoFo' mas@- inoFtroyeniva (for Sokolov). (Synthetic products) (Optics, Physi"11-  29983 5/069/61/023/006/005/005 B119/B1O1 AUTHORSt Fedoseyeva, Ye. G., Felldman, R. I., Sokolov. S.-I., TITLEs Interaction of polymers with plasticizers. 1. Preparation and properties of polyvinyl chloride pastes PERIODICALs Kolloidnyy zhurnal, v. 23, no. 6, 1961, 749 - 755 TEXT: The authors studied structure and phase composition of the pastes and to elaborate a basic process for their use. The pastes used for the investigation were prepared from powdery polyvinyl chloride (PVC) of the type Igelit-R, Igelit-F, -U-1 (PB-1), 116 -2 (PB-2), 79-3 (PB-3), 16-4 (PB-4)s, and esters of tb ,,@: phthalic, phosphoric, andsebacia acid as plasticizers with or witliout additioW-of fillers a'@@d pigments, r"espective- ly. Solutions of 2 - 5.75% PVC in plasticizers, as well as solutions of chlorinated PVC, polychloroprene, polystyrene, polymethacrylate, and nitrile rubber were used as dispersion agents. The pastes were prepared by mixing the components for 30 to 40 min and subsequent treatment in the color mill. Example of a composition in parts by weight% (PB-1) 37, lead silicate 69 dibutyl phthalate 15, tricresyl phosphate 20, dioctyl Card 1/3  SHAMRAYEVSKAYA, T.A., IZSNICHIY, Yu. N., SFCHEGOLEVSKAYA, N-A-, ,30KOIDV" S.I._ 'Itudy of the conditions for mutual compensation of the effects due -to positive and negative birefringence. Aeport presented at the 13th Conference on the high-molecular compounds Moscow, B-11 Oct 62  41h68 S/153/62/005/004/oo6/oo6 r fu E075/E436 AUTHORS: Shchegolevskaya, N.A., @V.Polukhin, P.I., Vorontsov, V.K. TITLE: On the polymeric coatings on metals for the study of plastic'deformations by the optical method ,PBRIODIC,%L: Izvestiya vysshikh uchebnylch zavedeniy. Khimiya i khimicheskay6 tekhgologiya, v-5,' no.4, 1962,.647-652 TSXT: A possibility was investikated*of obtaining optically sensitive layers, based on epoxy resins and polyesters, suitable for the investigation of sufficiently large plastic deformations of metals. It was found that the coatings:with different maximum deformations, optical sensitivity and adh *esiveness can be produced from epoxy resins and various polyesters of dibasic acids and glycols, polyesteracrylates and dibutylphthalate as plasticiz6rs. They could also be produced by changing the conditlons of curing, .both hot and cold curing processes being suitable. @ For hot curing, maleic and phthalic anhydrides are used as curing agents; for col-d curing, polyethylenepolyamines. A method of gradual heating was employed to produce the coatings without any residual Card 1/2  S'/069/62/024/002/007/OOB B110/B101 AUTEGRS: Fedose.ie-!a, Y;1. G., Felldman, R. I., Sokolov, S. I. TITLE: Interaction of polymers with plasticizers. 2. Gelatiniza- tion of oolyvinyl chloride pastes and the properties of the films obtained from them PERIODICAL: Kolloidnyy zhurnal, v. 24, no. 2, 1962, 230 - 235 TL.KT: The follo-,,,inr changes take place during the r@elatinization of PVC pastes (20-40 min, 140 - 18500: (1) the decrease in viscosity of the PVC suspension at 20 - 40 0C is caused 0by the decrease in viscosity of the dispersion m--@:--ium. Bet-.-jeen 40 and 90 C, viscosity of the system increases rapidly on account of its gradual pelatinization, and above 900C viscosity a.r:ain decre-zes -normally. (2) The chanee in the mecbanical rupture charac- tr-ristics denends on the gelatinization temperature and time; the condi-- tions of gelatinization depend on the composition of the paste. Films Made from pastes filled with chalk, titanium dioxide, barium titanate, talcum, magnesium oxide, and litharge showed lower tensile Droper- 0 0 ties and greater hardness. Addditional 30 (lays heat treatment at 110 C Card 1/3 Y.  Interaction of polymero ... B1 10/B101 -in-,reazed the tensile str(--n-th from -27 - 43 ke,,f/CM 2 to -47 -- @ffl kUf/CM2 chanp-ed the relative ruT)ture elongation, and lowered linear strain coeffi- cients. Study of the decomposition temperatiires sho-o;ed that lead COMDOUI-dS @)roved to be better stabilizers than compounds of other metals. (3) The cl-anCer, in the electrical characteristics of PVC films were determined ir.: (a) electrioal bulk resi.-;tivity (2000 v, direct readin@ compensation brid_re), (b) dielectric permeability and tanpent of dielectric loss angle (ScInerint"Z brid,-_e, 11000 v, 50 cps, 1 rrin), (c) disruptive strenpth kcylindrical electrode@s di.-,ped into tricresylphosphate, rate of voltage tncrease 1 kv/sec). The electrical characteristics depend on the quantita- tilic ratio of polymer to plasticizer, on the physical and chemical 7).-operties of the pl-.,sticizer and on the paste ingredients. Graphite auled increases the film conductivity, and the bulk resistivity amounts lo .10) ohm-Cm. A study of the dependence of the bulk resistivi"y on lthe coin,)onent ratio showed that the curves @ versus COMDOSition of the polymer y - ter L alate, PVC + fiioctyl- @s PVC + tricrcsylphosphate, PVC + dibutylphth phth.ilate coincide up to a Dlasticizer content of 45 - 5% by 141 The change in water absorption with temperature and time shows a C .rd  S/069/62/024/002/007/008 Intc!raction of pol,!.,mers ... B11O/B101 mnximium at 20 + 10C. The ufo:-6-iijentioned mechanical, electrical and other proyertic@z of PVC films show that blocks, films, etc., having important propertios f'or entrine,,:-rin- can be obtained by gelatini.?,ation. There lare 5 fixnlres an(i 3 taWcs. ASSMATION: Nauchno-issledovatel'skiy institut kabellnoy promyshlonno.9ti, llioskv-i k6cientific Research Institute of the Cable Industry, ',.oskovskiy oblastnoy pedagogicheskiy institut im. N. Y. Krupskoy (Moskovskaya oblast' Pedagogical Institute imeni DT. K. Krupskaya) SUB,v'11"TTED: October 20, 1960 Card 5/3  SOKOLOV.,.S.I.; SHAIRAYEVSKAYA, T,V.; SHCfEGOLEVSKAYA, N.A. Polymeric materials for the optical polarization method of stress determination. Part ls Polymerization products in a ternary system of vinyl monomers and methods for the study of their thermomechanical. properties. Vysokon.soed. 5 no.8:1250-1254 Ag 163. (MIRA 16:9) 1. Moskovskiy institut khimicheskogo mashinostroveniya. I(Vinyl compounds) (Polymerization) (Polarization (Light))  SHAMRAYEVSKAYA, T.V.; SOKOLOV, S.I. Polymeric materials used in the optical polarization metihod of stress determination. Part 3: Effect of various factors on the optical and mechanical properties of polymerization products in the ternary system of vinyl monomers. Vy8okom. soed. 5 no.12:1790-1794 D '63. (MrRA 17:1) 1. Moskovskiy institut khimicheskogo mashinostroyeniya.  AUNIORS: TITIZ; tRIODICAL: S/069/63/025/002/009/010@ A057/A126 Fedoseyeva, Ye.O., Felldman, R.I., Sokolov, S.I. On the polymer-plasticizer interaction- 3- Investigation of stabll- Ity factors and phase transitions in dispersions of polymer in plasticizers (pastes) Kollo'idnyy zhurnal, v. 25, no. 2, 1963, 247 252 TEXT: The present investigations were carried out, and the results pre- sented already at the Fifth All-Union Conference on Colloid Chemistry. Stabil-. ity factors and phase states of polymer dispersions in plasticizers are dis- cussed on the example of polyvinyl chloride dispersion in dibutyl phthalate which! is of interest as a two-component system. The preparation of pastes from these components indicates that a part of the polymer has a stabilizing effect. It was of interest to investigate the "lifetime" of such systems. The stability depends on the sedimentation, the particle size, and on the mutual dissolving (homogenization). The "lifetime" of dispersed systems depends on static and dynamic factors connected to the structure and properties of the polymer, the Card 1/2  S/069/63/025/002/009/011 no On the polymer-plasticizer interaction .... A057/A126 strue ture of globules bbtained by emulsion polymerization, as well as to phase relations and the ability of the polymer to remain for a longer time in a non- equ[L,".brated state. The process of paste gelatinization is a result of the dis- solving stability (homogenization) of the dispersion. The surface layer of globuLes might be considered as a barrier which prevents the destruction of the globule. Only an increase of temperature will destroy this barrier effecting a .1 subsec,uent quick dissolving. The process of paste gelatinization at elevated temperatures is discussed by the present authors as a complex of phenomena whi(h effects a total homogenization of the system and the formation of a high-elastic gel by means of a mutual diffusion of polymer and plasiiaizer. J'here are I fig ure and I table. ASSOCLITION: Nauchno-issledovatellskly institut kabellnoy promyshlennosti (Sc entific Research Institute of the Cable Industry); Moskovskiy ob- I last'noy pedagogicheskiy institut- im. M.K. Krupskoy (Moscow Re- gional Pedagogic Institute imeni M.K. Krup-doya); Moskovskiy insti- tut khimicheskogo mashinostroyeniya (Moscow Institute of Chemical Machinery Construction) SUN4ITIED: December 30, 1961 Card 2/2  L 12 1-63 .-~'-Er-R/EWP(j)/EPF(c)/EWT(I)/EWT(m)/BDS. AMC/ASD/SSD Ps-4/ Pc-4./Fr- 'd ACdESSION MR: AP3000523 S/0020/63/150/002/03'56/0358 1,10HOR: Shamrayevskaya, T. V.; Shchegolevsk2XS, N. Aj Sokolov, S. I . TITLE- Changing the sign of double refractioriin deformations in vitreous oOI ers SOURLE: AN SSSR. Doklady, v, 150, no. 2.. 1963, 356-358 iq TOPIC TAGS: birefringenco, double refraction, methyl methacrylate, styrene, benzyl nathacrylate A3'5TRACT! The study was made to explain the behavior of vitreous polymers with resDect to the influence of external factors and structural change when birefrineence (double refraction).sign crosses the zero value and changes. The effects 0 tim temperajure, load size and structure on IAAM (methyl methacrylate),@,ST 0(styrene) '4nd BRA. (benzyl methacrylate) as separate polymers and as a 1:1:1 coDolymer wa@T studied. The birefringence values were constant with time for the coo U the vitreous (150) and'highly elastic (800) state. The affecis of Un- 'on the optical coefficient were observed at transition temperature - from vitreous to elastic state (65*) or at a temperature w1here the coel'ficient changes sign (390). Loading at 3811 caused the coefficient to change Card  L 12!)81-63 ACCESSION NR: AP3000523 signs. The aforementioned external factors being constant, the magnitude of the optical coefficient is dependent on '..a polymer structure as shown in the phase diagrain of the-tripolymar system in Fig. 1. Orig. art. has: 4 figures. ASSOCIATION: 11oskovskiy institut.kh1micheskogo mash-inostroyaniYa (Moscow Lnstitute of Chemical Machine Building) SUDIMITIED: 24jar.63 DATE ACQ: 12Jun63 ENCL., 02 D CODE C11 NO IMF 80V* 004 OTMR: C03 Card  L 12419-63 EPR/EWP (i )/EP? (c)/E"(m)/BDS/ES (s)-2 AFFTC/ASD/SSD P"/Pe-4/ ADJAPIF AP300114-i3 S/0020/63/150/004/0859/0861 AUTEM. Shamrayevskaya, T, V.; Shchegolevsk2;@, N. A.; Sokolov, S. TITIX: Relationship between certain physical properties and the composition of polymerjzation products in a ternary system of vinyl monomers SOURCE: AN SSSA. Doklady, v. 150, no. 4, 1963, 859-861 TOPIC TAGS-. polymers, copolymers, methyl-metacrylate, styrene, benzyl metacry- late, photoelasticity, polymerization, thermomechanical properties, mechanical properties, optical properties, coefficients of elasticity AB.STRACT: Sim e olymers and coP0 era f methylmeta2Eyla ej at ene and pL @enz at were studied in connection with the preparation of po ymers yl metacrylAa i s haring properties eful for photoelasticity determinations. The ?ompounds were syathesized by inductive polymeriAation in the presence of benzoyl peroxide. Preliminary to polymerization, a tetrapolymer was obtained at 60-80C. Sub- sequently, polymerization was carried out by increasing the temperature stepwise to, 35, 45, 55, 80 and 100 degrees until the product lostotable properties. Solid samples 5 X 10 x 80 mm sup 3 were studied. Thermomechanical, mechanical and optical properties an well as the composition of the various polymers, Carj 1/2  L lZa9_63 ACCESSION NR: AP300W3 C@_ are-presented in a table. Thermomechanical curves were obtained on a Polani- type dynamometer. Vitrification temperature was obtained by extrapolation to zero stress. Linear coefficients of elasticity were determined by means of a straln gauge. Optical coefficients undqr stress were determined on a coor- din&te-synchronized polarimeter .9%This study indicates that it is possible to design series of materials witWITT6ired combination of mechanical and optLcal properties by varying the composition of copolymers in accordance with the data on the effect of single components in a multicomponent mixture of mono- mers. Orig, art. has: 4 figures and 1 table, ASSOCIATION: Moskovskiy institut khimicheskogo mashinostroyerdya (Moscow Institute of Chemical Machine BuildiAg) SUBMITTED: 24Jan63 DATE ACQ:. 01JU63 EOL: 00 SUE-CODE: 00 NO REF SOV: 001 OTHER: 000 Card 2/2  1, 37724-65 VPF (a) /Emp(j )/9WT(m) Pc-4/rr-4 qf AC-C-ESSIOU NR: AP4023501 S/0069/64/026/002/0258/02r,"- ,2 j i AUTHOR: Fedoseyeva, Ye. G." Feltdman, R. I.; Sokolov, S. 1. 24 TITLE: On the interaction of polymers with plasticizers. 4. Effect on rubber of, plaRticizers which migrate during contact with'plasticized eolyvin @chloride SOURCE: Kolloidnyy zhurnal, v. 26, no. 2i 1964, 258-262 TOPIC TAGS: rubber research, plasticizer, polymer swelling, electric property ABSTRACT: Mechanical and electrical properties and swelling were studied in vari- our rubber+ plasticizer systems. The.purpose of the study was to determine the ability of plasticizers to penetrate into rubber at 25 and"1450C,from polyvinyl- chloride layers in contact with rubber, as well as to eva luate the effect of A base TS-35 SK- -'asticizers on the properties of rubber. Butadiene 50,9rubber was p ti@sted. The following plasticizers were used: :dimethyl phthalate, droctyl hthalate, tricresyl phosphate, pentachlorodiphenyl, sebacic acid polyester, p 2,21,211- nitrile triethanol butyrate and shale oil. When the rubber specimens were swelled in plasticizers at 1450C for 1.5 hours and then kept at 250C for 24 b,ours, the plasticizers "bled out." This indicates that the plasticizers migrate ..From thepolvvinvIchloride into the rubber-mainly during vulcanization. Penta- Card 1/4  L 37724-65 F ACCE:'31SION -NR;---AP402350l------- chlo:vodiphenyl and shale oil were found to be the best plasticizers since they form@a stable single-phase system with rubber which shows no tendency to synere- sis.. These plasticizers also show the least susceptibility to "bleeding." Rub- ber dwelling was found to be more dependent on the limits of compatibility than on the coefficient of diffusion of the plasticizers. Changes in mechanical pro- pertj@es conform generally to the laws of molar and volume fractions rather than being determined by the weight content of the plasticizer. However the tensile properties of the rubber samples showed deviations from thegeneral laws after aging for several days at 1000C. Electrical measurements showed that the effect of the plasticizers on the resistivity and specific inductive capacitance of rub- depends on the degree of polarity of the plasticizing compounds. Orig. art, has: 3 tables and @ figures. ASSWIATION: Nauchno-issledovatellskiy institut kabellknov omyshlennosti (Scientific Research Institute of the'Cable Industry); Moskovskiy oblastnoy peda gogi(:heskiy institut im. N. K. Krupskoy (Hoscoir Regional Pedagogical Institute); Moskovskiy institut khimichesk.ogo mashinostroyeniya kHoscow Chemical Machine BuildingcInstitute) .........  ACCESSIcn n: Ap4o37179 B/OD69/&/0261003/0362/0366 AUMOR*. Fedoseyevas Yel G.; Fei'dmans R. r.; Sokolov" a. 1. TITIS: Interaction of polymer with plasticizer The adhesive properties of polyvivy1cbloride plasticatex and their effect an rubbers in contact vith tl- ;SOUECE: Kolloidny*y zhurnal.9 Y. 26 no- 3# 1964P 362-366 TOPIC TAGS: polymer plasticizer interaction,, polyvinylcbloride plasticate,, rubberv: resin, rubber vulcanization,, rubber thertmal PVC fJlm adhesion,,.polychlora- prene perchlorovinyl resin., nitrile rubber.. rubber modifyer P !ABSTRACT: In this series of stuclies the plasticizer was introduced into the @rubber at sim"Ing time or into the resin mix before vulcanization. Such systems may serve as modela, since under these conditions the resin cmes into contact not with. the pure plasticizer but vith plasticized polyvinyichlorlde (FVC) pastej fillpf etcolfrom which the plasticizer migrates into the resin. The composition of the PVC 1@,est pastes is tAgnLUted. In the present vork the influence of PVC pastes ate added vith other empounds (dibutylphthaate,, djoaW2j*tha3&t@ and tilm Card.  ACCEWICO NR: AP40n179 frWL -these materials on properties of the rubbers TS-35 and 6X-50 and the adhesive -iforce between the boundary materials vere studied. For the preparation of the specimen a 0-5 =2 PVC Pasta layer vas placed on top of the 2 mm thick resin llmixtvre, the entire mass vulcanized In foil and subjected to thermal aging. 7be I!two-layers vere then separated and the rubber tested for mechanical properties and Afic cubic resistance. The adhesion of paste to resin was detenained with a I spea dymmometer. The least amount of adhesion van found in pastes contai;WLng only PVCI 'and plasticizer., beat In those Vith PVC and perchlorovinyl resin or rubbers. Such fcowtact did not change tensile strength appreciably, aging at 100C took piace 'alz3st in the same way In the presence or in the absence of contact. The spec=c cubIc electrical resistance scz&Aat dimini hed In the presence of polar plasticl-'; zerG,:vhereas it increased during thermal aging of rubber in contact with polyvinyl- chloride plasticates containing polystyrene, polymethy1matacrylate and their mono- mers. The addition of modifiers to PVC pastes after vulcanization, had a favorable! ,effect on the adhesion to rubber of films formIn on gelation of the pastes. The :!best effect was produced by chlorinated polychloroprena, parchloroviAyl resiap .@polychlorqpxene and nitrile rubber. Orig. art. hes: 1 figure end 4 tablese %'I'ASSOCU=CK: lwL -issledovstallskiy institute kabellwy prmy*ahleanostA Hooky&; I-eci. 2/3   -ng a,,--. @.,se f -'a'; n the. 7--acz,ion 71, lie c s c 6-7.  NGRY,INA, R.S.; SOKOLOV? S.I.; SIIGIIEGOLEVSKAYA, N.A. o.. , " Pol:rmc r1c materials for the optical polarization method of determining stresses. Part 5., Terminal stages of copolymeri- zation in a bulk of unsaturated polyesters and vinyl moncMers. IZV. v-ys. ucheb. zav., khim. i khim. tekh, 7 no-5:839-841 164 (MIRA 18:1) 1. Kafedra fizicheskoy khimii Moskovskogo instituta khimi- cheskogo mashinostroyeniyao  NOWK-i N A, R. S. ; SC)Kk-')LC)V, 6: 1.; S,ChFGOl,EVz-: K A YA, N. A. Polyincirl,; matw-JuIr Wirl Ill'!I'llod IIV studying of stresses. Part 6: Study of pr.,adcal anti muchut -lical proportle., ulider tho addition pvore.;.", ,' I-olynerizati-On. LZIII.vy.,3. ucheb.zav.; khini.i khim.tekh. 7 no.6:91)7-1002 164. (MIR-A 1.8: 5) 1. Moskovskiy institut khimicheskogo mashinostroyenlya,kafedra fizicbeskoy khiniii.  L 41649-65 EPF(c)AwP(j)/EwT(m)/T Pc-4/Pr-4 RM ACCESSION NR: APS006380 S/0153/64/007/006/0997/1002' 33 AfUtHOR: 'Norkina, R. S.-, Sokolov, S. I.; Shchegolevskaya, N. A. 32- TITLE: Polymers for stress analysis by the optical polarization method VI. PAysical and mechanical properties under stepwise polymerization conditions SOURCE: IVUZ. Kbimilya. i khimichaskaya tekhnologiyd, v. 7, no, 6, 19,14, 997-1*002 TOPICTAGS: polymerization physical chemistry, stress analysis ABSTRACT: The success of the optical method of stress analysis depends to a aigni- ficant extent on the quality 5-f-t-Fe-materials which are being used. Material shrinkage during the formation proce:is Is theoretically important in the production of hig.4 quality materials, In this ai4icle the affect of tomperature;:,time params- ters during polymer#ation on the phy2ical and mechanical RroRertiesitf products, bas@ad on Dolvesters@and vinyl monomers is studied and the conditions for the. pro- du6tion of a chemically stable product are determined. Two types. of changes in the propeftie* of the system were investigated: irreversible changes associated with chemical processes and reversible changes of purely p hysical nature associated with the degree of deviation of the structure of the meterial from the equilibrium Card 1/3  L 41649-65 t ACCESSION HR: APS006380 structure. Stepwise polymerization was carried out by maintaini.ng the temperature of ?ol'Vmerization at some predetermined value for a definite period of time then ine-iva5ing the temperature to another value for a predetermined time Interval, etc, It was found that during structuring of the polymdr system Its physical and mechan- ical-PPODerties undergo significant changes in the vitreous state. reaciting a stable state after high temperature tre@atmint. Specific refraction Was taken as a. convenient parameter for monitor! 'ng the chemical process since it is Independent of the phys@cal, state of the substance. When cooling conditions are varied them Is a significant change in the specific volume and volume refraction, which is a func- tion of the refractive index at constant specific refraction. The structuring pro- cessea@ are marked by an increase in the modulus of elasticity both chemically taross-Unking) and physically (when the temperature is lowered) and are accompanied, by an increase in the optical coefficient within the vitreficaticn region. Orig. Qrz. has: 5 tables and 2 figures. ASSOCIATION: Kafedra fizicheskoy,khimli Mdskovsk@go instLtuta khImLchesk.9go q Department, Moscow Institute of Chemical rrachiinostroyeniya (Physical Chemistr Machine Building) Card 2/3   111 00987-66 qPT .ACCESSION NR: AP5020233 uR/oo6q/65/O27/O04/o6lq 0623 541.64 !AUTHOR: Fel'dman, R. I-.; Sokolov, S. I. Stat TITLE: P4;gregation es-of macromolecular compounds. 10. Polytetrafluoroetbylene SOURCE: Kolloidnyy zhurnal, v. 27, no. 4, 1965, 619-623 TOPIC TAGS: polytetrafluoroethylene, aggregate state@ crystallinity, linear- expansion coefficient, thermal dependence ABSTRACT: In view of the known temperature transitions in the crystalline and ag- .e states of polytetrafluoroethvlege (PTFE), the temperature dependence of the ,gregat coefficient of linear thermal exDansio of this polymer was studied in detail. This study is important from both the theoretical point for supplying n-@w data for colloidal chemistry and for the theory of aggregate states of polymers, and from the purely practical point of using this polymer for technical purposes. The coefficient of linear thermal expansion a was plotted against temperatures; readings were taken at each degree centigrade up to 300C. The rate of the temperature increase or de@ crease (in the reversed cycles) was 3-5 min j?eF degree centigrade. Some experiments lasted 52 -days. Measurements were made by a dynamometer serving as dilatometer. The Card  L 00967-6 61 ACCESSIOU NR: AP5020233 method wan previously described by the authors. It was found that the smoothness of, Imthe curve a vs to was disrupted by several abrupt transitions: at 19-21, approx- imately 313 and 250-260C. The transition at 19-21C is considerable and should be t@ en into account as a cause of shrinkage in the industrial use of PTFE as a t erial for devices, gaskets, packings, and parts. Orig. art. has: 2 figures. [BN] ISSOCIATION: Moskovskiy oblastnoy pedagogicheskiy @mstitut im. N. X. Krupskoy Moscow Oblast Pedagogical Institute); Moskovskiy institut khimicheskogo mashino-; 6stroyenTra kMoscow Institute of Chemical Machine Building) SUBMITTKD: 19Feb64 ENCL: 00 SUB CODE: OC, GC@ NO REF SOY:-.010- OTHER: W ATD PRESS: 4068 ..Card  DOLGIN, 1,111,; so-ELL) L. N I I-I III. ? A Revievs. T @@ ',5. @@4 1 IC711 210) k. - ig I  -Qy@aw-)v 5 S.i. ltati@z cf agg.-,@gatlcr. ci@ high-.L--d't--:c,.La-- -.e-2:gh'u Fa-@t it); Koll. zh,ir. 619-6,23 jl-Agg '65. 1 a-L -ir dagogicheskly 4risi-itut inieni N,.K, PICISIKOVSkly ArAqSt, Dy P@- . , . I- - @rupf:,-u@y i 1-110.-@,kovskly institut kh.--'mjchp--E'h(,pu rre:3h i nos  VFD'ERNIKOVA., N.F.; SOKOWV9 S.I.; FELIDMAN, R.I.; SHCHEGOIEVSKAYA, N.A. Interaction of polymers with plasticizers. Part 7: Thermo- optical characteristics of the action of plasticizers on polymethyl metharcylate. Koll. zhur. 27 no.6:806-809 N-D 165. (MIRA 18:12) 1. Moskovskiy institut khimicheskogo mashinostroyeniya i Moskovskiy oblastnoy pedagogicheskiy institut imeni U,K. Krupskiy. Submitted June 26, 1964.  "DER' I - , U " NiKOVA, IN.F.; SOFOLOV, S.,I.i FELIUMAN, H.I.; Sfi@',HEGOLFEVSK@YA, N.A. T-teract-on o' Far-, Hffe-,@ Cf C, I @-ne r n C :Z C- p I as tici zero en def orma 1--i --a of .?late. Rol-l.zhur. 27 no.3@326-33'30 M-7-Je 165. (NITF,_A 16!1--) @4titiit kh-micheqlcco-o maoehinos-,royeniva i 1. fllonkovskiy 4-h . .3. LI Moskovskly oblast-Ijoy pedaffo@:icheskjy insl.itut imeni Krupskoy. Qubmi'zed Dec. 28Y i96,3.  "'-'P' j,'T Lipt C A6C_Azt-,_-_M'6016545 SOMCE CODE: W66-6�-/6~/-o-~7-[6-6-6/o8o6/68o--g- AUTHORI Vedernikova, N. F. ;__Lokqlqv.* S. I.; Fel'dman, R. I.; Shchegolevskayaj, N. A, ORGS Moscow Institute of Chemical (Hoskovskii ob]:astnoy' (Moskovskiy institut khimicheskogo achnic Institute im. N. K. Krupska _n _Z_ @_, I - @ TITIES Interaction of polymers with plasticizers. Part 7. Thermooptical character- istics of the effect of plasticizerajon polnLth I SOURCES Kolloidnyy zhurnal, v. 27, no. 6, 196_5. W-gog TOPIC TAGSS plasticizer# polymethylmethaerylate, double refractiong phosphate ester ABSTRACT: In order to clarify the specificity of the optical effect of plasticiza- tion, the simultaneous influence of plasticizers and teq)erature on the birefringence of binary systems composed of a polymer and a low-molecular plasticizer was investi- gated. Thermooptical measurements were made in the two systems polymetbyl metha- crylate (PIOW-dibutyl phosphate (DBP) and PMAL-tricresyl. phosphate (TCP). The curve representing the temperature dependence of the optical birefringence coefficient CIr of polymethyl methacrylate (see Fig. i and 2) in shifted by the presence of the DIaStILCizer in the direction of the temperature axis toward lower values* in con- @ormity with the mole fraction rulev and in the direction of the Ct axis toward viore acs _rAi.64s.535..5%  L 34417-66 --AC6 NR: A C, 75L ZO ;'0 50 AO I&V t. le Fig.. i. Temperature dependence of 3" pMicized with TCPS I -5 - + TCP, N2 equal to 0.014, 0,03o, o.o62 and 0-113 resj)ectively. U es -A so-- -15 -J'b -7JII I ZO ia Aw &V Mv f,I Fig. 2. Temperature dependence of Cc of PMA Plasticized with DEN I - P)2U- 2-5 - PMA + ERP, N2 equal to 0.0119 0,0389 0*056 and 0-097 respectively. 4% /,@*  T, 34417-66 A-C NR: Ap6bio54@- positivo values. Me shift along the Cj axis depends on the composition and structw of the plasticizer molecules. It is concluded that the influence of the plasticizerl introduced into PMMA is dual in naturet in some respectst it is related.to a change in the etate of aggregation of the polymer upon addition of the plasticizery and is governed by known general rules established by studying the mechanical propertiesl in other respects, the plasticizer affects the optical propertlesl@7according to its individual characteristicswhich depend on the composition 1-n-d-Structurs of Its molecules. Orig. art. hast 3 figures- SUBCODEe 07/ SUBMD.ATEI 26jun(4/ ORIGREFI 004/ OTHREFS 001  L j6jFI.-,-fik EWT(m)/EWP(j)/T IJP(c) RM/M 014265 AUTHOR: Shamrayevskaya, T. V.; Sokolov, S. 1. ORG: Flaysical Chemistry De-oartme ibscow Znstitute or Chem:@eal -Xachillor,,- jmethod of strAss datermina- TIME: Cn polymer ma arization ,@erials'of the oDtical Del tion. Part 2:-ZQgXQj*,echanical and mechanical -oropertles of polymerizaLion prouuuvo @n a @arnary system of vinyl monomers SOURCE; IVUZ. Khimiya i khimicheskaya tekhnologiya, V& 9, no, ly 1966, 117-120 TOPIC TAGS: thermomechanical property, solid mechanical property, vinyl plastic$ styrene, methylmothacrylate, methacrylate --S lymerization products ,,,, ELMk: The thermomechanical and mechanical properties of po in the ternary system of vinyl monomers methyl methaerylatel, styrene, and benzyl methac:rjlate were studied. The results were systematized by means of methods of physicochGmical analysis involving the plotting of "composition vs. property" dia- .grams, i-.,hich also made it possible to predict the properties of polymers of other co,nmositions. The diagraris showad'thai in the system'studip@, the monomers producing rigrid ioolymers (having high glass points and elastic modUIJ12E) chanore their t)ron r- ties undor the influence of a second component (internal plasticization effe@t). The properties of the copolymers are classified, and it is shown that seven basio types Card I UDC: 6?8.?1  ACC NR AP6037030 SOURCE CODE.-" UR/0069/66/028/006/0888/0893 AUTHOR: Felldman, R. I.; Fedoseyeva, Ye. G.; Sokolov, S. I. ORG: Moscow Oblast Pedagogical Institute im. N. X. Krupskaya (Moskovskiy oblastnoy pedagogicheskiy institut); Scientific Research Institute of the Cable Industry (Nauchno-issledovatellskiy institut kabellnoy promyshlennosti); Moscow Institute of Chemical Machinery (Moskovskiy institut khimicheskogo mashino- jitroyeniya) TITLE: Properties of filled polymers.Part 2. Combined effect of fillers and softeners on properties of polyisobutylene SOURCE- Kolloidnyy zhurnal, v. 28, no. 6, 1966, 888-893 TOPIC TAGS: polymer, . I I - 7 polyrher physical chemistry, filler, polyisobutylene, molecular weight, tensile strength, hardness, plasticity, ,i5l R-5-rtCl Ty ABSTRACT: The results are presented of investigation on the combined effect of fillers and softeners on the properties of polyisobutylene with average molecular weights of 200 000, 150 000, and 100 000 estimated according to tensile streneth residual and elongation at rupture hardness, elasticity at 70 and 130C, and Card 1/ 2 -UDC: 541. 182:539. 412  ACC NR: AP6037030 compressive strain. The dependence of tensile strength and (rupture and residual) elongation on the quality of the softener for a system composed of polyisobutylene, lamp black and mineral wax, passes through the maximum, while the values of hardness and plasticity both at 70 and 130C increased. ''The results obtained may b"e explained by the complex effect of softeners -on the properti es of a filled polymer. For systems composed of polymer, softeners, @Lnd fillers,^ complete additivity of the properties was observed on the plots of filler composition property diagram with respect to tensile strength, plasticity, and rupture and residual eloncration, when the filler quantity in the compounds does not exceed the optimum value. Orig. art. has: 4 figures.. [Based on authors' abstract] SUBCODE: 11/SUBMDATE.-26Aug65/ORIGREF: 008/ Card2 if 2 L@_  AT700:1097 SOURCE CODE: UR/0000/66/000/000/0110/0120 AUTHOR. Sokolov, S. I.; Shchegolevskaya, N. A. ORL: none TITLE: Investigation in polymer materials field for contemporary trends in the optical liethod SOI'I-',Cl-'- Vnesoylizilaya konferentniyn po I)ol.viirizttt-.Liiotino-optielicti'~tomLi ricuod" issledovaniya napryazheniy. 5th Leningrad, 1964. Polyarizatsionno-opticheskiy nictod issledovaniya napryazhen.Ly (Polarizing-optical method of investigating stres- ses); trudy konferentsii. Leningrad, Izd-vo Leningr. univ., 1966, 110-120 TO?IC TAGS: photoelasticity, refractory coating, composite material, polymer n pysicaJ. chemistry ABSTM%CT: Different new optically active polymer materials whose properties were synthesized from vinyl monomers such as methyl methacrylate, styrene, and benzene -methacrylate are described. The strAin-optical coefficient, its variation with temnerature and tim@, and dependence of its magnitude and sign on the relative quantity of these monomers are given. The authors also treat materials based on polyester and vinyl monomers whose strain-optical coefficients have zero value for a wide range of proportions of additives such as methyl methacrylate and styrene. 1/:! -J  SOKOLOV) S@I. Unsolved oroblem concerning the mechanical analysils of soils. Izv. AN Kazakh. SSR. Ser. biol. nauk no.2'-5" 55 '63. (MIRA 17:10)  SOKOLOV, S.T. Methodological comments an aerological materials collected during the International Geophysical Year and the year of the International Geopbrical Cooperation. Trudy AANII 266a 163-164 164 (MIU 18:1)  SOKOWV, S. I. Automatic device for cooldng masBecuites. Sakh.prom. 34 no.10:31-35 0 160. (MMA 13:10) ' 1. Ilauchno-issledovateliskiy institut prodovol'stvennogo mashinostro- yeniya. (Moscow--Sugar machinery) (Automatic control)  ;30KOLCYV.1 S.I.., inzh. Device for automatic control of the boiliiig, of refined sugar massecuites. Mi3kh.i avtom.proizv. 16 no.)+:33-34 Ap 162. WIRA 15:4) (Sugar manufacture) (Automatic control)  PASTNSKIT, Anatoliy Germanovich; RZBINM,.PwA.. akedemikv ratoenzent; SOKOLOV, S.I., prof., retsenzent; KARGIN, V.A., akademik, red.; LUKITAITOV, A.B., red.; LIPKINA, T.G., red.izd-va; GGROKHOVA, S.S., tekhn.red. (Colloid chemistryj Kolloidnaia khimiia. Pod red. Y.A.Kar- gins. Moskva, Gos.izd-vo 'Vysahaia ahkola," 1959. 264 p. (KM 13:2) (Colloids)  ZAYDRS, Asya Lazarevna, doktor khim.nauk; �9" 14, prof., retsenzent; MINAYETA, T.K.@, red.; KNA IN, M.T--tekhn,r-eda (Structure of collagen and changes associated with proceissing] Strukture kollagena i as immeneniia pri obrabotkakh. Moskva, Izd-vo nauchno-tekhn.lit-ry RSFSR, 1960. 261 p. (MIRA 14:4) (Collagen)  \,-- @()Kowvq SOL Microscopy ai prq4ip"r'ved feces. Lab. delo 7 no.1:31-32 Ja '61. (MIU 14: 1) 1. Oze'rakaya sanitarno-opidemiologicheskaya stantai7a, Moskovskaya oblast'. (FECES-ANALYSIS)  SOKOLOV, S.I.; USnIISKAYA, Ye.V. Preserving workin.- dilutions of agglutination sera with carbolic acid. Ieb.delo 3 no.5:27-28 S-0 157- (MIRA 11:2) 1. Iz laborstorii Sochinskoy gorodskoy sanitarno-epidemiologicheskoy stantBii (glavnyy v"ch A.G.Mikheyeva) (Baum) (GARBOLIG AGID) Abs Jour : Author : Sokolov, S. 1. Uspenskaya, E. V. Inst : Not -gi-verf- Title : Preservation of Operating Dilutions of Agglutinating Sera by Phenol. orig Pub : Labor. delo, 1957, No 5, 27-28 Abstract : ljo abstract. Card 1/1 14  4., retsenzent; SOKOLOVA, V jUSIESSYNY, K. G. ; S09019", Ya., redaktor; KEDVEDIMIUMMUKO, L.Ya.. tekhnicheskiy redaktor [Design and maintenance of warp winding machines in the cotton industry] Ustrolstvo i obsluzhivants oanovomotallmrkh mashin khlop- chatobuma2hnop,o proizvodetva. lzd. 2-e ispr. Moskva, Goa. nauchno- tekhn. izd-vo Ministerstva promyshlenn3rkh tovarov shirokogo potre- bleniia SSSR, 1954. 107 P. (MLRA 8:4) (Cotton machinery)  ARMSHAMO. Z.T.; SOKOLOV. S.1, On the growth of t'he leaf blade of some tree species. Bot. Zhur. 37, No.5, 61c-628 152. (KMA 5: 10) (Biol.A 28 no-3:6866 134)  Illay lgy,7 re Tetanus, i.@., ..,,Lnity "The ChartEas of the Reactivity of the Central Nervous System in Active and 11assive Tniii,,unization Au..ainst Tetanus," K. 1. MaLveyev, S. K. 5(kolov, 4 Pp IIL.'y-dl Eksp Biol 1 "ed" Vol XXIII, No 6 Detailed discuL;jion of' results of experiment- with r4bbits, expiainin.,, rhe therapeutic effect of injectinE,,- large do5es of ser= into the blocd or a muscle. PA 14T 13  SOKOLOV, S. K. UThe Instruction Plan on the Production, Control, and Distribution of Antit- etanus Serum" (Proceedings of Inst. Epidem and Microbiol im. Gam3leya 1954-56. Personnel Identified as Particip3nts in Sessions of the Scientific Council Held by the institutue During 1954. Inst. Epidem and Microbiol im. Gamleya AMB USSR SO: Sum 1186, 11 Jon 57. GIVULrX9 VyM)CHIKOV G.V-; A. SIX0 6@, 1 for preventing tOtaaus in lea on various methode. ive methods of prophYlaxis- Comparative stud passive and act 56. (MLEA 10:1) nonvaccinated. subJects' un. 27 no.12:77-83 D I Zhur.mikrobiol. epid. i imm i mikrobiolOgii iment N.F.Gamalei Instituta epide2iOlc-"" 1. 1, AgN 555R. , 9,.,vention an& controls (TITANUS ive methods (Rus)) acti 0 & pass  M-Sa / !-,I@crob*ioloCqy. Microbes Pathogenic for I:Ian and F Animals. Bacteria. Anaerobic Bacilli. AI)s Jour : Ref Zhur - Biologiya, No 6, 1959, No. 24088 Author : Kolosnikova, M. Kh.; Sokolov, S. K. I I is t : 11-7:0t givan Titlo : Utilization of tho Floccul@ttlon Reaction for Study of Certain Properties of Tetanus Antigens and Titration of Anti-Tetanic Sera. Report II. Utilization of the Flocculation Reaction for Titration of Anti-Tetanic Sera Orig Pub : Zh. mikrobiol., opidemiol. i immunobiol., 1958, Ho 5, 44-49 Abstract : Report IL, see RZhBiol., 1958, 90952 k' KOLESKIKOVA, I-f.1Q1.-"SOK010V, S.K. Modified flocculation reaction in the investigation of certain nroperties of tetnaus antigens and in the titration of antitetanus sera. Report No.1,; Use of the flocculation reaction in the investigation of tetanus antigens. Zhur.mikrobioLeT)id. i immun. 29 no-1:92-96 Mr '58. NIRA 11:4) 1. Iz Instituta epidemiologii i mikrobiologii imeai Gnmalei AMU SSSR. (TETANUS, immunology, antigen, flocculation reaction (Rug)  YOLESNIKOVA. M.Kh. SOKOLOV. S K Use of the flocculation reaction in studying certain -DroDerties of tetanus antigens and in the titration of antitetanus sera* Report No.2: Use of the flocculation reaction in the titration of aTititetanus sera. Zhur.mikrobiol.epid. i immun. 29 no-5:44-49 NY 158 (MM 11:6) 1. Iz Instituta epidemiologii i mikrobiologii imeni Gamalei AMN SSSR. (TWANUS. immunology immune sera, flocculntion reaction in titration (Rus))  GVEIMOVA, P.A.; SOKOLOV, S.K. Response to D.F. PletsityL. Zhur. mikrobiol., epid. i inx=n. 33 no.11:97-100 N 162. (14IRA 17:1)  EMS, M.M.; BRUK, YU.G.; YUNISOVA, S.A.; SOKOLOV, S.L. Investigatf-ang an industrial-test furnace for nonoxidative heating in the Leningrad Metallurgical Plant named for the 22d Congress of the C.P.S.U. Trudy VNIIT no.13:109-120 164. 04IRA 18:2)  SOKOLOV, S.M. -, ::@ -" - - -*, Intensifying the cloth washing process. Teekt.prom. 14 no.9: 38-39 S 154. (MUU 7; 11 ) 1. Glarnyy makhanik otbel-Ino-krasillnoy fabriki Glukhovskogo khlopchatobumazhnogo kombinata. (Textile finishiug)  SOV/1 3 7- 59-3 - 7084 Translation from: Referativnyy zhurnal. Metallurgiya, 11959, Nr 3, p 307 (USSR) ATJTHOR: Sokolov, S. M. TITLE: Industrial Method for Plating Quality Control (Promyshlennyy metod kontrolya kachestva pokrytiy) PERIODICAL: Sb- Korn-t po korrozii i zashchite metallov Vses. sov, nauchno- tekhn. o-v, 1958, Nr 3, pp 34-38 ABSTRACT: The author describes a rapid method for corrosion testing of the electroplating on electronic and radio equipment under the following conditions: In a salty fog (3% NaCl) in a TVK-type heat - and- moisture charnber in cycles of: 88 (sic!) hours at 350C and 100% relative humidity (RH), 8 hours at 250 and 100% RH, and 8 hours at 350 and 97-95% RH; a parallel exposure in a sea-fog chamber with sea fog created by atomizing the following solution (in g/liter): Na.G_1 27. MgGI 6, KCI 1, and CaCl? I, for 2 hours every 6 hours. Standards are aiduced for corrosion resistance expressed in hours in relation to the thickness and state of the surface of steel plated with Zn, Cd, Cu-Ni, and Cu-Ni-Cr and of brass with Ni and Cr. Card 1/1 1. N.  S/081/61/000/021/040/094 B101/B147 AUTHOR: Sokolov, S. M. TITLE: Galvanic and chemical coatings for protecting parts of machines and apparatus against atmospheric corrosion PERIODICAL: Referativnyy zhurnal. Khimiya, no. 21, 1961, 257, abstract 211140 (Sb. "Zashchita izdeliy ot vozdeystviya tropich. klimata", L., 1959, 27 - 42) TEXT: A survey on the resistance of various metals and alloys to atmospheric corrosion is presented. Recommendations are made for their protection by galvanic and chemical coatings. CANstracter's note: Complete translation Caj-d 1/1  KRAVCHENKO, V.I., land. tekhn.nauk; SOKOWV, S.M.. gorrqy insh. Preventing air bumps in the "loonin" mine. ugoll ukr. 4 no.4:27-2-9 Ap l6o. (MM 13:8) (Mining engineering) (Subsidences(larth afkaments))  S`XOLOV, S.M., AVR&MENXO, B.T. Conveying mchinery for coal haulage in the nY.I. LeninR mine. Ugol' 35 no-5:12-13 My 160. (MIRA 13-7) 1..Glavnyy inzhener shakhty im. V.I. Lenina tresta Nesvetayan- tratsit (for Sokolov). 2. Inzhener po orgenizataii rabot na shakhte im. V.I. Lenina. tresta Nesvetayantratsit-(for Avramemko). -@n @- o eta Basin-Kine haulage) P" (Conveying machinery)  SOKOLOV, S. M. Cand Tech Sci - (diss) " Effective parameters of system of exzloit- atiDn in the perforcance of mechanized complexes under conditions of the Moscow Area Basin." Tula, 1961. 16 pp; (Inst of Mining Affairs imeni A. A. Skochinskiy); 225 copies; price not given; (KL, 10-61 sup, 210.)  " I SOKOWTIV Q.M., iiizh. Efficient length of longwalls In new technological layouts for mining coal in Moscow Basin mines. Nauch. trudy Tul gor. inst. no.4:61-82 161. iMIRk 16:8) (Moscow Basin-Coal mines and mining)  TIKHO?IIH3V, Ye-H., masl.dayat.nauki i tekhniki RSFSR, professor. redaktor; PONOqt'JM. S.D.. doktor tekbnicbeskikb nauk, professor. redaktori SOKOLOY.,S.R..: doktor, tekbnicheskikh nmi . professor, rsdaktorj TAWKS@@. LD., doktor tekhnichoskikh nauk, professor. redaktori 'UMSFIIN, VA.. kandidat takhnicheskikh nwi , redaktor; POPOTA, S.M., tekhnichaskiy redaktor. [Computing strength, hardness, stability and vibration; collected articles] Rashchaty na prochnost' zheatkont', ustoichivoett i kole- haniia; sbornik statel. Koskva,Gos. nauchno-tekhn.izd-vo mashino- stroitellnol lit-ry, 1955. 290 P. (MLEA 8:9) 1. Moscow. StankoinstrumentallWy institut. (Strength of materials)  I- -,-I - - @' U I @@ 0 L- Vr) - -'@ - 1 14(10) PHASE I BOOK Oa3LOITATION SOV/1377 Raschety na prochnost 1; teoreticheskiye i eksperimental Inyye Issledovaniya prochnosti. mashinostroitelInykh konstruktsiy. Sbornik statey, vYP. 3. (Calculations for Strength; Theoretical and Experimental Research on the Strength of Elements Used in Machine Construction. Collection of Articles, Vol. 3) Moscow, Mashgiz, 1958. 355 P. 4,000 copies printed. Ed..: Tarabanov, N.D., Doctor of Technical Sciences; Editorial Board: Tikhomirov, Ye.N., Honored Worker of the RSFSR in Science and Technology, Professor (Chairman); Serensen, S.V., Active Member, Ukrainian SSIR AcadftW of Sciences, Doctor of Technical Sciences, Professor; Gluahkov, G.S., Doctor of Technical Sciences, Professor; Ponomarev, S.D., Doctor of Technical Sciences, Professor; Sokolov, S.N., Doctor of Technical Sciences, Professor; Tarabasov,N.D., Doctor of Technical Sciences, Professor; and Makushin, V.M., Candidate of Tech- nical Sciences, Docent (Secretary); Tech. Ed.: Tikhanov, A.Ya.; Managing Ed. for Literature on General Technical and Transport Machine Building (Mashgiz): Ponomareval K.A., Engineer. Card 1/5  Calculations for Strength (Cont.) SOV/1377 PURPOSE: This collection of articles is intended for engineers and designers %Torking in the field of machine construction, for research fellovs, and acientific workers. COVIMAGE: The collection is an inter-vuz publication of transcations concerming istrength problems. It contains original reports on calculations for a number of structures used in machine building and their components. Considerations itre given to calculations of the columns of hydrm-LUe presses, the nonlinear theory of spiral springs, problems in the calculation of rubber components, theoretical and experimental investigations of circular plates of constant end variable stiffness, investigations of conical shells and of stressed , ezsemblies of machine components. Calculations in'the elasto-plastic domain are represented by an investigation of forced fits of discs and the creep of operating turbine blades. Problems of contact in the case of impact and the stability theory of elastic systems Tin general terms" ar e considered. There are 114 references, 99 of which are Soviet, 9 English, 4 German, 1 French, I Poli sh. Cara 2/ 5  Calculations for Strength (Cont.) SOV/1377 TABL1',- OF CONTENTS: PART I. STRESS ANAL![SIS AND RIGIDITY IN TIM ELASTIC DOMAIN Blinnik, S.I., Candidate of Technical Sciences, Docent. General Method of Stress Analysis for Columns of Hydraulic Presses 3 Cherayshev, N.A., Candidate of Technical Sciences, Docent. Nonlinear Theory of Elastic Deformation of Gy)incL-rical Spiral Springs 19 Bide:man, V.L.J, Candidate of Technical Sciences. Problems in the Calculation of Rubber Components 40 -@@Iov' S.N., Doctor of Technical Sciences, Professor. Stress Analysis of GFr-cular and Annular Plates of Constant and Variable Stiffness 88 Protazov,, G.Ye., Engineer. Experimental Investigation of Circular Plates Reinforced With a Stiffening Rib 122 Card 3./5  Calmtlations for StrenlKth (Cont.) SOV/1377 Makhoninap T.M., Engineer. Analysis of Forced Fits of Discs Beyond the Elastic Limit 237 Malinin, N.W., Doctor of Technical Sciences, Docent. Analysis of the Creep of Operating Turbine Blades 252 PART III. DyFAMIC CAIMJIATIONS AND CALCULATIONS FOR STABILITY Tikhomirov, Ye.N., Honored Scientific and Technical Worker of the Russian Socialist Federated Soviet Republic., Professor. Contact During Impact 287 Makudhin, V.M., Docent. Values of the Critical Forces for Compressed Triple-span Beans of Constant Cross Section 295 Bolotim, V.V., Doctor of Technical Sciences. Professor. Nonlinear Theory of Elasticity and Stability "in aeneral Terms" (v bollshom) 310 AVAILkBLE: Library of Congress Card 5/5 ISIMas 4-13-59  SOKOLOV, 6.11.,dolctor tekhn.nauk, prof'. Determinin- breaking pressures for pipes (theory of heavy de- fornationsY. Rasch.na prochn. no.-0:18-@-212 158. (MIR& 12:2) (Pipe) --- (Strength of materials)