SCIENTIFIC ABSTRACT FELDMAN, N.KH. - FELDMAN, S.B.

qfi~R/Cbemlstrr - syntbetic Pharm- sesv 1: ceuticals "Synthesis of Aminosulf ides and Aminosulfones. X1. SyntheEis of 1,1,1-Trichloro.-2-Hydroxy- Mane-(n-Nitrophenyl)-Sulfide, Its Acetcxy Dorivative, and Sulfoxide," N. Kh. Felldman, T. T- Ourevich, A3.1-Union Chemicophar last imeni Ord,zhomikidze "Inur cfbsbch KhW vol xxi, No 9, py 1656-1659 CoWensatlon of chloral with u-nitropbenylzer- ~.&ytan yielded product. of vtddn of 1 g-mole of chloral. to 1 g-wole of mercaptan, .(without sepu of F20). In acetic anhydride medium. acetylation of 191T46 PSISR/Chemlstry - Synthetic Pharma-. Sep 31 ceuticals (Contd) (K group also occurred. Nonacetylated product's sol was decompd'uponi attem Pts at acetylation or ~addatiou. Acetylated product was oxidized to '~~Bpon&jng sulfoxide. Both condensation *oducts were decoupd by heating or actionof j SOJUS. 191T46  YlLINAN, N.L., insh.; UJTOVOT, Ye.A., inzh. Direct water pumping at the "Novo-Tgontrallnara" mine of the Stalinshakhtontroi Trust. Shakht.stroi. 4 no.2:24-26 F 160. (MIRA 13:5) 1. Trost Stalinshakhtostroy. (luznetalt Basin--Kine draiWo) 2  FELIDMAN N- L.,inzh.; CHILIK3, I.M., inzh. Efficient work organization layout for mining inclined workings of considerable length. Shakht.stroi. 6 no.2:23-24 F 62. 1(MIU l5t2) 1. Gornoprokhodcheskoye upravleniye No.13 tresta Donetskshakhtustroye (Coal mines and mining)  FELIDMANO IT.L.,, inzh,; CHILIKIN, A.M.,, inzh. Reinforcing junctions and workings of large sections with arch- type pliable supports. Shakht. stroi. 7 no-4:27 Ap '63. (MIRA .16:3) 1. Stroitellw uchastok No.13 tresta Donetakshakhtostroys  FELIDMANO N. L, OComparative Toxicity for CelIm of Diffund aW GramLbw Dyes,," Dokl. AN SSSR., 59, No.5., 1948 Lab, CyUlogy and Iab. Histology,, Irat, Exptl. Mod., AMS  FELIDYAN,q No Le "Problem of the Diffused Coloring of .a Coll by Certain Baaic Vital Dyes.' D*I. AN SSSRs 590 No.62 1948 Lab, Cytology and Lab. Hi6tology,, Inst, IVU. Ned, j AM  oilw - Coll Oct 48 - Ploents I~Mw Role of Coacerwation in Depositing Granules of IA916 Vital PigRente in a Cell)" N. L. Felldman,,Lab of Histolo Inst of lxperlmental i4ed, Acad )bd Sol.' USM, 3 ~/4 pp ftDok Ak Nauk sm" voi Lin, No 6 Experiments vith horse serum denatured by -beating, VhIch is incapable of coacervating pigments, prove& that coacervation of pigment in native cells occurred dwlng, denaturation. This explains the inability of lzkjureiL cells to granulate ginee the- native albumen M /ILCVM7 '1~"&Icine Can (Coutd) is produced only- In living cells. A. Orbell 9 Aug 48. Oct 48' Submittedby  :::.7 1 :-~~ -, - - -1 .2433-9. 1% L. 0 rasprodelonil 0sT10vl-*l-ll v Tnid,,/ Al-ad. naW~ 333R, T. 111, 10-10, S. 16-190 30! lotopis, No. 32, 1949.  T kit md *air binding by and N. L. PO'domp'. pokWy .4k4j. ef. C.A. 43. I()7,3,r.- threshold OF wjwtmty of frog M&Wle after the "Wingot Cloctirrot by myWq by difft,44m be of The free dye into XvIstia from its mist, with the protein, it according to 111mmom (C.A. 43. 107.31) shop"I a Clow tiftlemot bitliver" the 2 pro .pertles. In I1h.CIj series taiticity declines frwri onjobochito green to Crystal let amil further to turk6l". whk-h em"povo.ts to the vin-loinding power. In Otmeltoe 41ye Stourv, the (WAI Site Now hv.lrA%qhk%Wc, folkivird by the mill.,jr. lott"I by 4rrr%A Note. Its atitir Ivrs thr mitt i- T41"Itift Wkitt"111. SAICA41191W. mutral red. whit# the Iloksit" see arvan"It northylor" little. 149"finor blue. and Ito the umiloormot merks the ardcor is: tri"Mitte. Pyre- tolne. limlarahme; the latter romigul. J4 itiverlAtortAl ill IhAj with lowtu inookity It 14 the in" rvwldy motmortrd toemb" u( the wrlc%~ ~Tbv blailing by proteins I,& " limict,% too inytooin. tout Worm mit"Itarty with tot gkibodto stut "S macin. Ckworalty. Inemoor of roe, at Ph rm)" l"Mit" too.k.1ty I~Ul proxcin binding. 6. 1611. K"AAPOR  so 4"Osuradva, tas t"Ir cascervatift with 6%I MOM& allicuum In Im It O.In AXIZ~Iil. (pit 64--0) ::-05 =.is ... wk ji.. NtM - - SID190) for technique) '. I% Ioll~adsig .=.'s'tudy denaturation factorsi. t 0 gave reversible coalruistion in the cold, Irreversible I "CO I at roM temp. OW the ~ ! no cowervation with the d,.. even on later n. 0=. at 0* cowervetion Is - restored an adds. of HoO to the pptd. mtem. liestinf COUS" kw of coaceirration at W-M' and UNWIT at 00 the charecter of the ppt. changes- sn"nMim albumin t~ dr seem 70 &1 6xtfb the soln. revsain~ c ar pl~61_7). 7.;:8o it Sbowl greater therms hl &b y Ultrav~F stability. Ultraviolet lit rapidly stops coamirration at t~ rootatemp.oratV. Una. In denaturbstiproceirm. binders M solos. cosoerystion craws Punible idpificance in the c CCU d-T is discussed. M. Kosotspoff T.  FICL'DKAN, N.L. Caux"s of.depression of granaloprecipitation of dyes in injury of calls* Doklady Akad. nauk SSSR 89 no. 2:345-346 11 Mar 1953. (OLML 24:1) 1e Presented by Acadeniolm A, I, Oparin 15 January 1953,  Ar ALIKSANMO7, V.1k.; MIDWO N.L. SttAying the increase In the resistance of cells as a reaction to high temperatures [with summary in Uglish). 33bt. shur, 43 no,2t 194-213 7 158. (MIU 110) 1- Botenicheekly institut In. T.% Komrova Akademii nank SSSR I i;etitut taitologii, Akgemii naik 382, laninMd. (Flantse Iffect of temperature on)  LYUTOVAR M.I.j FELIDWY N.L. Investigating the ability of temperature adaptation in name marine algae, TBitologiia 2,no.W99-709 N-D 160. WHI 13:12) le Botanichookiy institut AN SSSR i Institut tsitologii. Afl SWAV Leningrad. (ALGAE) (PLAWS Kn?= OF TPMMLTURIC ON)  FELIDMAN., N.L. Influence of sugars on the cell resistance of some higher plants to heating and high hydrostatic pressu:re. Tsitologiia 4 no.6.-633-.643 R-DI62 (MIM 17:3) 1. Botanicheakiy institut AN SSSR i Insti-tut taitologii AN SSM,, LeningracL  FELIDMAN, N.L.; LYUTOVAp M.I. Investigation of the thermostabi1ity of eel-Is of some sea grasses. Bot.zhur. 41 rio.4t542-546 Ap 162. (MM 15:8) 1, Inatitut tsitologii AN SSSR i Botanioheakiy institut imeni Komarova AN SSSR., Leningrad. (Seaweed) (Plants, Effect of temperature on)  FELDMAN, No L..and KAMENTSEVA,, 1. To. "Heat Resistance and Cold Resistance of Calls of a Leaf of Yellow Star-of-Bathlehem at Different Phases of Developnentom pp* 76 Institute of Cytology of the Academy of Sciences USSR, Botanical Institute imeni V. L. Komarov of the AcadenW of Sciences USSR jI Nauchnays Konferentstya Institologii 04 555H. Tezisy 1)ok1jqdOv (Sooond 5sientific Conference of the Institute of CytoloV of thn AcadAm-v of Seleir-ee u&%il, Abstracts of Reports), Leningrad, 1962, .88 pp. JPRS 20,63h  FELIEMANX-N,-L.; KAKEIMEVA, I. Ye. 'Beat and front rest stance of leaf cells of the yellow star-of Bethlebem, at different stagn of development. Bot. zhur. /*8 no.3'.414-419 Mr 163. (MIRA 16:4) 1, Institut tgitologii IN SSSR i Botanicheekiy institut imeni Vs L, Komarova AN SSSRO Leningrad. (Plants, Effect of temperature on) (Yellow star-of-Bothlehem) T"  FE IANL_ N. L.._ "Heat hardeiing undernatural and experimental conditions-" Un= - InternatIonal PYIDPOSi'm on the Role of COU R4.6tious in A&ptatims of Metazoa to Faviromeftal Temperature. leninmdo USSRO 31 NOY - 5 June .1963  TROSHIN.A.S.P otv. red.; ARRONFT,N.I.,, red.; BMER,T.V., red.; Z11I&W1SKIY,A.V., red.; KUSAKIUA,A.A.p red.; PHO~=R, K.L., red.; IDZINA-LOZINSKIY,L.K.9 red.; POLYAIISKIY, Yu.I., red.; SUKHANOVA,K.M., red.; USHAKOV,B.P.,, red.; FELIDMAN)N.L.p red,j ALEKSANDROV, V.Ya., red, www*"L~~~ (cell and the temperature of the medium; transactions) Kletka i temperatura sredy; trudy. Moskva, Nauka, 1964. 303 p. (MIRA 16:1) 1. International Symposium on Cytoecology, Leningrad, 1963. 2. Institut tsitologii AN SSSR, Leningrad (for Troshin, Arronet). 3. Laboratoriya koemicheskoy biologii Institute, tsitologii AN SSSR, Leningrad (for Lozina-Lozinskiy).4. La- boratoriya tsitofiziologii i tsitoekologii Botanichskogo in- stituta im. V.L.Komarova AN SSSR, Leningrad (for Aleksandrov). 5. Laboratoriya sravnitellnoy tsitologil Instituta tsitologii AN SSSR, Leningrad (for Zhirmunskiy,, Kusakina, Ushakov). 6. Laboratoriya tsitologii odnokletochnykh organizmov Instituta tsitologii AN SSSRj Leningrad (for Sukhanova). 7. Botaniche- skiy institut imeni V.L.Komarova AN SSSR, Leningrad (for Arronet).  ZAVADSKAYAO I.G.; FELIDIMAN, N,L,,- KAME21TSEVAi I.Ya. ,Carbohydrate content and cold resistance in the aells of higher plants. DoIcl. AN SSSR 157 no-4095-JW1 Ag 164 (KIRA 17:8) 1. Botanicbeskiy institut im. V.T,. Kamarova AN SSS)R i Institut tsitologli AN SSSR. Predat-avleno akaJcmtkon N.M. Slaakyanomo  BEBKOP V.G., inzh.; MEL'ITICHENKO, G.I., inzh.-.; FELIDMO, N.M., inzh. Protection of 10 kv. rural electric power distribution lines fiom single-phase short-circuits to ground using a search method. Energ. i elektrotekh. prom. no.3:10-11 JI-S 164. OMM 17:11)  FALIDMAN, N.S., insh. ----~7~heWZ benobing rachine. Stroi.mat. 5 no.8:30 Ag 159o (MIR& 12:12) (Azerbaijani-Qtwries and qqW710;~rN~ij*ent and supplies)  BrROT, Aerre; SMMYAIWSXIT. Ta.I. [translator]; VOLKOV, A.V., redaktor-, FELIDW, 0.1., redaktor; MONOT, A.P., tekhaichookiy redaktor [Portugal; regional geography study] Fortugalita; raionno-geografl- oheskii ocherk. Sokr. pereyod a frantsusekogo IA.I.Serebrianskogo. Pod red. i so vatup. statlel A.T.Volkova, Hoskva, Izd-vo inostran- noi lit-ry, 1952. 175 P. [Microfilm] (MLRA 7910) (Portugal-Geograpby) (Geography-Portugal)  r M FT3 L-1%. Is FMM&N, T.We. SAPGIR, L.M. [tram latorl; OBMGA, R.R.Etran3latorl; XMIA, V*3., redaktor; PARCHEVSKIT. 0,1., redaktor; IGNLTIYZV. G.M., re- daktor; YZLIDMAN, 0.1., redaktor; GLUSIMOT, To.S., tekhnichaskir radaktor. [Ireland; physical and economic geograpby. Abridged translation from the English 'uy L.K.Sapgir and R.R.Obergal Irlandiia; fizichaskLia i ekonomichaskaia geograftia. Sokre perevod a angliiskogo L.K.Sapgir i R.R.Obarga. Red.i vstupq statlia V.E.Kuninole Moskva, Izd-vo Inostran- noi lit-ry, 1952. 399 P, (HIBA 8:4) (Ireland-ftysical. geography) (Irelant-Economic geograph7) -s7  I f IT R. KNOGOLIM, H-1. [translator]; KYCUKOVA. G.V. (tranalAtor]o YCRAL - 0. 1.. radaktorl IOVtIVA, N.A., tekhnicheskiy redaktor - [The crisis in U.S. agriculttLre and the condition of the farmer; a collection of articles. Translated from the Baglish] XrIzIs sellakogo khosiaistya SShA i poloshenia farmerov; sbornik viaterialov. Pereyod N.I.Khogolet I G.YoKychakovole Kooky&, Izd-vo inostrannoi lit-ry~ X955, 209 po (KLRA 9:9) (United States-Agrioulturs)  HANZNIXA, Jirij ZIIKUND, Miroslav; YBZHOV, V.D. (translator]; POTIUUN, I.N., redaktor; RUBINSWEYN, G.I., redaktor; YZLIDMAN, 0.1., redaktor; NIKHMOVA, A.N., takhaicheskiy redaktor (Africa of dreams and of reality. Translated from the Czech] AfrUm graz i deistvitallonosti. Perevod a chashekogo V.D.3%hova. Red. I.I. Potakhina. Moskva. Izd-vo inoetrannot lit-ry, 1956. 277 p. (HLRA,. 9-12) (Africa--Description and travel)  -.-=TIFI v HAMLX&, Jiri; ZWWND, Miroslav; ROZOVA, B.I. [translator); POTXXHIN, I.I.1, reduktor; RUBINSMYN, O.I.g rodaktor; 71142ALL 0.1., redaktor; NIKIY AaAO., takhnichaskiy redaktor [Africa of dream and of realitys'Translatea from the Czech) Afrike grez L deistyltellnosti. Pereyod a chosbakogo S.I.Rozovoi, Xoskyas Izd-vo imostrannot lit-ry. Vol.2, 1956. 314 po (MLRA 10:3) (Africa--Deacription and travel) I  TAN-KIM-XHUON; Dzuwyxv, Tu.r. (translatorl; FELIDHAN, 0.1., red.; KHOKYAKOV, A.D., takhn.red. [Geography of Cambodia] Geograftia Kambodshi. Moskva, Izd-vo, inostr.lit-ry, 1959. 93 P. (Translated from the french) - (MIRA 12:11) (Cambodia-Geogra-phy)  BLAZHEKI Miroalav (Blazek Miroslav); AVDEICHBVp L.A. [translator]; RO- ZOVAYAq S.I. (tranolator]; RUBINHT&Nq G.I. (translator]; MIWOYZ, I.M.,, red.; PIMVAROV, Yu.L., red.I_FRLIIVM, 0.1., red.; IOURVAO N.A.9 tekhn. red. [&onomic geograpby of Cwhoolovakia. Translated frm the Czechoslovakian] MconomicheskaU geografila Chikhoslovakii. Votup. statlia i red. I.M.Maergoiza. Moskva, zd-vo inostr. lit-ry, 1960. 76 p, ' (MIRA 1435) tGeechoslovakia-Ecotomic geography)  -u- 1.. 5-1 -iniskiv, ~i. F.j - Felld.-an, 0. S. "On the relALion of the ndntral composition of osseous and demal tisNue to the protrin content of the food ration," Trudv Kazansk. Fps. stomatiol. in-ta Issue 2, 1949, P. 31-37 SG: U-5240, 17 Dec. 53, (Letopis lZhurnal lnykh State,., No. 25, 1949).  M, USSR/Electronics Rarlio receivers Card t 1/1 Pub. 8~ 14/24 Authors t Pumpyanaky, V. and Feldman, P. Title "Belarus' 5311 Perlodical Radio 61 29 339 June 1954 Abstract i The new 14-tube superheterodyne receiver "Belarus' 5311Y manufactur.ed by the Minsk -Radio Factory under the ma4ement of the Ministry of the .Bielorussian Fuel Industry, is described in detail. The "Belarus" 5Y is a classl receiver operating on.long-, medium-, and short-wave bands. The main parameters of the receiver are: Nominal output power-4 wt; 135 wt (from an AC line). The amplifier's medium-frequency band-pass can be varied, in stages, between 5 and 12 kilocycles. Illustrations, showing the general view of.the receiver, the high-grequency capacitor group, and the receiver circuit diagram, four illustrations in all.. are sho,,rm. Al- so four tables giving data on coil windings. Institution Submitted  USSR/ Electronics Radio equipment Card 1/1 Pub- 89 - 13/30 AuthIor# I Pumpyanskiy, V., Fel fdman, P. Title The "Kinsk R-7-55" combined phonograph and radio receiver Periodical I Radio 3,, 22 - 24j# mar 1955 Abstraot I A technical description is given of the "Xinsk'R-7-5511 combined phono- graph and radio receiver, in which provisions are made for the possibility of using an attachment in the form of a motoOless magnetic-tape recorder for recording radio broadcasts, playing phonograph records, or recording by means of a microphone amd reproducing what is recorded. Detailed specifications are given of circuits, technical parts and construction. Illustrations; diagrams; table. Institution : Submitted : 'A;  11 is w is a 00. 00 A 000 ,3 001 00 104 so 0 I, w 0 36 a v is 0 u a ate #A IN POOCISSIS AND P100111111 oil - 1. % 3.4 to ~c M Aw a (knas -00 d 70D-Im x Q$ noris now Wa 80 s . f"doffiths"o at IwUc 4cid TIm Woe tATI m Tj$ d h . Was t e fittr W" 0 to % an ' .00 %W-qudky awwtmut cantalmd 240-M X pawah w a yow-bouris ntk .1 1:3 a mcde at ai-lispid a If.-i til" k coo 600 goo coo goo ,40 ASN.SL& "JALLUASK4L intiAlust C&AUIPICAt" woo 5100 ,Soo U S A, 'A A I a ed 0 a I N N 9 a a 3 0 i-T. a Ole 0 0 0 0 0 0 0 0 0.0 6 log.  0 0 foe 00 Ain-ILA KTAUVROC&L unvAlwl CLAIWICAIM sum vi"ONAT" --- . I GROW9 .8 $Sadao "4P 0.9 sag 14"W b u AV 10 AS ; a i a i i i & )L ; 0 o e o o &.0 o 0 o 0 0: 0:0 0 0100 .T-,.$ :I - 0 Aij 0 0-6 0 a moo t4L- wolfiv -61&Ajl 4wK am a I I I r 0 0 0 0 0 6 0 6 0 4 a a too too Wei  -'%-4c swain &%.a It oft Its TFA III tn:m 11211 0-0 "Ita"I OWN """&Own ma"Am wmwmuw 9 Is S 9 1 v I as's e see MP" (M-mm"W" p " Poe a" M 9OP31W. IM. 0 086 g" Palms"" 00 00 a Fur p 00 a a*  " lioOvervo 0 V~ w We lti fee e 0t, _ - l , A A f L At Lit 111-M-0.41 A-.A _t -A- , A 1;~f 4 A I - 0 . s a POC CIIIII AND 04001014S . Of go A! A I Y so Tile, fising of water by COW11, n4 threcat-lasa*d : so leather. It. 1. Fri'dman" I'towy 3104"r. I'AAM44 00 last. Ulkoof Prow. its. L. M. KatanorsfAkj 1941, Nm '21, 7 1 f hk 00 ot-1 7.-The purpose o t invesli tiont was to study 1 the wwritia mul beat of h dratinsto tottl it diff t t4 000 er- o m y ol y l tauned l th r Soul of cot at( of hrovol w W W d go e- ea e a c ra e or p diff l i f d l h i H O Th i d -00 00 at er o oo o eat am n pure e er ng per . I was lobtaksed fronts a dry *sited bid* by the w" snaking, .410, 111411 . %out tanning operation%. timing, purring. nom"Wal .00 x l The raw lokirIvato abe city %a led. then soaked, and limorol ' O o o j for 10, 20, or 30 days at 18-211 . Test somplet, weir cut O S 09,3 I 11 from rump, %hwMei. and belly are" of gralts Wilts. Tbo 200 7 protein. ash. and lot micnis are tabulated. Tile quwk4 o0 0 ' : ' tity of IIM abvxW toy tbe catingru increased witit tbd ti f timi In the kath r th the I d i c 0 41, 0 43 o mas o e mens pe ng. e spec 0 loow parts of the hide (bellyl swelled most; and [how from the drw~ parts (rump) swelled least. Thr diff"- coo 0:4 ent" (around 1411%) were co".1,trut from the lint day of 1iff b th 30 Th S e 4 the test on. etween e nutoc. ( erencIt days age, 00 timing) aml the noin. (unlimed) swelling of callagra was Tis r ncein sw lli diff b t li th d x or e e e e ween e un me ng coo and the tanned bide was 30%. The cond, of The lltO in which the tainnst! spedmorns vie v swelled increased with see v: I flonot. h h h ti f Il O I M i no* at t e c s cluslest t orm, rs ndependent d ng o s h i h Ti bi i olb a 4i le c em ned t e prov cass cbem, treatment. cally oxot g 11.0 was practically the same for all Jilt sprOwns studied Us* (27 parto, of 11,0 per 1114) partsol dry nuottet). 00 L A AttALLURGOC&A, o.411441441: CLAIWK411CO use -jj'Wfjb- - - __.- '_ - - " ~'-' L._~' )a*. ! 0., Got vii-li-limi. ~Sftft%v A I b U Is AV 00 LI; ' - ' j ;-AAA Is ?WO N alwai*430 is IF its w 0 to At 09 0 0 0 o a e o o o o 0 0 0 0 01 0 0 0 0 0 0 0 0 6 0 0 0 0 0 0 0 0 0 ::0001000660960660000 go 9090*9660666606060  MTPTIW;'z~""! N't-T ,I. m. f )I$?, I 116IIIII)Wt'i 14 It 0 to of a AS 36 31 16 v A )ss 1 a it R 0 W a Is tr a 1. a 4, 41 U 0 Z_ a -&-JL. L-A-1- a - Al r A I-I ~M_T' L-I-A No DC 10 U ft. i #.~I. A A. - J_ Is' A.. IIKO COq(Rt 4 'woo 004 go, i-00 Dispersion of collapn and its tanding products In ansorph,'u. intstrf"v"M4. It ti C."Whuled the c-antraoidurn mahation. R. 1. Fri'ditian WIJ $- I- "IC"t and SlAn, III 04141M at%[ Ot itt UaMiaf I m"Okiv (Robot Kalethry rhirtAVot J'K61"lnof Klihnii Co-NI10 NAIIV. at mint Isruill, fewlin) 1840( only In di"Wr. 1,10skov. -relthisol. Init. fx%k#A Ugk4ya Prow. Sm"s (alsollAt to that taking ptact is, jrasning trutin 8, IN-191 IL43).-The olijtct of the eslits. ants to from collogm), Le. breaking upof pniypsrltti~k Chmint at 0 tain Cu-NII. molea. of crilliagen and Its tanning produrvo, pWats W wmisda" 10)"415 asth the IWvWv3Iam2 UI a Ctim. to stp. its disiltershm proIluct,s. to study their propenits, Wtmblr knsth 4 the chain. but idws its the dem- rux-tion 1-00 and to muparst thrul with ph". chem. properties of gsrb-til the ehtin.. 00 tin. Cu-Nils solos. diiiiasived collapti, leather (tauvxd but hLe true Ans. Fisivrefetrtic". W. It. Ilessin with Cf. quehfacho, of C140). AM gelistla at room temp. 00 ateir "-A bra. AcidWation sif the sole. and Pa. 00 of the Cu-Nif, cum "41411 __pkx resulted In the forlastion of art .4; aniorphtrus ppt. 'no Was. and plitt. obtained were ** .3 ! :09 00 0 studkil by the v method and by %-toys. The soIns. pm. stated a Ism "Utive it, (bey did not gd. *oil their temp '700 coeff. vies low. The relative It of Cu-INII, Isaias. of 2.7* zoo go '3 coUsM and tanned products at 200 mied from LN goo 00- (tanned with qusdrmho ext.) (a IOW (tanned with forassilin), wbermas that of 1% Sciatin Dole. In water at the I mme temp. wast 1.9810. The I of all Cu-Nits mains. at a mace. of I.W% and at 25 LAW 33' differed very little from tbat of pum Cu-NH* solims. - An appeux. Rom telatina between the relative q and the temp. wea observed. The distract of Hag ptupenift In even 6% low. am the in- 1-00 a t I ='tcoducts to forte musicbmakally stmg 414tr of IC 800 films adket else t the prOdUCU last their ebaracteriss- X-mystudie" pptd. products &Z of Pal 1000 tj - cor"lids VdIrappearom of cryst. Intarfaleam clierse- tristice of collam and gelatin wid the appearance of A 14. It A 011AMs CKAL 1,1191111TWIt CLAIIWKAfICN 14- - ago ti. lase 114,14119. -_i- lv~ -0, ** it $4111,140.1 .41 two '114 iiiiss aw '. a.- 49, it IS AW so -NIL valmo welffm 5 Am 0 3 0 All; I', it* to 'a, R'S' R-ii alf-Ana, IM dew. lip 0 Goo :I* *a 0 0 0000 000 0 06 0 0 0 0 0 lo 0o9 0 001  0 0 : : : 0*0000*00000 0 0 Ce O'e 010 Al 4 0 0 0 -o-A 0 0 * * At 0 * 0 0 1419~1411u'isti is 0 '~ " - .2 2" 1 1 V , !:, j A L 1 Obarxii all ulls Mill ISO X M 41 it W a a 0.20 AA a 14 it I I 4 . - '4~4. Ale 1 6. so A( uwmmnt of 116 inviectris PWM "A o: 4114*11 isdutild is SOWIM MA Pistils by Unbent Witkafka. J-qlloya At Prdia 3 6 10-22(190) - fruess, from uw mid- No 0 0 t . . . , the of an industrially prepd. Xwm divided ista 4 gr Is I was washird with water and deiluml Gwuu ,,,r W Groups It III Wild IV were weali td k h t 0 00 8,7 - - l . ep . ingis"JMconig. 12.3g. Cooper 1.01111010t 10.21 asul *00 3044P.MP., then washeii with IIA) delitned with load apifi isadiod. Cha"" in i;~'. Point of cQuag"t were &W. by dets. the ellivuvounnic welix ty as affeani 00 by the pit of the Medium and by dots. this, min. amt. of Siselling of Cousgien In buier saw. at "tims pit valurs. Ato oi 71w horlec. point of VkUn was deid. bythe min. viscosity qP* it geldlin at TWW- Pit vahm Med by the mai. turbitlity tin sol at various . it al es Th t f M o* v ti e exten o . p MI Ef th f b h lk ll . e Alleu strLiCture e a a y t trest-ts Conagm prWcvd by treatment with alkali rowsta -i was detd. by the lor amirding toiht radual deumboa of thircross b-ods whwb bAs t0grit'" =for 490 7 4 0 0 g Bemuse" ikvU ti as tktd. by the puly"Ide chains, this p"kess lititrat" rilAr grou,% I'll - swelling and by ehic fev arm for p 15 43 KA t k hif f h i h 1 00 .s . ., . soc " e c. I e s t o t that am respon" for t and 6,46. If 4.90 and S.M. 1114,73 and 43). M.Mand pn)tfwtkm of platin (nmn o4tagen is c~inudefrd a ctut- 4 M. fox-lec. points of gelatin dctd. by viscosity and by linu&jilm by the therItLal action at the diwuptsw pnw*~-- turbidity, rtsp., weir from I 4X3 and 4.34,11 4.24 hJul jui(iatd by the alkali 1"Stment. ThtfC10" the I'oruv 4.21, fit 4. 10 and 4.09, IV 2.94 wW 3.90. The trwil % point of CrIatin is lower than that of The Cilium fitit" Mt UP vapor absurptim indicate that the longer the bkb it is deritred. Formation of Nits and amines tin alkali treatment the wore the cullAgen struLture is looderittl treatment of evilagra vrith alkali at~n rmtributes to the R too and the more vapor Is slowbed. The chew. changes it, shift Of the 1,0el, c. point. 11~b too too 406-ILA 011AL LUPSKAL Lill A& IM (LASWKAVIC* to 0 t t %o ' u S A -T- , '0 1-i 1 9 0 M to fill KA %W Kan ICN u It As 1 3 1 MLOA lift ISO 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 41 0 0 6 0 0 0 0 0 0 0 0 0 t 0 0 0 Al 0  0 o* 0 0 9 0 0 00 04111's 0*410 4 1 of if Q it it1 $6 4 " a 0 C 11, A-A-1. -11 It or 1 11 -1 "V a cc 0 91 A #I A $-A 1: 121 0'0 A 10 t Too -00 :60 91 so Its tioducts of tasaing Sclatin Lixiih, 96 jL),4 .00 t%6' No. d. .. -111 the Aluily 44 IIW UW.'40 It XCNS as It diMITCP"t. it WOA Amwis that the mstulgill 44 the 168*1 Posallott% t4 viotiomw toluming 11141~-141(- is dolid. by ftneetkon d kC.NS with gelatin pos. with thir tASUM=S4 'The infitwism Rif KC.NS us. if, W. 1,y lual 14 -J he thqwtvivin Rid the 1)1,t, and climm. 1 . km in wt. cA thor pfits. tm im, filter. I-'rt,4tlv 11,iJ, woo hoctii arv partly diaperml by KCS.Smin.. tsct-Sit Ou". 2 1-m-Phic, with Cr #Wtft 44 4f)" bas' ' Y. DFOO PP14. ate %$"I. Z** y nVXV MA11k. KC-NS= h-.,d 11W th. 0 0 Orramord by two factom. thkicening and coottrim tkmi. Syn. $04 1 W sc lanabill Roputs witbDut ~Ulfcglir &6l P"Up. "r 1.1 be too d4owd with stalev" sivisix 11tv 11m;,1 .141-le pf'.14WI.. I woo Crm4l*yfr6d wtil-tanned &Ial-k ths-mi- i--t see lormaittl limn tvatiartitm tvn wrilisio. (%k4.uj pr..J. goo urts ykW toonsivif amtersW which cofittut with,jAst.1 Ifir Goo Rat-tion 4 KCN'S Fmalus. Tisr iroft. iore explailkIl -.4t the INLA% Of in1Vfnk4. 116194" Rd Wnflinjg ILKrni% In-l%svis the 11411111 ptolvin unit.. G. M. K -,OUlkoff x ISO* If LWASICA1, L"ISAIWI CLAISAMPKAIIIIII WOO Sam SIT-911W. Ot $moomi) -#IF cot 049 TA I a OW 0 IN 9 ;-6 - I I I a, ; 91 lit It 0 U s &1 10 0 v It 00 000 es 0 0 0 000 0 6 0 * 0 0 0000 01 6 00 ~11: is 0 0 - - - - - - - - - - - - - a 0 111 0 0  Nfi;:ttanlifimi italoll 'a Llauilckroi an the c A$ACAI proplifulois old R.~ h 9f 1:10 1,10.1n"RI S FoTdmao (L. M. Kil:-! ...... , 11 TM., flw- f 'Olf I -u1- ',%TuA- 00o. Atli, lfl'&~Jntvo. fly w.t,ol -,,,.-h fill nintutiows ("lit' '1'T 11W sf. phic-11 (,-rm. (if th'. w, wifli lnrrm~le of the P13--li6ztl. '"oen. to nixii,f. 4 ra,Jv .1 Oil! Yut k 'WI but datlk to" lot..1 Onli'milion .41 rupal, 1"en: !iolly ! 4"1; Tht. Y~!Suh.5 S.'smi W 111tilk-Mi, ille etar tilt,, Ili Tminil v, the a.-tinn pf sud. plaiticize" otl C"I;lg 0 ive 13 vj!l, ..e. tin 6- rdative lio. of rattlig. inflwLet"I imo f1le -.1pedlit! n. Ft - ld i ) L416" 0. specilliolu teacll-~q 4 nl.vc. C I tt'~.Stt i; n, "', "14 m tile Walitkiref, with sham dvch,wi W lwlth lifivZilo-14 .1 iNily from the 1.1ac Thilt poilif vilfc-poall, W ttjv,;[~m -row a brittle stnte tc it ttighl, vla.tticcloe. At L?-14m~,Iw- 1", 4, there b aLr o1m:rved a mote t-noiloe.noicio ~00j, It-5.4 of Strength a-ld ;ncrea.;c.-. flliNity. Oul.-vinyl dilo. ;de fibl-.4 -.ho%v vlongmion that I ~ 1111-f it, T.""'fvt 1" ltfup. ;it 'Ow ~eolpm" Olell underKo I-. fr"n -;Zion JUT progms viliows % comp!tx mtuinn. !Amok tbis rx,Nt Jo lower v-mp. wv'. .111hilito w)d phl~,* ph tts -jv e ilic saini reitill. .rhv 1~- it * Cwi: )i 0,~, t-anis- tion Is about 42W kcAl./inniv. M. i, -7,  FELIDW, HI~; SOKOLOV, S.l* State of aggregation of high-molecular compounds. Linear thermal expansion and physicomehanical properties of some polymers. Xhim. i Fis. Xhim. Tysokowlsiml. Soodineniy DokladY 7-oy Konf. Vysoko- molskul. Soodineniyan 152, 159-67. (MLRA 5:7) (CA 47 noak?86o 13j) 1. Moskov. Takhnol. last. LegIcoy Pros. in. L.K.Kagsnovicha. ,~R ~w  UW/ Chemistr7 - Physi-oal chemistr7 Card 1/1 Pub. 22 -24/44 Authors Yelldmwip R* I. Title Effect of plasticizing additions on the mechanical properties of poly*itinylehloride Periodical Dok. ANSSSR 97/6, 1033-1036, kug 210 1954 Abstract. t The effect of quantitative ra -tios-of_,components (plasticizers) in a given, mixture'of the physico-mechanical properties of plasticized polyvinylchloride, was investigated. The effect of the rate of deformation and change over from one state to another which are connected with the relaxation processes in material on the behavior of the polymer in the mixture, was determited. It was established that this effect is primarily determined by the molar ratio of,the plasticizer and polymer and does not depend-upon the molecular weight, composition and structuie of the plasticizer. Four USSR references (1945-1952). Tables. .Institution The Lo Y16 Kaganovicb Technological Institute of Light Industry# Moscow Presented by: Academician P. A. Rebinddr, April 2, 1954  DP~ I'd- :'Iha 0 in the' bre"S a World tott roductloo of two usuche's. M 1. velldinan 0 KOL%R29 LANII-sd. ZAur,klF7. d. CA - 49,14363M_~_Tf k, 0, vzd a are the Nole fractions it ri: .of :d Ma. fint plasticize and 2nd pL-,Mjcivr, resp., tht 3 tge blealdngstress v ~ the poly-mer coittg. the two pla.dicizers Is elk, w~w, w,.*; wt. ~n.and oj being vnnus. of the 3 "lt stan"s, resp, Wit relatiou was confnueiI for a poly- ;-1,11 chloride coutS. d-22 male % of plaitkiur cuwoisting of;11 inixts. of CJIXCODu), nud tricoly) plux-phate at rx- A. ten;Iou of 2 tntnjinin, at 201. 'nie niatetittl wo-i in the I . :h[gAy viscous stute. mud for such UlAteriaw, prtsmably, w - *14 wil. WhOt i C0111pOnents are rM5v-1t.   rT I IT 7  AUTHORSi Felldman, R.I.; Mironova, A.K.; Sokolov, S.I. 69-20-1-15/20 TITLEs The Effect of a Plasticizer on the Mechanical Properties of the Copolymer of Vinyl Chloride with Vinylidene Chloride and Polyvinyl Chloride (Vliyaniye plastifitsiruyushchikh dobavok na. mekhanichookiye evoyetva sovmestnogo polimera vinilkhlorida a vinilideakhloridom i polivinilkhlorida) PERIODICALj Kolloidnyy Zhurnal, 1958s Vol XX, # 11 pp_10b-109 (USSR) ABSTRACTs The article is a continuation of the work published in the references 1 and 2. The substances under investigation were soviden and polyvinylchloride igelite-K. Soviden was obtained by copolymerization of vinyl chloride and vinylidene chloride in the ratio 77 s 23- It was shown that polyvinyl chloride needs a larger quantity of plasticizer to reach a high-elastic state than the copolymer. A comparison of the results of previous work shows the aame dependence of the mechanical properties on the effect of the plasticizer. Card 112 There are 2 figures, 2 tables and 4 Soviet references.  69-20-1-15/20 T~e Effect of a Plasticizer on the Xechanical Properties of the Copolymer of Vinyl Chloride with Vinylidene Chloride and Polyvinyl Chloride ASSOCIATIONs Moskovskiy tekhnologicheakiy institut ldgkoy promyshlennosti (Aloscow Technological Institute of Light Industry) SUBMITTEDt January 7, 1957 AVAILABLEs Library of Congress Card 2/2  AUTHbRs Felldman, R.I. 69-58-2 -16123 TITLEt The~ggr`sgate `State~a of High Molecular Compounds. 1. A Study of the Linear Expansion of Polymethy;jwthacrylate, Polystyrene, Polyvinylohloride and the Vinyl Chloride- Vinyl Acetate Co-Polymer (0 sostoyaniyakh agregatsii vyso- komolekulyarnykh soyedineniy. 1. Izucheniye lineynogo rasshireniya polimetilmetakrilata, polistirola, polivinil- khlorida i sovmestnogo polimera vinilkhlorida s vinilatse- tatom) PERIODICALt Kolloidnyy zhurnal, 1958, Vol XX, Nr 2, pp 220-228 (USSR) ABSTRACT: Aggregate states are very important for the investigation of high molecular compounds. For determining these states, special methods are useds specific volumet linear dimen- sions, heat capacity, mechanical, optical, other properties at various temperatures, thermography# etc. In this article, the linear expansion method is employed. In this method, isotropic materials give similar results, but in anisotropi-- materials the expansion coefficient dependson the direction of orientationo Experiments were carried out with a dynamo- meter of the Polyani type. The change of expansion is meas- ured after a temperature change of 1 C. Industrially manu- Card 1/4 factured anisotropic strips of polymethylmethacrylate wi.th  69-58-2 -16/23 ,The Aggregate States of High Molecular Compounds, 1. A Study of the Linear Expansion of Polymethylmethaerylate, Polystyrene, Polyvinylehloride and the Vinyl Chloride-Vinyl Acetate Co-Polymer interior stresses were investigated. The test results af- ter 5 cycles of heating and cooling are shown in Figure 2. The tests lasted 13.5 days. The length of the strips was reduced by 3.1 % at a temperature change from 85 to 160 0. Thermal processing increased the heat resistance of the material, Contraction started only at higher temperaturps. The temperature curves for pressed industrial specimensof polystyrene are given in Figure 3. They indicate the tran- sition to a more resistant stage. Thermal processing de- creases the contraction.0 value of the material. A tempera- ture change from 98-103 C reduces the length of the speci- mens by 0-43 %- Polyvinyl chloride was tested in the form of films prepared on glass or mercury and dissolved in di- chlorethane and chlorbenzene. The average molecular weight is 62,000. The form of the curve changes in relation to the preliminary processing of the specimen. The contrac- tion shows that the polymer chains are relatively mobil and may be re-grouped. After 2 cycles of cooling and heatingg Card 2/4 the length of the specimen was reduced by 11 %. Preliminary  69-5a-2 -16123 The Aggregate States of High Molecular Compounds. 1. A Study of the Linear Expansion of Polymethylr~ethacrylate, Polystyrene, Polyvinylchloride and the Vinyl Chloride-Vinyl Acetate Uo-Polymer heating reduced the lengthening of unstretched specimens by 25 9;. In Figure 5, the temperature dependence of ths relative lengthening is given for films of plasticized polyvinyl chloride. The films were prepared on rollers and then pressed. With the increase of the plasticizer concentration, the transition points are moved to lower temperatures and the hysteresis loo a are increased. The coplolymer produced from 85 weight ~ of vinyl chloride and 15 weight % of vinyl acetate was tested in the form of anisotSopic films prepared on glass. Thermal processing at 160 0 removes the orientation. Lengthening during the tests is decreased from 22-5 to 9.9 %. The analysis of the cited facts shows that the coefficients of linear ex- pension and the temperature transition points are not very constant and depend in the first place on the foregoing treatment of the specimen and on the preliminary kinetic changes leading to the investigated state. The great num- ber of transitional points proves the diversity of the Card 3/4 aggregate states in high molecular compounds.  69-58-2 -16123 The Aggregate States of High Molecular Compounds. 1. A Study of the Linear Expansion of Polymethylmethacrylatet Polystyrene, Polyvinylehloride and the Vinyl Chloride-Vinyl Acetate Co-Polymer There are 11 graphs, 1 table, and 38 references, 20 of which are Soviet, 10 English, 7 German, and 1 American. ASSOCIATIONs Moskovskiy tekhnologicheskiy institut 1"egkoy promyshlennosti (Moscow Technological Institute of Light Industry) SUBMITTEDt April 15, 1957 1. Moleculu compounds-Phase studies 2. Polymthylmethacrylate --Linear expansion 3. Molecular.qoxpounds-Test methods 4. Moleculu compounds-Test res4~s Card 4/4  AUTHORSt Felldman, R.I.; Sokolov, S.I. 69-2C-3-21/24 TITLE: The States of Aggregation of HigY Molecular Compounds (0 so- stoyaniyakh agregatsii vysokomolekulyarnykh soyedineniy) 2. Study of the Linear Expansion of Gutta-.Percha (2. Izucheniye lineynogo ra3shireniya guttaperchi) PERIODICAL: Kolloidnyy zhurnal, 1958, vol XX, Ur 3, pp 388-394 (USSR) ABSTRACT: Gutta-percha exists in two principal modifications which havo been detected by roentgenological and electronographical methods. These modifications are differentiated by the po- sition of the various chain links and the chains themselves. Gutta-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-Dercha R (Figure 1) has 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 statee Figure 1 also shows the dependence of the length of a film of gutta-percha R, which had been heated in water 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 The States of Aggregation of High Molecular Compounds. 2. Study of the Linear Expansion of Gutta-Percha The same curve for gutta-percha S is shown in Figure 2. This typo 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 influencing the molecular packing of the gutta-percha as well as the stability of the system. There are 6 graphs) 1 table, and 25 referenceal 11 Of which are Soviet, 8 English, 4 German, and 2 American. ASSOCIATIONt Moskovskiy tekhnologicheskiy institut ldgkoy promyshlennosti (Moscow Technological Institute of Light Industry) Moskovskiy institut khimicheskogo mashinostroyeniya (Moscow Institute of Chemical Machine-Building) SUBMITTED: April 15, 1957 Card 2/2 1. Rubber~Test methods 2. Rubber-Teat results  XMRDV-ZPALYANSKIY, Ya.Ya.; 1?BLIDMN, R.I.: REMY, O.S.; GOLDOVSKIY, Te.A. Cbitosan an a substitute for food products and rubber. Lo 115 prom. 18 no.6:28-30 Js 058. (KIM 12:10 Obitin) (Leather substitutes)  5 (4) SOV/69-21-2-19/22 AUTHOR: Felldmang R.I. TITLE- On the Aggregation Conditions of Highmolecular Compounds (0 sostoyaniyakh agregatsii vysokomolekulyarnykh soyedineniy), 3. Synthetic Polyamides (Sinteticheskiye poliamidy) PERIODICAL: Kolloidnyy zhurnal, 1959, Nr 2, pp 238-243 (USSR) ABSTRACT: This article supplies data concerning crystallizing highmole- cular systems, which due to their affinity to water and their hygroscopic qualities combine with variable quantities of water. The objects of the authorts investigation were sever- al kinds of polyamides, which under natural conditions can obtain 4_6% moisture. During heating and cooling processes he studied the behaviour of polyamide specimens (polyeapro- lactam and a product of polycondensation of hexamethylene- diamine with adipinic acid) with different specific surfaces (rode, membranes, threads) with the aid of the linear dila- tometric method. He has shown that the result of the in- fluence of the temperature on the linear measures of the Card 1/2 specimens is composed of normal thermal enlargement, ano-  SOV/69-21-2-19/22 On the Aggregation Conditions of Highmolecular Compounds. 3. Synthetic Polyamides. malous linear contraction as a result of the loss of previous oriontationp a possible volume effect due to the shift from a non-equilibrated unstable state of the substance to a more stable condition and a Phange In the mcisture content. The described phenomena, which prevalently refer to non-equili- brated states, directly concern the behaviour of these ma- terials in industrial products under usual prantical condit- ions. The author expressea his thanks to Prof. S.I. Sokolov and Engineer Io Shtern for their collaboration. There are 4 graphs and 11 references, 7 of which are Soviet, 3 English and 1 German. ASSOCIATION: Moskovskiy oblastnoy pedagogicheskiy institut 4-m. N.K. Krup- skoy (Moscow Oblast! Pedagogical Institute imeni N.K. Krup- skaya) SUBMITTEDt December 15, 1957 Card 2/2  FELIDMAN, R.I. States of aggregation of high molecular weight compounds. Part 4: Collagen, gelatin, and silk fibroin. Koll.shur. 21 no.4:499-506 J1-Ag '59- (MIRA 13:8) 1. Moskovskiy oblastuoy pedagogicheskiy iustitut im.N.K. xrup stor - (Collagen) (Gelatin) (Proteins)  4f 5W SOV/69-21-4-20/22 AUTHOR: Felldmanp R.I. TITLEt e States of Aggregation of High-Molecular Compounds 4. Collagen, Gelatine and Silk Pibroin. PERIODICALt Kolloidnyy zhurnalt 1959- Vol KXIt Nr 4, PP 499-506 (USSR) ABSTRACTt This is a study of the behaviour of hydrophylic materials (collagen, gelatine and silk fibroin) at changing tempera- tures with the aid of the dilatometric methods The data is not to be considered as constants for these materials. It is intended 'or comparing under certain kinetic conditions the behaviour of materials differing in their hydrophylic properties, and for evaluating the behaviour of the ma- terials in the ready product under the real conditions of changing temperatures and changing moisture content. The experiments were carried out in parallel runs, in order Card 1/4 to show separately the effect of temperature on the length (graphs 1,3,5 and 6) and the weight (graphs 2 and 4) of the  SOV/69-21-4-20/22 On the States of Aggregation of High-Molecular Compounds 4. Collagen, Gelatine and Silk Pibroin specimens. A comparison of the respective curves shows their mutual connection. It is evident, therefore, that the change of the measures of the specimens does not only depend on thermal enlargementg i.e. changes in orientation and closen- ness of molecule packing, but also to a considerable degree on moisture concentration. The rates of change of linear me- asures and moisture concentraticn are different, and depend on change in temperature. In this regard the behaviour of a massive piece of collagen, for instance, is similar to the behaviour of gelatine films and silk fibroin fibers. The autor explains this circumstance by the important role of the moisture concentration, and the specific structure of collagen. Graph 6 shows the length of a silk fibroin fiber in function of the temperature in additionally-moistened air (presence of liquid water in the working chamber of the dilatometer). Card 2/4 The results were obtained at P-434 9/mm 2. The change in the  SOV/69-21-4-20/22 On the States of Aggregation of High-Molecular Compounds 4- Collageny Gelatine and Silk Fibroin length of the fiber reached approximately 1-06 within a 0 range of temperatures varying from 25 over more than 90 to 15 C, This proves that the behaviour of hy1rophylic materials depends on many factors and appears as a cDmplex phenomenon, which can be observed under varying as well as isothermal conditions. A third parallel series of experiments is illustrated by graph 7. The curve shows the temperature of mechanical destruction of a silk fibroin fiber in function of the values of different loads. On the whole, the experiments have shown that the dilato- metric method proved suitable fDr the above-mentioned purpose. The change in the content of moisture sorbed or desorbed by the material plays an important role in the complex of pbeno- monap which determine the effe,.t of linear extension and con- traction )f albumens. The changes in the state of agregation of the eystems studied with the aid of the dilatometric method Card 3/4 are characterized by transition temperatures, shrinkage values  sov/69-21-4-20/22 On the States of Ag6regation of High-Moleoular Compounds 4- Collagent Gelatins and Silk Fibroin and t:rpical hysteresis phenomena. This also applies to other high-molecular materials. The author expresses his gratitude for help to Professor S.I. Sokolov. There are 7 graphs and 20 references# 15 of which are Soviet and 5 English. ASSOCIATIONt Moskovskiy oblastnoy pedagogi,1-heskiy institut imeni N.K. Krupskoy (Moscow Oblast' Pedagogical Institute imeni N.K. Krupslcaya) SUBMITTED: 29 January, 1958 Card 4/4  S/081/60/000/018/009/009 AOO6/AOOl Translation froms Referativnyy zhurnal, Kh1mlya, 1960, No. 18, p. 621, # 75995 AUTHORS: Felldman, R. I., Mironova, A.K. Tl=: The Dependenoe of the Tensile Characteristics of Polyethylene and Polylsobutylene Mixtures on the Composition PERIODICAL: Uch. zap. Mosk. ob. ped. in-ta, 1959, Vol. 84, pp. 181-185 TEXT: Tensile charaoteriat4oo of olZethyleneland polyisobuthylene lixtures, determined at 200C and an elongation rate of 2 mm/mIn, depend on uhe composition. The rectilinear dependence of the logarithm of the conditional tensile strength value of the mixture on the homposition, expressed In molar fractions, was used to establish that 6 . 6 6N2 where dmixt, 6, and 6~ are the correspond- mixt 2 Ing strength values of he mixtur ;olyethylene and polyisobutylene, and N I and t e 0 N2 are the concentrations of polymers expressed In molar fractions. The authorls summar7 Translator's note: This is the full translation of the original Russian abstract. cam 1/1  68707 -5k /S~ 1p3 00 S/069/60/022/01/016/025 D034/DOO3 AUTHORS: Felldman, R.I., Sokolev, S.I. TITLE: On the State of Aggregation of High-Molecular Com- pounds, 6. The Rupture Characteristics of Aniso- tropic PolycaprolactamlFilms N6 PERIODICAL: Kolloidnyy zhurnal, 1960, Vol XXII, Nr 1, pp 97-100 (USSR) ABSTRACT: The authors report on a study intended to establish the ultimate elongation (~_) and the breaking stress (Lr) of anisotropic polycap%rolactam, film specimens. The specimens were cut out from t8e film in different directions with an interval of 15 . The film was obtained with industrial methods by forcing the melt through a slotted die on a water-dooled drum, the mass being sub- sequently elongated by 300916. The molecular weight of the polyamLde was e,,14000. The specimens had a working Card 1/3  6870a W69/60/022/01/016/025 ,D034/DO03 On the State of.Aggregation of High-Moleaular Compounds 6. The Rup- ture Characteristics of Anisotropic Polycaprolactam Films length of 25 mm, a width of 5 mm, and a thickness of 0.06 mm. The elongation curves were plotted up to the breaking point with the Polyan9 dynamometer ("dina- mometr tipa Polyani"). The elongation was carrie9 out at a speed equal to 2 mm/min and at t 20 + 0.5 C. For the relative ultimate elongation x) -and breaking stress ((rx ) as a function of the angle between the direction of the orientation and of the stretching force the authors obtained the following expression 6x= Fo + (E90- ~.o) fl - sin(900 -x)_7. and a-. - 6-0 Cy'o - d'90) sin x Card 2/3  68707 S/069/60/022/01/016/025 D034/DO03 On the State of Aggregation of High-Molecular Compounds 6. The Rupture Characteristics of Anisotropic Polycaprolactam. Films Q-094-01E gold-go - relative ultimate elongation M and brgaking stress (kg/mm2)' when angle x equals 0 and 90 respectively). The correlations have been inter- preted from the viewpoint of the flexural fold hypo- thesis of crystalline polymer chains that unfold on stretching. The authors express their gratitude for help to N-T. Feltdman. There are 2 graphs and 1 Soviet reference. I ASSOCIATION: MoskovBkiy'institut khimichekogo mashinostroyeniYa. Moskovskiy oblastnoy pedagogicheskiy institut im.1, N. K. Krupskoy (Moscow Institute of Chemical Machinei Build- ing, Moskovakaya Oblast' Pedagogical Institute imeni .N.K. Krugska a) SUBMITTED: Mair 15. 19W Card 3/3  States of aggregation of high molecular weight compoun". Part 71 Iffsot of temperature on the state of keratinso loll.shure 22 no*3031-356 *-Je 160. (MM 13:7) 1. Moskovskiy oblastnoy pedagogicheakly institut im. N.K. Krupskoy. (Keratiua) Mi  0 AUTHORs TITLE: 25888 3/06 61/023/004/003/003 B101YB215 Felldman, R. I. States of aggregation of high-moleoular compounds. 9. Thermo- dilatometric study of polychloroprene and natural rubber PERIODICALs Kolloidnyy zhurnal, v. 23, no. 4, 1961, 475-481 TEXT: The properties of polychloroprene (PCP) and natuxal rubber (FR) (smoked sheets) were studied at various temperatures by a dilatometric method earlier described by the author (Ref. Bt Kolloidn. zh., 10, 220, 1958). The data obtained were compared with those the author obtained for gutta-percha (Ref. 71 Kolloidn. zh. 20, 388, 1958; Ref. 9s 21, 238, 499, 1958). 1) A commercial Soviet produc-tof PCP was used. The TIlms were i made from a solution of PCP in dichloxoethane on a mercury surface. The evaporation of the solvent in the dark at 15-200C was gravimetrically checked, The thickness of the film did not exceed 0.1 cm. Stripes of 5-10 cm length and 0.5-1.3 cm width were used for the test. The folloving data were found at a load of P - 2-3 g/MM2 and a temperature variation by 10C in 3-5 min: The coefficient of linear expansion o(- between 0 and Card 1/ 4  25888 S/069/61/023/004/003/003 States of aggregation... BIOI/B215 180C was ~A' O-i80C ~2.91-10-4, On beating from 0 to 260C, elongation was approximately 17 %. For comparison, the following is given for "P" ("RII)i Al 5-230C -2.28,10-4 at p _ 10.9 g/mm2 . To study the effect of preliminary thermal treatment, the PCP films were heated at 130 or 1600C. The following results were obtaineds At 130OC' OL OC ' 1.97-10-4, Between 0 and 820C, 0-21 0 elongation *as approximately 7.2 %1 on heating up to 95 C, it was approximately 9 %; P - 4.1 9/mm - In films heated up to 1600C ol- 0-200C was 2.65'10-4 9 C1 was 5,77'10-4, 0(, 0 was 6-04*10- 4, and ~0-520C 64-82 C 4'62-OOCw'3~o-10-4. The fact that thermally treated films had no yield point at 370C, is explained by cross-linking. In all samples, the transition point remained unchanged at approximately 200C, whereas the other transition points of thermally treated films were shifted toward higher temperatures. Examination of the specific volume of PCP also yielded a transition point at approximately 200C, but the measurement of changes in length was more precise. 2) 0,65 mm films on glass plates were produced from smoked NR Card 2/4  2 S% 69/61/023/004/003/003 States of aggregation... BIOIJB215 sheets by evaporation of their benzene solution. Between 0 and 60 0C an 2 0 elongation of 5-4 % was found at P - 1g/am . Between approximately 10-40 C, such a transition range is similar to that 2of gutta-percha "C" ( lisle ). For NR, OL,_I,o, was 3.96-io-4 at p . IgImm . In gutta-percha 'IS", oL 8-270C changed fr9m 1 6-10-4 to 1.9,,10-4 at p . 19 g/mm2 To study the effect of crystallization, stripes of HR were kept between -15 and -90C for 33 days, and then dilated in one cycle (1oC-+.480C--s.1_9G) at P - 1.4 g/mm2. On heating up to 40C, elongation set in. Between 4-v13-150C the length remained constant. In the next cycle, the elongation increased steadily, and the beginning of the transition range was elevated from 40C to 100C (like in non-cooled rubber). In vulcanized(;ampl;sg the length remained constant between approximately 11 and 160C - 9 . g/mm2). Between 16-300c, shortening set in, and above 300C elongation. These effects were explained by the superposition of several processes. A) Melting of regions crystallizing at low temperatures, and formation of new, oriented --brystal regions at elevated temperatures. B) Destruction of crystal regions oriented in a direction other than that of stress. C) In vulcanized NR, also effect of the network which tends to taturn to its initial position# comes in play Card 3/4 -  25888 S/069J61/023/004/003/003 States of aggregation... BIOI/B215 (entropy effect). The author thanks Professor S. 1. Sokolov for his interest in the work. There are 3 figures and 12 referencess 11 Soviet-bloc and i non-Soviet-bloc. The reference to English-language publications reads as followst N. Bekkedahl, J. Res. Nat. Bur. Standards, jj, 411, 19341 Rubbei Chem. and Tschnoi.,.2, 5, 1935. ASSOCIATIONi Moskov kiy oblastnoy pedagogicheskiy inatitut im. N. K. Krupsk:y (Moscow oblast, Pedagogic Institute imeni N. K. Krupskaya) SUBMITTEDi February 18, 1960 Card 4/4  FEDOSEYEVA, Ye.G.; FELIDMAN, ROI*;_ SOYOL;)V, S.I. Interaction between polymers and plasticizers. Part It Preparation and properties of poly(vinyl chloride)pastes. Koll.zhjr. 23 no.6:749-755 N-D 161. (MIRA 14:12) 1. Naucbno-istledovatel'skiy institut katel'noy promyshlennosti i Moskovskiy oblastnoy pedagogicheskiy institut imeni H.K.Krupskoy. (Polymers) (Plasticizers) 1, 7 17:  DULITSKAYA, Rakhill Abramoviu4 dote.; Rakhtli 11~AichLw dots.1 AIAVZFtDOV, Ta.G., red.1 GARINA, T.D., tekhn. red. (Laboratory work in pbysical and colloid chanistry]Praktikum potizicheakoi I kolloldnoi khImil. MD&kva, GosAid-vo "Veshala Bhkola," 1962. 338 p. (MIRk 16:3) 1, Farmateevtichoskiy fakulitst 1-go Moskovskogo meditsinskogo instituta. im. Sechanova (for Felldman, Ddlitakaya). (Chemistry, Physical and theoretical-Laboratory manuals) (Colloids)  slo69l621024100210071008 illO/BlOi AUTHORSt Fedoseyeva, Y(,,. G., Felldman, R. I., 3okolov, S. I. TITLE: Interaction of polymers with -?lantieizors. 2. Gelatinizet- tion of polyvinyl chloride pa:3tes and the properties of the films obtained from them PERIODICALt Kolloidnyy zhurnal, v. 24, no. 2, 1962, 230 - 235 TEXTt The follo-e-inr, changes0take place during the gelatinization of PVC pastes (20-40 min, 140 - 185 Ot (1) the decrease in viscosity oil the PVC suspension at 20 - 40 0C is caused by tho decrease in viscosity or the dispersion me'~Jum. Between 40 and 9000, viucosity of the system increases rapidly on account of its gradual gelatinization, and above 900C viscosity again decrejoes nomally. (2) The chanee in the mechanical rupture charac- teristics depends on the gelatinization temperature and time; the condi-L' tiono of gelatinization depend on the composition of the paste. Films made from pastes filled with chalk, titaniun dioxide, barium titanate, kaolin, talcum, magnesium oxide, and litharge showed lower tensile pr8per- ties and greater hardness. Addditional 30 days heat treatment at 120 C Card 1/3  3/069/62/02d/002/007/008 Interaction of polymers B110/B101 increased the tensile strcngth from - 27 - 43 kgf/cm2 to -47 - 90 krf/CM2 changed the relntive rupture elongation, and lowered linear strain cooffl- cients. Study of the decomposition temperatures showed that lead compounds proved to be better stabilizers than compourds of other metals. (3) The chinges in the electrical characteristics of PVC films were determined int (a) electrical bulk resiativity (2000 v, direct reading compensation bridge), (b) dielectric permeability and tangent of dielectric loss angle (Schering bridre, 1000 v, 50 cps, I min), (c) disruptive ~ztrenCth (cylindrical electrodes dipped into tricresylphosphate, rate of voltaEc increase 1 kv/sec). The electrical characteristics depend on the quantitn, tive ratio of polymer to plasticizer, on the physical and chemical properties of the pl:.i3ticizer and on the pasta ingredients. Graphite alled increases the film conductivity, and the bulk resistivity a.-.Iounts to -103 ohm-cm. A etudy of the dependence of the bulk resistivity on the component ratio showed that the curves ~ versus composition of tho Polymer oyctems PVC + tricresylphosphate, PVC + dibutylphthalate, PVC + '~--Octyl- phthalate coincide up to a plasticizer content of 45 - 5% by weirht. (4) The change in water absorption with temperature and time shows a Card 2/3  i;/o6g/62/024/002/007/008 Intarnction of polymers 3110/B101 maximum at 20 + 10C. 'The aff-3rewentioned mechanical, electrical and other properties of'FVC films show that blocks, filris, etc., having important properties for engineerinF can be obtained by gelatinization. There are 5 figures and 3 tables. ASSOCIATIONs Nauchno-issledovatel'skiy institut knbellnoy promyshlonnosti, Moskva (6cientific Research Institute of the Cable Industry# U013COW) Moskovskiy oblastnoy pelagogicheskiy institut im. N. K. Krupskoy (Moskovskaya oblast' Pedagogical Institute imeni N. K. Krupokaya) SUBMITTEDs October 20, 1960 Card 3/3  S/009/63/M A05T/A126 -AUTHORSs Vedoseyevet, Ye.O., FelldmanjRU~ I Sokolov, S.10 -TITLEt On the pOlymer-plasticizer Interaction. 3, Investigation of stabitr Ity factors mid phase transitiorA in dispersions of polymer in plasticizers (pastes) FPIODICAM Kolloidnyj, zhurnals, V& 25, no. :1, 1963, 247 - 252 TFM,. The present investigations were carried out, and the results pro- sented already at the Fifth All-Union Conference on Colloid Chemistry., Stabll-~ ity factors and phase states of polymer dis;ersions in plasticizers are dis- cussed on the e;cample of polyvinyl chloride dispersion In d1butyl phthalate which Is of Interest as a two-component system. The preparation of pastes from these components indicates that a part of -the polrmer has a stabilizing effect. It was of interest to Investigate the "lifetimi" of such systems. The stability depends on the sedimentation, the particle size, and on the mutual dissolving (homogenization), The, "iifetime" of dispersed systems depends on static and _._._____1-_dynam_io_f&otora connected to the structure and properties of the polymer, the Card 1/2 e  S/069/63/025/002/009/010 On the polymer-plasticizer Interaction .... A057/A126 structure of globules bb-tained by emulsion polynierizationt as well as to phase relations and the ability of the polymer to nimain for a longer time In a non- -04iAibrated state. The process of paste golatinization is a result of the dis- solving stability (homogenization) of the d1spersion. The surface layer of globules might be considered as a barrier whit,,h prevents the destruction of the globule. Only an increase of temperature will destroy this barrier effecting a subsequent quick dissolving. The process of paste gelatinization at elevated temperatures in discussed by.the present authors as a complex of phenomena whi(h effects a. -total homogenization of the system iuLd the formation of a high-elastic gal by mans of wmutual diffusion of polymer and plasticizer. There are I fig- ure and I table. ASSOCIATION: Hauchrio-lealedovatellskiy instil;,ut kabellnoy promyshlerviosti (Sci- entifio Research Institute of~the Cable Industry); Moskovskly ob- last'noy plidagogicheakiy institit im. M.K. Krupokoy (Moscow Be- gional Pedagogio Institute imon-L M.K.Krupdaya); Moskovskiy Insti- tut khImlohaskogo mashinostroye:iiya (Moscow Institute of Chemical Machinery Construotidn) suamimm s December 3o, 1.961 Card 2/2  1437724-65 ACCESSIOR URt AP4023501 S/0069/64/026/002/0258!02(-02 AUTHOR: Fedoseyeva, Felldman- R.-I.-. Sokolov, S. 1. TITLE: On the Intera-tign of polymers wit!) plasticizers. 4. Effect on rubber of P-La-sticizers which migrate during contact tith plasticized polyvinylchloride SOURCE: Kolloidnyy zhurnali v. 26, no. 2, 1964, 250-262 TOPIC TAGS: rubber researchi plasticizer, polymer swelling, electric property --ABR'MAr ---Kechanica1'and___%1e;;tr prope rt Les and swelling were- studied-in -va our rubber +-plastlclzer systemg. --The purpos-e of thestWdywas to deternine-the--- ability of plasticizers to penetrate into rubber at 25 and 1450C from polyvinyl- chloride layers In acntact withrubber, as well as to evaluate the effect of -35 SK-50,Albber was plasticizers on the properties of rubber. Butadiene base TS fn-i ted. The fol-lowirg plasticizers were usedi dimthyl phtha-Late, R'0ctVl _h;hnlitc, trie-resyl phosphate, pentachlOTodiphonyl, sebacic acid polyest'er, I F i 2,2',2"- nitrile tricthanal butyrate and shale oil. When the riibuer specimens were swelled in plasliciters at 1450C for 1.5 hours and then kept at 251C for 214 hours, the plasticize!rs "bled out." This indicates that the plasticizers migrate from the polyvinylchl.oride into the rubber mainly during vulcanization. Penta- Card 1/0;ir  L 37724-65 ACCEM011 M AP4023561- chlorodiphenyl. and Shale oil were foxmd to be the best plasticizer-, cin,:-,- they Form a qtable r;ingle-phase system with rubber which ~;hnwq no t s. These plast icizar 3 also show the least isci!pt i 1, 1 tv b - -r- :;wellinr, was found to be move dependent c-i the limits if ty than cn,:,fficlent of diffu3ion of the plasti 17t--inFer :F ',),~rical prrl- --in general ly to the I aws Tt -) I a -n -1 'he -,e I 'L,y ! he we ighl content r-, in,; (if the rubhp- sanniies showed devia innf:: It 100'C. ElerTT-ir-a~ iri;%or- (,n -he nes ist i vi I v qr, f: f%,jj trj~ rjeFr~e of polarity of the , :i~* lrv)ies --irM 2 fi .,Tu re s . ASSOCIATION: Nauchno-irtsledovatellskiy instit,it kabel'knoy pr1-7.-YSh!enn0--ti (Scientific Research Imititute, of the Cabilp intlustry); floskovskiv oblastnov peda- Rczi~:herkiy institut im N. K. Krupskoy (Hoscov Pegional Fiefiagagical institute); fn,~tftijt khiiiicherkogo T r-)v Tis rut e com  ACCESMat NRt AP40=79 0/0069/&/026/003/0302/03" XMOH; Fedoseymp Yee Gej relldmaj He lej Sokolov# Be Ie, TME: Interaction of polpw with plasticizer 5 & no adhesive prqprties of polyvinylehloride plasticates wA tboir offset 6A rubbers in contact Vith thm SOME: Nolloidaylily shurnalp ve '26p no* 3t, 19&P 362-366 TOPIC TAN: polymer plasticizer interaction polyvinylchlorida plasticate., rubbe resin# rubber valcanizationj rubber tbarml ;g~Zg, PVC film adhesionp polychloro- 3?rme.. perchlorovinyl resin., nitrile rubber# rubber nodifyor AWMM: In this series of studios the plasticizer vas Introduced Into the rubber at avelling Um or Into the resin six before vulcanization. Such systems muq serve as wdels., since unWe these conditions the resin comets into contact not vith the pure plasticizer but Ath plasticized polyvWlchlorlds (PVC) pastep fU* atee, Uhich the plasticizer migmtes into *Uw resin* Me composition of the 1PNVC pastes La tAbulatede In the present work the Influence of PVC pastes vith otbar oa*mmdm (6jYb%#3jPW-1&t6j, I *tao) and tilm  f.ACCESSICK NR: AP4037179 fran-these materials an properties of the rubbers TO-35 and SK-W and the adhesive force between the boundary materials were studiai. For the preparation of the sWimens a 0.5 = PVC1 paste layer was placed on top of the 2 ma thick resin mixture.. the entire mass vulcanized In foil. and subjected to thermal aging. The 'two'-layers were then separated and the rubber tested for mechanical properties and I specific cubic resistance. The adhe Ion of paste to resin was deterpined with I dnmmeter. The least amomt of adhesim was fetind in pastes containing only ;VC land plastiolurp best In those Vith PVC and perchlorovWl resin or rubbers* Such jcontact did not chan tensile strength appreciably, aging at 1= took place alwat In the same way In the presence or In the absence of contact. The specific cubic electrical resistance accewhat di-Sn' had In the presence of polar plastici- zersp, whereas it Increased during thermal aging of rubber In contact with POIYVIDYIb chloride plasticates containing pol7styreze., polymetby2metacrylate and their mcno. merse The addition of modifiers to FVC putes after vulcanization., had a favorable affect, an the adhesion to x bber of fl3m fondng on gelation of the pastese Ma beat effect was produced boy chloriftt4A polychloropruop perchlorovinyl resin,, Po2ychloroprew axA nitrIle rubber* Orlso . art, has: I figure and 4 tables ASSOC== 1aucba*-4AslaAmU11skLy IwUtQt4 kabelluoy promy0shimmati, Moskva'! I d 2/3   L 00987-66 NT m)1EW(c)1W(J)1T1Z[A(c) lox _45-0-2,62-36- tm/ 0-069/('5/02T/004/06 C CESS ;MR 10623 19 541.64 HOR: Felldman, R. If 'Sokolov, S. I. L 7~ne TITLE: Aggregation states-of m.acromolecular compounds, 10. Po.ytetrafluoroetlr !SOURCE* Kolloidnyy zhurnal, v. 27, no. 4, 1965, 619-623 LPIC TAGS: polytetrafluoroethylene, aggregate state) crystall4nity, linear- !expansion coefficient, thermal dependence ABSTRACT: In view of the known temperature transitions in the crystalline and ag- gregite states of polytetrafluoroethyleDe (PTFE), the temperature dependence of the coefficient of linear thermal expansioppof this polymer was studied in detail. This, study is important from both the theoretical point for supplyine; new data for colloidal chemistry and for the theory of aggregate states of pclymers, and from the purely practical point of using this polymer for technical purpcses. 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 Der Slegree centigrude. Some experiments .--lasted 52 days, Measurements were made by a dynamometer serving as.dilatometer. The Caro 2  71; Ili, ~~i;i L 00987-66 ACCESSION NH: AP5020233 method was previously described by the authors. It vas found'that the smoothness of. the curve a vs to vas disrupted by several abrupt transitions: at 19-21, approx- 1 imatelY 30 and 250-260C. The transition at 19-21C is considerable and should be taken into account as a cause of shrinkage in the industrial use of PTFE as a material for devices, gaskets, packings, and parts. Orig. art. has: 2 figures. [BN1 ASSOCIATION: Moskovskiy oblastnoy pedagogicheskiy institut im. N. X. Krupskoy tZscow Oblast ?edMgical Institute); Moskovskiy institut khindcheskogo -n-hino-; stroyeniya kMoscow Institute of Chemical Machine Building) SUBMITrED: 19Feb64 ENCL: 00 SUB CODE: OC, OC.; HO.REF SOV: 010. oT=: oo6 ATD PRESS: 4068 Cord 2 r_z  - -., w1.1 11.)M-1 N's R I . - ';OKDIk)V S.f . w States of aggregation of high-molecular weJght compoun,19. Part 10i Polytetreflucroathylene. Koll. zhur. 27 ric.4,- 619-623 JI-Ag 165. (MIRA 18:1--) 1. Moskovnkiy oblastnoy pedagogicheskly institut imeni N.K. Krupskoy i Yoskovskiy Institut khImAcheakcgo ma3hinostroyentya. Sulinitted Februat7 19, 1964,  VEDERNIKOVA, N.F.; SOKOLOV, $.I.; FRODM#N, R-.-I-.; SIICHGOLEVSKAYA, N.A. Interaction of polymerB with plastleizerls. Part 6t Eff"ect of plasticizers on the deformation birefringence of polMthyl methBcrylate. KoU.zhur. 27 no.3026-330 Mv,..Te 165. (MIRA 18:12) 1. Moskovsk4 "Wtitut.-Mimicheskogo mashinostroyeniya i Moskovskly oblast-noi-padagogicheskly inotitut imeni Krupkoy. Submitted Dec, 28, 1963.  -E7;~T' fn i IJ P 'V-d ~ R N; ~rj We--~~6010545 'SOMCE CODS# 6R-760--6� 006/06&/ AUMCRI Vadernikova, No F. Sokolovo So L; Felldmant Re L; Shchegolovskayap No A, ORGI Moscow Institute of Chemical Machinery (Moskovskiy institut khimicheskogo ma3hinostropenlya)l Moscow Must FMschnic Institute im. No K. !MskVa_ (Moskovskiy oblastnoy-p-eTa-g-oacheekly Institut) TITISS Interaction of polymers with plasticizers* Fart?. Thermooptical, character- istice of the effect of plastiaiters/on P0jJT!LhZj-mqthaor late - V Z SaJRCES Kolloifty shurnal, v. 27, no. 6p 1963,, 8o6-gog TOPIC TAM$ plasticizerp polymetby3nothacrylatel, double refractiong phosphato ester AWTRACTI In order to clarify the specificity of the optical effect of plasticiza- tion, the simultaneous influence of plasticizers and temperature on the birefringence of binary systems composed of a polymer and a lov-moleenlar plasticizer was imeati- gatedo 7hermooptical. measurements were made in the two systems polymeWl netha- crylate QfflU)-dibutyl phosphate (DBP) and PM&trioresyl phosphate (TCP). The curve representing the temperature dependence of the optical birefringence coefficient Cr of polymethyl methaorylate (see Fig. I and 2) is shifted by the presence of the plasticizer In the direction of the temperature axis toward lower valueng in con- formity with the mole fraction ralej and in the direction of the C4, axis toward Card 1/3 UDC 1 -41.64 s"3.331  L 34417-66 -AcC--NR--s-AS C"w"CRIN -Ij Fig. 1. TwVeraturs dependence of FWf M pMi!ftd with TCPI I - I ; Z-5 - TCP9 N2 equal to 0.014t 0-0309 0.062 and 0.113 respeotive3jv. 2/3 x 48 tv iv /X t. I'C Fig. 2. Temperature dependence of Cw of PMMA Plasticized with IWt I - P-M4 2-5 - PMA + MW9 H2 eq"l to O.Ollp 0-038t 0*036 and 0.097 reapeotively.  1, 4417-66 .A~:C NRt AK01054~ positive values. The shift along the Cj axis d epe nds on the composition and stru of the plasticizer molecules. It is concluded that the influence of the plasticizers introduced into PMKA is dual in natural in some respects,, it is related to a change in the state of aggregation of the polymer upon addition of the plasticizers and is governed by known general rules established by studying the mechanical propertleal in other respects, the plasticizer affects the optical EopertiesNocording to its individual characteriaties,uhich depend an the,composItIon, &w structuro of its molecules. Orig. art. hast 3figures, 4. SUB COM 07/ SUBM DATEs 26Jun64/ MM REPI 0041 OM REFI 001 3  ACC NRs AP 6037030 SOURCE CODE:* UR/0069/661028/006/0888/0893 AUTHOR: -Felidman, R. I.; Fedoseyeva, Ye. G.; Sokolov, S. I. ORG: Moscow Oblast Pedagogical Institute im. N. K. Krupskaya (Moskovskiy oblastnoy pedagogicheskiy institut); Scientific Research Institute of the Cable Industry (Nauclino-issledovatellskiy institut kabellnoy promyshlennosti); Moscow Institute of Chemical Machinery (Moskovskiy institut khimicheskogo maishino- latroyuniye,) 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, 868-893 TOPIC TAGS: polymer, Fi E=&=W= polyrAer physical chemistry, filler, polyisobutylene, molecular weight, tensile strength, hardness, plasticity, j5LA,Sr-1017-Y II- 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 strength residual and elongation at rupture hardness, elasticity at 70 and 130C, and !a,d 1/2 -TJDC; 541. 182:539. 412  rAcc-r4k---A~63-7-0-30 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 tit 70 and 130C increased.. "The results obtained may b, explained by the complex effect of softeners-on the properties of a filled polymer. For systems composed of polymer, softeners, bLnd 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 elongation'. when the filler quantity in the compounds does not exceed the optimum value, Orig. art. has: 4 figures. (Based on authors' abstract] CNTI., SUB CODE: 11/SUBM DATE: 26Aug65/ORIG REF- 0081 Card2/2  GOGOLEVA, T.Ya.; BOROMNSKIYO S.S.; Prinimal-i uchastiyes YEFIWNKO, L.Ya.,- DEMENP. ru.V_.L FELIDMUffl.-- Thionaphthene distribution during the processing of the naphthalene fraction according to the drum-preso flow sheet. Koks i khim. no.3s46-48 164. (MM 17:4) 1. Ukrainskly uglekhimichaskiy Institut.  -ACe- IC,_-AP 21715 bOURLT-MDZ.---IN/OIC3-/66/000/012/003Y/C INVEMR: Adamovich, A. I.; Ponanskayas E. Sarenko, A. S.; kikhaylovs, N. P.; Tsirlina, S. B. None LE: A method for producing dietbylaminoethyl eater of*diphenylacetic acid (base adiphenine). Class 12, No. 182715 RCE: Izobreteniya, promWohlemWe obraztsy# tovarWe znaki, no. 12, 1966, 35 IC TAGS: drug, ester TRACT: -This Author's Certificate introduces a method for producing diethylamino-' yl ester of diphenylacetic acid (base of adipheiiine), The technological process simplified by interacting dietbylaminoethyl chloride in an aqxeous solution with alkali metal salt.of dipherqlacetic acid. CODE: 07,.11/ SM DATE: 15ju164 Card_ UDC; (6,095,132;615,M-  "Report on the work Conducted in 1950 by the Stomatologic2l Clinic of the 2nd Moscow Medical Inst. and of the Stomatologic Dept. of the 1st Yoscow City Hospital.," Stomatologiya, No.1, 1952  -FUSDWI R.R. Dynamics of ondothelioois in obronic tonsillitis before and after tonsilleatcnV. Vop.pat*krovi i krovoobr, no,6299-105 161, (HIRA 160) (FOMTIC FEV (TONSILS -DISEASES) (HEDICAL TESTS)  POKOTINSKIY, 1.0,; FEL1114AII 11 Compound therapy for metastaBis of cancer of the breast. Trudy LPMI 31 no.28136-138 163s (MIRA 17tlO) 1. 1z rentgenologichaskogo otdel.eniya Ob"yedinennoy bollnitsy imeni Kuybysheva, leningrad i ke-fedry fakulltetakoy terapii Lenirgi-adskogo pediatrictieskogo meditsinakogo Instituta.  FELIDMAN, R.R. Late observations of 'the dynamics of endothell'osla following I-onsillec- U tory. Trudy LPMI 31 no.23164-174 163. (MIRh .17-.10) 1. Iz kardiorevmatologicheskogo otdolentra Ob"yedinennoy bollnitsy Imeni 7uybyaheva I kafedry fakulltetskoy terapLi lAningradskogo ped-latriches- kago meditsinskogo institute.  OREMVp Vladimir Vaoillyevich; FLILIRUN, Rman Vaevolodovich; KUZMSOvp G.A.p red.; ZAYTSEVAt L.A."p-WUM. [Repair of television receivers] Remont, televizorov. Moskva Vaes. koop. iad-vol 19609' 247 p~ Aiagree (KIRA 14:91 (Televiodn-Repairing)  FELLRAN S. ExcitabIlIty and prcjcootions of senso7z pathvays to the hypoth&lamss Acta phyolol. acado sai. H=g. 26 no.W61 165 1. Hadassah University Hospital, Jerunalam, Israel. N  YZLIDMAH, S.B., vrinch (Mosk7a) inciples and technics of electrocardiography" by N.G. Nikull1m; Reviewed by S.B9 7elldmeme' 11inemede 36 nos83158-159 Ag(158 MIRA 11:9) I, Blektrokardiograficheekly kabinet klinUd propedevtiki vnutrenni)& bolesney I Moskovskogo ordena Lenina meMisuakogo institute, Imeni I.M* Sechenovs, (for Folldman)o (IUGTROCARDIOGRAPHY) .. .. .....