SCIENTIFIC ABSTRACT MEOS, A. I. - MEPARISHVILI, M.

VOLIF, L.A.; MZOSe KAUJUa, Kh.Ta* Refractometric determinatioa of concentrations Of PO]Yvi'Wl alcohol solutions. Khim.volok. no.1:22-23 160. (KIRA 13:6) 1. Leningradskiy tekstilligry institut. (vinyl alcohol)  VOLIF, L.A.; KWS. A.I.;- INKM. 8.A. Complezooetric determination of sodium sulfate in precipitation baths in the manufacture of synthetic fibers. Xhim.volok. no.l: 32-33 16o. (14IRk, 13:6) 1. Leningradakiy tekstillnyy institut. (Textile fibers, Synthetic) (Sodium sulfate)  S/18~/60/000/003/009/0i6,/ xx B004 B067 AUTHORS: Vollf, L. A. and Meos A,, 1. TITLE: iodine0eaction 2,f the Solutions of Polyvin,vl Alcnnnl and FibersVand FilmsVProduced Therefrom PERIODICAL: Khimicheskiye volokna, 1960, No. 3, pp 21-22 TEXT, In the introduction, the authors give a survey of iodine reactions of polysaccharides, and discuss the different behaviors of starch, cellu- lose, glycogen, dextrin, etc, The blue color caused by iodine is explained as a reaction of the hydroxyl groups with iodine under adsorption and com- plex formation. The authors studied the reaction of water-soluble and hydrophobic fibers and films of polyvinyl alcohol (PVA) with 1 2 and KI. The soluble products turned into an intensive blue whereas no coloring was observed after thermal stabilization (at 210 0C). When previously swelled in water or borax, the thermostabilized fibers and films again turned blue. The same holds for PVA previously treated with formaldehyde. This effect of swelling is explained by a destruction of the hydrogen bonds. Like starch, also iodized PVA is decolorized when heated in boilinj Card 112  Iodine Reaction of the Solutions of Polyvinyl S/183/60/000/'003/'OC)-,,C)'~6/'XX Alcohol, and Fibers and Films Produced B004/BO67 Therefrom water; on cooling, however, it turns blue again, Dissolved PVA is coagulated by an iodine solution. The authors had iodine-PVA films and fibers studied by M. A. Mikhellson, physician and bacteriologist, It was observed that such films and fibers are longer sterile than material sterilized at high temperatures, Hence, the authors assume that iodine - polyvinyl alcohol films and fibers can be used as medical bandaging material. There are 6 references: 3 Soviet, 2 British, 1 -Canadian, and 2 German, ASSOC IAT ION -, LTI im. Kirova (Leningrad Textile Institute imeni Kirov Card 2/2  S/183/60/000/004/003/005 B004/BO58 AUTHORS; Meosq A. I., Vollf, L. A., Tseytlina, L. A. TITLE: Acetalation-of Polyvinyl Alcohol Fibers by Means of Dialdehydes of Phthalic Acids PERIODICAL. Khimicheskiye volokna, 1960, No. 4, PP. 18 - 20 TEXT: The authors start from data contained in Western publication (Refs, 1,2), according to which polyvinyl alcohol fibers can be made waterproof by means of---formaldehyde or0dialdehydes of phthalic acids. A previous heating of the fiber to 215 C is, however, prescribed in this case. It was the authors' aim to find a method by which the strong heating is avoided. Three ways are described as being possible: 1) re- duction of the swelling property of the fiber by coagulating substances; 2) gradual temperature increase of the dialdehyde solution; 3) addition of substances which combine the aldehydes in the first stage of the process. The paper under review reports on the results according to 1) and 2). Polyvinyl alcohol fiber, obtained from the Leningradskiy nauchno-isaledovatellskiy institut polimerizatsionnykh plastmass Card 1/3  Acetalation of Polyvinyl Alcohol Fibers by S/163J60/000/004/003/005 Means of Dialdehydes of-Phthalic Acids B004/BO56 (Leningrad Scientific Research Institute of Polymerization Plastics) was submitted to thermal stabilization at 210'C and subsequent treatment at 700C with a solution of 36% methanol, 2V,9 sulfurio acid, 39% water, and 3% terephthalic acid- or isophthalic acid dialdehyde. In a second test series, thermal stabilization was replaced by a three-hour treatment with a solution of sodium sulfate (350 g11) at 700C, followed by a treatment with dialdehyde7 as in the first test series. The property of the fiber was evaluated on the basis of its shrinkage in length. The results are given in Table 1. The shrinkage of the thermally pretreated fiber amounted to 30.5%, that of the fiber treated with sodium sulfate 40.5-46.9%. When acetalating by means of formaldehyde) sodium sulfate produced far too big a shrinkage compared with thermal stabilization (Table 2). The authors explain the better effect of dialdehydes by the formation of intramolecular cross links, while intramolecular ringg only result with formaldehyde. Acetalation by means of isophthalic acid dialdehyde was performed next under the following conditions: 2.5 h eac~i at 3-50C and 8-150C, 30 min each at 15--400C and 40--700c, and 3 h at 700C. After thatj the total shrinkage of the fiber amounted to 15.5% onlY,aathe basis of new experimental data, the authors concluded that the duration Card 2/3  Acetalation of PoLyvin,." Fi',~c,rfl by S/18 60/000/004/003/005 Means of Dialdehydes of Phthalic Acids B004YB058 of treatment by this method can be further shortened. There are 2 tables and 2 non-Soviet references. ASSOCIATION: LTI imeni S. M. Kirova (Leningrad Textile Institute imeni S. M. Kirov) Card 3/3  S/163/60/00()/005/004/007 B028/3054 AUTHORS: Vishnyakova, H. N., Meos, A. I. TITLE: Study of the Structure of Caprone Fibers by Electron- microscopic Methods PERIODICAL: Khimicheskiye volokna, 1960, No. 5, pp. 20-24 TEXT: Preparations for these studies were crushed in a micromill of the type 3W S(EM) during 30-90 min at 5,000 rpm. The electron-microscopic pictures are 6,000-fold magnifications of the preparations. The structure of raw caprone resin shows macromolecular coils forming on casting and hardening. The thickness of the coils is difficult to determine because of node formation. The thickness of the structural elements i9,,--1,000 A. In some cases, the unstretched caprone fiber shows strongly bent macromolecular coils as they also appear in raw resin. A molecular coil has an average tthickness of 750 A. Spherolites appear in structural analyses of stretched caprone rayon fibers. Average thickhess of macromolecular coils in the stretched fiber is about 6060 A. Cord fiber is usually stretched to the 4 1/2-fold, and therefore shows a better orientation of structural Card 1/2  Study of the Structure of Caprone Fibers by S/183/60/000/005/004/007 Electron-microscopic Methods B028/BO54 elements, and macromolecular coils of a mean thickness of 540 A. Thus, the authors found that cord fibers, as well as stretched and unstretched fibers, h4ve different structures; fibej.rs directly drawn from resin have much thicker macromolecular coils than fibers obtained from a solution. Structural differences, however, decrease with increasing stretching. Stretched and unstretched rayon fibers show spherolitas which were not ob- served in cord fibers. There are 9 figures and 6 references: 3 Soviet, 1 German, I Swiss, and I Swedish. ASSOCIATION: LTI imeni S. M. Kirova (Leningrad Textile Institute imeni S. M. Kirov) Card 2/2  I . VjSnYAKOVj&, 14.N.; ByKOVA, Ye.A. NZOS A. - t ric materials- .]Iulose and other pol'Ym5 (MIRA 15:12) Solution of ce 1:27-31 160- Trudy LTA no.9 . Kirovae adsk,'y tokstiltnyy institut imen:L 1. joangr (polymers) (cellulose) (solution (chemistrY))  VOLIFI L.A.; ILC U 'OV, L. I. ~, A.I.; Jjrj:jj-IA, Causes of t:,,, yFlIolin-.- of -.riyiol (vinylon) in '.he cou-r3c of its therml 'Urcat .,mt, band means for i-ts nrevell-I lion. Fh--.--.-,rolok. nc.l: 19-21 161. (I'M13A !4: 2) I.LeninLra-7skiy te*.c3t'.Ilqyj in~;tltlat i:-ieni S.M.-Kiro-va. Mnylon)  VOLIF, L.A.; MEOS, A.I.; INKINA, S.A. Modified method for the complexonometric determination of components in precipitation baths. Khtm.volok. no.3:33-35 '61. (MIRA 14:6) ,_y institut iment S.M.Kirova. 1. Leningradskiy tekstilln-v (Viscose) (Complex ions)  MEGSP A.I.; VOLIF, L.A.; VERESHCHAK, L.P. Action of salt solutions on freshly formed polyvinyl alcohol fibers. Khim.volok. no.5:21-23 161. (MIRA 14:10) 1. Leningradskiy tekstilinyy institut im. S.M.Kirova. (Textile fibers, Synthetic) (Vinyl alcohol polymers) (salts)  S/163 61/000/006/002/002 B1 YB1 10 AUTHORS: Tseytlina, L. A,, Meos, A~ I,, Vollf, L, A. TITLE. Production cf flameproof polyvinyl alcohol fibers and fabrics PERIODICAL: Khimicheskiye volokna, no.. 6, 1961, 22-24 TEXT: The authors report on attempts to produce flameproof textiles by direct phosphorylation of polyvinyl alcohol fibers or fabrics with POC137 The fiber was heated in air at 2100C for 5 min, and then treated at 700C for 40 min in a bath of 4% HCOH, 2V1. H2S0 49 and 25% Na2SO 4' After rinsing anddrying, there followed a 3-hr treatment in a bath of POC13 dissolved in CHCli, then repeated rinsing with ethRnol, the last one with 5% ethanolic solu ion of NH3' The P content of the fiber, after its decomposition in concentrated H2SO 49 was determined by the molybdate method according to W. A~ Pons et al. (see below). The P content could be changed by changing the concentration of POC1 3" The P content of the fiber was found to increase rapidly up to about 5.3% with an increase of the POC1 concentra- tion from 0.5 to 2%. Further increase of the POC1 3 concentration up to Card 1/3  3/183/61/000/006/002/002 Production of flameproof B101/B110 25% caused only an additional increase of the P content of --.he fiber by about 1%. Data on fibers with different P content: (1) 1,94% P, breaking length 16.1 km, elongation 43%, burns for 1 sec after removing the igniting flame and is then extinguished without smoldering; (2) 6.02% P, breaking length 14..7 km, elongation 67%, does not burn nor smolder; (3) polyvinyl alcohol fabric vinol treated with 10% POC13 solutions P content 4.23%, does not burn nor smolder. With increasing P content, the fabrics change color until they get brown. P must be present in the fiber salt or acid ester, in order to have a flameproofing effect as NR 4 Treatment with hard water leads to the formation of Ca and Na phosphates, whereby the flameproof property gets lost. which can be restored by treatment with 5% NH 4Cl solution Replacement of CHCI 3 by CH2Cl 2' rinsing with H20 instead of C 2H5OH, and shortening the duration of phosphorylation also produced positive results There are I fig-are, 1 table, and 10 refer- ences, I Soviet and 9 non-Soviet. The four most recent references to English-language publications read as follows, G L Drake, jr.., T- A- Reeve, J,, D. Guthrie. Text, Res, J., 22, 270 (1959); S_ R Hobart, G L Drake, jr., J, D, Guthrie, Text,. Res. J,, 29, 844 \'1959); J C_ Daul, Card 2/3  3/183/61/000/006/002/002 Production of flameproof ... B101/B110 J. D. Reid, R. M. Reinhardt, Ind. Eng, Chem., A-6, 1042 (1954); W A Pons, jr., M. F. Stansbury, C. L. Roffpauir, J. Assoc. Offic, Agr, Chemist, 369 492 (1953), ASSOCIATION: LTI im~ 3~ M. Kirova (LTI imeni S, M. Kirov) - Card 3/3  VFYDEMAN, Ye.B.; MEOS, A.I. Means for reducing the amount of hydrogen --ulfide liberated in the action of spinning bath on visco5e. Khim.volok. no.6:39-41 61. (MIRA 14: 12) 1. Leningradskiy tekstillnyy institut imeni S.M.Kirova. (Hydrogen sulfide) (Viscose)  HZOS, A.I., VISHNTAKOVA, M.N. Elsetron-Acrescoge study of the supermolecular structure of some chemical fibers* Report presented at the 13th Conference on High~-aolecular compounds Moscow, 8-11 Oct 62  AFANASIYZVA, G.F., MM, A.I., VOLIF, L.A. Metbod of producing high-strength polyvinyl alcohol fibers. Report presented at the 13th Gonference on high-molecular compounds Moscow, 8-U Oct 62  IC-05, AleYsandr IyAno-vich; AOSKIN, Ye.S., red.; FREGER, D.P., red. ----J-za-va; BdOGUROVA, I.A., tekhn. red. (Properties and use of synthetic fibers]Svoistva i primenenie sinteticbeskikh volokon. Leningrad, 1962. 26 p. (Leningrad- skii don nauchno-tekhnicheakoi propagandy. Obman peredovym opytom. Seriia: SintGticheskie materialy, na.6) (KRA 15:12) (Textile fibers, Synthetic)  VEYDEMAII, Ye.B.; IEOS, A.I. Effect of sodium sulfite on UG reaction of carbon disulfide with alIkali. Izv.vys.ucheb.zav.;khim.i khim.tekh. 5 no.3:477-479 162. (MIRA 15:7) 1. LLninEradskiy tekstilInyy inititut imeni S.M. Kirova, kafedra teldinologii klaimicheskikh volokon. (Carbon disulfide) (Alkalies) (Sodium sulfite)  TATIEVOSYAN, Ye.L.; MAKAROVA, T.P.; ISCS A.I -, '7 Effect of the conditions of mercerization and of cellulose quality on filterabiLity during continuous mercerlzation. Khim-volok. no.100-33 163. (MIRA 16:2) 1. Leningradskiy filial Vsesoyuznogo nauchno-jealedovatellskogo instituta iskusstvennego-volokna (for Tatevoorm Makarova). 2. Leningradeki. tekatillnyy institut, (for Meosj. t on (F*ters and filtration) (Merceriza i 1~ (Cellulose)  MROS, A.I.; VOLIF, L.A.; AFAIMSIYEVA, G.N. %w type of insoluble fibers made from polyvinyl alcohol. Khim. volok. no.3:18-20 163. (MMA 16:7) 1. Uningradskiy tekstilInyy institut. (Textile fibersy Synthetic) (Polyvinyl alcohol)  AFANAS'YEVA, G.N.; VOL'F. L.A.; RBACHEVA, V.O.; MIKHAYLOV, N.V.; ~1_ MILIKOVA, L.P. Thermoplasticization stretching of polyvi-nyl alcohol fibers. Khim. volok. no.5.-16-19 163. (MIRA 16~10) 1. Leningradskiy tekstillnyy institut imeni S.M. Kirova (for Afanas"yeva, Vollf, Meos). 2. Vsesoyuznyy nauchno-issledovatellskiy institut isk-usstvennogo volokna (for Gorbacheva, Mikhaylov, (Millkova).  L 184o8-63 EWP(J)/EW(m)/BDS AFFTC/9D Pc-4 FH/hAY ACCESSION NR: AP3006186 3/0080/63/036/007/1587/1591 6-5- AUTHORS: Afanaslyeva; G. N. Vollf, -L. A.; Moos, A., 1.; (12 Slutsker, A, I.,- FrenkePj S. Ya-. : - TITLE: Analysis of the orientation of highly-ordered regions i strengthened fibers prepared from polyvinyl alcohol.j~p SOURCE-. Zhurnal prikladnoy kh1mii., v. 36., no. 7., 1963., 1587-1591 TOPIC TAGS: high-temperature extrusion, plasties, X-ray diffraction ABSTRACT: Authors studied the orientation of hardened fibers and compared the obtained results with freshly prepared and untreated fibers. They hoped by this to either prove or disprove the effect of hydrogen bonding and the orientation on the rigidity and solubi- lity of these fibers in water which were prepared from polyvinyl alcohol. The orientat-ion of highly aligned crystallites were evalu- ated by X-ray diffraction by both a photographic method and ioniza- tion registration method. It was shown that the analyzed polyvinyl alcohol fibers are highly crystalline and that the crystallites are Card 1/2  L 18408-63 .3 ACCESSION NR: AP3006186 oriented around the fiber axis or C-axis of its elemental cells. Thus, the results of X-ray diffraction analysis showed thatq during thermoplastication stretching, some structural changes take place, resulting in a considerable increase of arystallite orienbation as well as of rigidity. Orig. art. has: 1 table and 4 figures. ASSOCIATION: Leningradskly tekstillny*y institut imeni S. M. Kirova (Leningrad textile institute),, Institut vy*sokomolekulyarny*kh soy- edl_nenl~y-, AN, SSSR tInstitute of high-molecular compounds AS, SSSR) Lenineradskiy fiziko-tek MeMskly rnls-Mut imeni A. F. Ioffe, AN, SSSR-Uteningrad physics-engineering institute) SUBMITTED: 19Dec62 DATE ACQ: 25SeP63 ENCL: 00 SUB CODE: CH, MA NO REF SOV: 004 OTHER: 002 Card 2/2  BUDYLOV, A.V.; VOLIF. MAKAROVA, T.P.; SHEFZOV, N.K. Studying the kinetics of the formation of the structure of polyvinyl alcohol fibers. Khim. volok. no.2:24-27 164. (MIRA 17:5) 1. LITUP im. S.M. Kirova (for Budylov, Vollf, Meos). 2. Leningradskiy filial Vsesoyuznogo nauchno-issledovatell- skogo instituta iskusstvennogo volokna (for Makarova). 3. Leningradskiy zavod iskusstvennogo volokna (for Shemkov).  f ACCESSION NR: AP4027716 S/0183/64/000/002/0043/0048 AUTHORS:.Meos, A.I.; Vishnyakova, MeNs; Dumitrin, Me TITLE: The action of modifiers in forming supermolecular structures of viscose fibers SOURCE: Khimicheskiye volokna, no. 2, 1964, 43-48 TOPIC TAGS: viscose f iber, formation, supermolecular structure, modifier, cyclohexylamine, polyethyleneglycolg hydroxyethylated amine, zinc.sulfate, mechanism, electron microscope, production condition, tire cord, fiber uniformity, fiber strength, pH control, structure forming zone, buffer, cellulose.xanthate ABSTRACT: The structures of viscose fibers obtained by adding modifiers (cyclohexylamine, polyethyleneglycol and hydroxyethylated amines to tho viscose were examined with an electron microscope in.order to determine conditions most suitable for the production of uniform tire cord. A mechanism for the action of the modifiers is proposed. The structure of fibers which were most uniform were produced from viscose containing modifiers and an increased zinc Card 1/3  ACCESSION NR: AP4027716 sulfate content and had low acidity in the settling bath; these structural elements were well formed and have smaller and more uni- form diameters than fibers formed under other conditions. The proposed mechanism for the action of modifiers is that they help 'maintain the proper pH in the active structure-forming zone, forming onium compounds in an acid medium and destroying them in alkali. In the settling bath the zinc also acts as a buffer. T)-e modifier acts as buffer on the surface and zinc acts on the internal half of the active structure forming zone. Besides acting as buffer, the modifier changes the solubility of the cellulose xanthate, forming an ample number of centers for the formation of structural element3 which in turn leads to the formation of small diameter structural elements. It is concluded that the well-formed sections of macro- molecules indicate that zinc xanthate is not formed in the structure- forming process; the zinc sulfate neutralizes the caustic in the viscose jets. Increasing the acidity of the settling bath acceler- ates the viscose fiber forminteprocesses to such an extent that the r buff 'n, mtion of the molac ,,1nd.j1U.ar&9un R!ed and.th sty'W' 6 -orming zone Y.FPS Raft vrfaurea c ur y and 7 equatiOnso Card 2/3  AqCESSION NR: AP4027716 APSOCIATION: LITLP im. S. M. Korova (Leningrad Institute for the SUBMITTED: 28May63 SUB CODE: Ml- 3/3 cord DATE ACQ: 22Apr64 ENCL: 00 NR REF SOV: 007 OrHER: 005  ACCESSION 1hts AP4015058 3/002(2/64/000/001/0082/084 !AUTHCRS Volits L- A- (CaAdidats Of chemical sciences); Mass A. 1. (Professor) !TITrz: An antiseptic fiber 53 1 SOLRICE: Priroda#/\p** Is 19649 82-84 TOPIC TAGSj textiles fiber,, fabric,, geraicidep fungicidej, antiseptics Letil~np Biolan, Icdin ABSTRAM New antiseptic fibers - Latilan,, Biolan and rodin have been develop- ed by the special problems laboratory of the Leningradskiy tekstillny*y institut jM, S. M. Kirova (reningrad Textile Institute). rhe method of fi- ber treatment consists in the chemical conding of reagent and fiber, These fi- bers not only are germproof and fungus-proof but also.. for the comparatively small I igroup of microorganism so far investigated# possess germicidal and fungicidal properties otffective practically throughout the life of a finished articlea Es- pecially effective is letilan# created jointly with a group of ccwo~kers froa tba Institut organichaskago sinteza (Institute of Organic Synthesis)# AcadeW Q~  AGCMION NRs 04015058 Sciences' Latvian SSR., headed by Academician S,, A* Gillar, Results are all-arized in Figures 1-4 of the Enclosure* Investigation is continulng to determine the full range of these fibers' antiseptic effectiveness,, as well as any possible aids effect on the humn &W aniawl organism@ Grig., art* has 4 figures, ASSOCIATIONs Laningradsidy takstillny*y institut ime S. Kirov& (LeniWad institut4) sm, o4 SUBMMFsDs 00 DATE AMs O3Xar64 SU,B Coos's 14A, CH NO REF SGVt 000 OTMI 000 -CardL.  T 1z:,-:- tudy df he thert~-__6%1 fibens by'the isometric method rikladnc?y Mimii v. 3.7, no.'. 6, !964 zhurnal p 1349-1355 -'ZOPIGTAC-S-. polyvinylalcohol-fibe _hidh strength fibers isometric test r method, ~thcrmomechtxnical propdrt~,yi-.tlien~~lly--s-I.-abilized fiber,- cord fiber., acatelated .etched fiber, fiber stretchingp Ziber 6hrin kage), elongation, Uberl beat st (:hem-4co-Ily treated fiber, orientation., orientation index ABSTRACN: The physical and technological properties,of high streng' h polyvinyi- _13 -pL 'hem. alcohol- (P18%) fibers obtainit-d b '4. -a Ly acticiz6l stretching at-.temperatUrUS__-_-__ --i-ar the -dortening -temperature wore studied. Tests vere rum on an automatic---. appar-Ltus provided with a highly sensitive comnenn.-tjnC. dynamometer, as described V-A.~ F. ~6d~akov Xv zirov=Vgy dincoometur d1a tomati -ispyftani)a plenok i, volokoa - -4t ispollzovaniyas (Autaaated.dynizimeter for tpestim3-films and fibers L Opj 'efro SM ME  7- S636.617-- _AF 052T -ACCESSION 404 -7 and testing of Its applications), Ix navchn&a- k-onferentsia- IVS.AH SSSR j Tdsts we re run -in air and in inert,,atanosphere at different rates of heating on.freshly fom--d fiber) on co-rd fiber~~on. fiber nubJected to thermal stabilization and.fiber. aceta:Mted vith for-ma-Mehyde. - The heat-lomed stresses in rigidlyfixed samples heated- lat 2 e shova ia fiG. 1i The bw taiiperature au.-ima resiated 2-7 C/Min- ar -hii A, from di7_='_g__ Tt -he, f iber, - the _zh-t_,-xTcratur-, maxima are- -charactee stic - of- the degrea - A of fil-ar orientation-.- The macnitude of the atress at the maximum can serve as an index to the oriented state of the fiber, The hot-otretched fiber has the best eforman- indexes for the degree oj. orientation and also for modulus of elasticity) d tion and other parameterti'detervaining the, performwee of fiberi in a vide tempera- t re iL -u - Tige. The untreated and chemicallt treated fibers do not show sharp maxima. The low. vmLlues -in the fomaldebyde-treated fiber are indicated due to the Aimi ted- si.'L-mcntal mobili:F'y of the truveromole.,culeG botwd to the acatal. bridges; - the #se - at- 225-P.WG is due to the bre, ahLnr~' of thos!a bridges.,- At- a.graaetar rate of heating rz_Nima-aare shifted somn-Xhat towai:yl hig .,hcr The high utreaffth, q i be J -t-c-d to z* shows no defomation when sub -.c _z~ll louts (1.76 at re ilicneas;_-d- temperature until tha 200a-~-_'OC-range, vhore_it-actu0J,)r shrinks, $Arin:mv stops ws the: temperature- approaches -240c )--the saftening-point of tbe Crrd _w' 2/k   FUC110SURE. -AP404P527 nxms low VR. ~Wl t "4 A JU Nt- M "tri f5l) M. Is _e for head'Une, _~ibf~~r in air F -idtb. form -loadiug vr,,a Fiber- I- i ntacted ld' erj~ltuna Otd, be (fraallLy Prevvared) I 3-;Yde~l ;trc",';,t 4 -cOXq U7 r.    liu mm nYi- 7,MIM R* - AP5002429;,~- -,CT ,SSjON-- C A . ~ GC CODE: SUB ~ 14Sap6l D T ENLCi OG V SUBIIIIT E . Pitts Ss -ATD 0 00 OTHER! OOOL 0 pl;r Sov: 13 I T . imm- -A - Ir . . . . . . . . . .  ACGESSION NRI AP4036832 8/0286/64/000/009/0076/0075 AUTHORs Vollft Le Aelgoos, A. 1.1 Inkina, S. A. TITTat A method for producing modified resins and antistatic fiberee Class 391, No. 162314 SqURCRg Byul. izabr. i tovar. znakov, no. 9, 1964, 76 TOPIC TAGSs resin, fiber, artificial fiber, antistatic fiber, modified resin. polyvinyl alcohol# cation,, cation resin, cation exchange resin ABSTRAM This author's certificate introduces a method for producing modified resins and antistatic fibers based on polyvinyl alcohol* In order to give the&. cation exchange properties, the resin and articles made from polyvinyl alcohol are treated with benzaldshyde-2,4-agulfonio said. ASSOCIATIONt none SUBMITTEDs O3Mar6l SUB CODSs /-0//" 9" r Card 1/1 DATE ACQs OZJun" 90 W 8072 000 ENCLt 00 OTHERe 000  -~4 PC (m) 1E..r,0 Q 41 A C CZE S S 101-1 NR* AI?5007177- S/0286/65/000/CO3/0045/004 MIS 1,; vollf, L. Mcos, A. 1,; Shirranskiy,, P. Ye. A LITHO TITLE: :A method for producing-acetalated polyvinyl'fiber.. class~29S No. 167949'-~ _ 'SOURCEE: Byulleten' izobreteniy i- ltavarnykh znakov, no. 3 1965 .45 TOPIC,TAGS: polyvinyl~ fiber -method for producing.acetalated s Cat tif i.cate introduces~a ABSTRAM. This Authorl ' -fibe - tr ohol th -acet, _r by eating fibers frcm p lyvinyl a1c. wi an alating alde--. polyvinyi -, hyde in -an aqueous medkw. :,Ir. ordei to expand e assortment of fibers.based on Poly.vinyl alciobol, benzaldehyde is "used as the acetalating aldehyde. 1ASSOCIATION.-I ne _ p 7. SUBMTTED: 257ebC-3 ~NCL- 00' SUB CODE-_ MT OURER: 000 000 - Z j~- : caid - 1/1   --65 ACCESSION A11047063, 64 -ATD PRESSt 'UBMITTEDI 31itin We, - 0 00 -1101 REY XT - .00, CODE%, ''ca Sri - 14 t ,  7- /5 17' Identiried: Und-Ir thf, il-mebion of Ioctnr of tenhnic,-! sciencem, ProP. the scientists of the institlita (Inst of TeAile an,' Tjj-~It Tn,l rrimrl al cohol f r Yirov) hrive nrorbiced, nn a base of no!- p having rinlible the qtmngth -f stee' wire. (T eningradsk'aya Prav,4a, 2(, ~,TOV 63) Sr)%JP"iS: 2-1,340, Fpbmiar7f 1",614, UF)T'l Tndustn.al nev~ln-rm-nt 4111~~!  vEyDZW, Ye.B.; BYKOVA, Ye.A.; MEOS, A.I. Effect of sodi= sulfite am viacose property chan ea during ripening. Khim. volok. no.3:32-34 164. fHIRA 17:8) 4 1. Leningradskiy institut tekstillnoy i legkoy prouqshlennosti im. 3.M. Kirova.  POLYAK, A.B.; TATEVOSYAN, Ye.L.; KI]PTSAN, N.A.; PFOS, A.I. rianges in the conf ormat-Jon o f ce 11 -1-- se links cccurrir-g duri rg mercerization and pre-riping. Knim. vol-;k. no.41l'-41 '64. (MIRA 18W 1. Lasoteklinicheskaya akademiya im. S.M.Kirova (for Polyak). 2. -renirigradskiy filial Vsesoyuznogo nauchno-issledovatellskogo instituta iskusstvenncyo volokna (for Tatevosyan, Kuptsa-n). 3. Leningradskiy in3titut tekstiltnoy i legkoy promyshlennosti im. 3.M.Kirova (for Meas).  VOLIF, L.A.k._MEGS, A.I.; PFUREPELKIN, K.Ys.; UTEVSKIY, L.Ye. Studying the thermom9chanical properties of extra-3trong Polyvinyl alcohol fibers Ln water. Izv.vys.ucheb.zav.; takh.tekst.prom. no-5-11- 15 164. (MIRA 18.1) 1. 1--ningradskiy institut tekstlllnoy i legkoy pr:)myshlennosti imeni S.M.Kirova.  TATFVOSYI-'~N, Y~,.[,.; MV~VOTVAI T.P.; KUPTSAN, N.A.; ML06, Fffec~. ,-.f Lhe conditions of the continuous basIc -,f cellulose on the rate of its oxidatilve de~-radaLion. 'Aim. vc-lok. no.~--:-,3-36 164. 1. Leningradskiy filial Vsesoyuznogo nauchno-issledovatellskogc institute. iskusstvennogo volokna (for Tatevesyan, Makarova, Kuptsan'). -. L--ningradskiy tekstillnyy institut imeni KirovB (for Me-os). ~ 2  IIIEOS .11 1. doktor tekhn. nauk; V(-L' I k., k~ind. kh-r.. nauk; I I ~ I L - LEEPUI, k.E., red. [New synthetic fibers; production of fibers from polyvirrjl alcohol] Novye sinteticheskie volokna; pro-4zvodstvo vo- lokon iz polivirilovogo st,irtn. Lenin:-rad, Leni-A.A,1~,65. 50 P. le:q)  VEYDEMAN, Ye.B.; HEOS, A.I. Formation of sulfides in the reaction of carbon disulfide with the bases. KhIm. volok. no.2:34-36 165. (MIRA 18:6) 1. Leningradakiy institut takstillnoy i legkoy pronqahlennosti Im. S.M. Kirova.  r proir. nc.)  P ~, - - VOL'F2 L.A.~ *,'OSO A.I. TSnTLINA 14 A., YANOV5KAYA, N.B., 9 Phosphorylation of polyvAnyl alcohol fj-',vrs "vinol" in the presence of tertiary bases. Khim. volok. no.4.16-19 165. (MIRA 1818) 1. Loningradskly inst-f-Itut tekstillnoy I legkoy promyshlennosti J Lim. 8.M. Kirova.    TATEVOSYANr KNK?LROVA, T~P., MEW Ilk, i. CharaaLerist~,75 of' alkali r-eilulo.3-a- prepared ltrf the continuous Kh~,m. volok. no.4,26-2--, 165. Omnu 18a8) 1. I-arlingradskiy fillal V-es-oyuznog--i naur-,Iino,=iseledovat,31'skagc- ~ekusstxennogo volokna ', L-eningradsky tekgtlllnyy 0 L A ns-'-Itij-. im. S.M. Kirova.    anci me a -64C V'a  '.A. ~ !t V01".1", :--- . I . '. I I I , ;,. . .1, (,f thc r, cif I - .4 1 .1 .. - . . -1 flttr-i of 1.rciattrv~jnt of jjol7jlrill,eL i -., - prlkl. kh-'ta. 3? Je `64, !-~--.tho "-~ Prclcl~21 11 - ' - . by a-ldioehy'--~. Zhur. ~M-IlVi 18:3)    EVJT(b)'/EWP(i)A RM ACC NR----- '~.~-APW068,6 SOURCE CODE; UP-/0080/65/038/009/2091/2096 41Y -Yu. I me O~Yu. Ko; osp A. AUTHOR: Jcirilen!Eo: A ORG: Leningrad-Institute:'for the Textile and Light. lrndustry Its 3, No te, til -no I--- Kirov,(Leningradskiy Institu legkoy omyablennosti) TITLE: D6bydratlon ~of po eAn the lyvinyl alcohol fibers and modification dione,sections-of the cbelri SOURCF:~ Zburnal priklednoy khlmii,. v- A no. 9. 1965y 2091-2096 TOPIC TAGS:- po17vin*],: alcohol synthetic fiber,, dehydration,, block copolymert diand~,syntbesiaj,,,.Lon-i3xchange resin ABSTRAWb. The possibility of-debydj?dti,ng-polyvi.nlyl~alcohoI (PVA) fibers- to.increas tb6ir~m'is' resistance.witbout destroying their physical- a 0 Gure medbanleal.-Oroperties.wa.3 Investigateds and allso-the-Possibility.of mod- ifyingtbe-deb ated PVA fibers b Dehydration ydr y graft pol7merizations ~~.Of'drientad'PVA was~attemotad.by heating In n1trogren.to 2200C, In dilute. adipic,, Malsia,or bori(s. Etqld.to 180% aIM jn -air ~td_'2200.' Dehydration was not'effected.in,tbe first_two~medta.,' Heat treatment in air for-5 n re, du'oed,-- -01 'and - sift m i~ the [-group content by 5-7. m63,%,,, , e.r. 40 min bY 30 40 M61%. This -increased the moisture resistance but reatly reduced fiber strength* Treatment of PVA fibers in -inert madiaL Malkane, toluene# lma!: *2 936-+547,361-2+~4_1-126:   BUR ~!,'S 11 Ff 'vo!,IF, L.A.,? A.!. x c ,i po r~er. t, i a 1,~ -.anw g f 1>1 r M: r'? A 12' -2604 11 ;,t, r, i ngrad s ~iy i r,,, i -,u t to k E3 t 11 n oy 1 8 9 k07 pr OMT eh-le nnoB t--* i..,r.JF,n I S . M. KI rc vL, . 3 1) timi t .'1-i 17 o , '11 ") 6  L 42034-66 DIT(m)/9411(j) "I' IJP(c) _ _1*1/ftM ACC NR- AP6011223 (A) SOURCE CODE: UR/0413/66/000/006/0060/0060 INVENTOR: Meos, A. I.; Vol' f, L. A.; Kirilenko, Yu. K.; Girdyuk, V. V. ORG: none Class 29, No. 179877 TITLE: Method of chemical processing of polyvinyl alcohol., SOURCE: Izobreteniya, promyshlennyye obraztsy, tovarnyye znaki, no. 6, 1966, 60 TOPIC TAGS: polyvinyl alcohol, monomer, acrylonitrile, chemical treatment ABSTRACT: An Author Certificate has been issued for a method of chemical processing of polyvinyl alcohol. To impart new properties such as a light resistance, dehydrated polyvinyl alcohol and its byproducts are treated with dienophilic mono- mers such as an acrylonitrile.1 [Translation) [NT1 SUB CODE: 07/ SUBM DATE- 120ct64/ 1/1 af UDIC: 677. 494. 744. 72:677. 864. 512. 15:547. 339. 211  &FW r Z1J!40_a_ zwrMl 'ly"Wilf W-ft WAR t'r(J009562 souRcE CODE: uR/o4l3/66/000/005/0154/015, I~NVFMR: ~A. I.; Vollf. L. A.; f~iri~enbc!. Y~L_ _K. ORG: none, TITLE: Method for the chemical treatment of poly(vinyl alcohol). Class 29, No-173816! SOURCE: Iz6breten' no. 5, 1966, 154 iya, promyshlennyye obraztsy, tovarnyye znaki, TOPIC TAGS: organic semiconductor, semiconducting polymer, polyvinyl alcohol, heat resistant polymer..water resistant polymer ABSTRACT: An Author'Certificate has been issued for a chemical treatment method for ':-.poly(v1nyl,alcohol) and end-products from it, involyfing dehydration on heating fn an inert.medium-To impart water- -and heat-resistanceW.and semiconducting0and-other special properties to the poly(vinyl alcoholT end-products., dehydration is carried out in a bolling:solvent with acid salts of alkali m4tals or benzenesulfonic acid'. NMI SUB-CODE., 11, 201 SUBM DATE: 23Jun64/ ATD PRESS: Card   IT IJP(C) 194P(J) MJIRM (A) SOUR.CS CODEs UR/0060/66/039/002/0388/0393 AIRROR: Kiseley. G. A.; Vollf, L. A.; Rees, As lo ORG: ingrad Institute of Textile and U ht Itidustry Imeni S* H. Kirov (fAningrad- J!T~ ___ skiy institut tekstilluoy I ]Legkoy promychlennosti) TITLE4~,,,Inflawabl inyl alcohol fiber! 'based on the reaction of PVA with di- Oie~thj*161'Urea and tetramet~zlal Phosphomus chloride it's SOMCE: ZhuA&1,,pr1kladnoy khtmil, v. 39, no. 2t 1966, 388-393 Q, fire. malptant material C#er?l I e4- '4~?_tC TAM i ny 1 inthc% d.-fibart lyVi AD TRACt:' polyvinyl alcohol fiber to produced by an initial crosslInk- i_; with HO-CH24H;-d"1(11~d~Z-Olq (I) and subsequent reaction with (HOCHk)4PCI (10- W is,,'prepared by a. 66Mensat'loo1k,"action of ureafformaldehyde in a molar ratio of 1-2.5' -in~jteutral or slightly alkal"A '*I.ution at 60-4010C. In the eoterification reaction PVA M* t- ~r and (1). Is placed"In a solution of (1) and kept at 701)C f(*-130 min. T6'kiber Is the 4~ (5000 rpm) for 5 min and aubsequently heat- ed,;,'dt 155-1600C fim 8-10 min. ~, Thr'_,,extent of centrifugation affecta the degree of ea- terification of ~4e fiber. rt-was FcAsna that the greater the extent of centrifugation, 4 0 tw snaller the degr4e of esterification The resulting eater bonds we-stable at pH 6-12 but me unstable in acid soluttlan , breaking d(r4n at pH equal to 3. In the X 001 UDCs 547.361.2-126 -Cori 1/2  W~E_Nft' AP6008273 second reaction, the esterified fiber Is saturated with an qqueous solution of 10 wt of (H) aAid triethanolamine (to sustain a neutral solution) at 700C for 30 min. The fib?r is then washed and dried in air (13000 for 30 min. Analydn! 'ate made for nitro- gen~ hydroxyl, group, and phosphorous content of the fiber. The cros3linked fiber is found to be stable In boiling water and other reagents. Containing at least 2 wt fT horous, it Is found to be inflammable. On the basis of the analyticitl data, 80% ph 0 a resulting fiber Is thought to be doubly bonded to two nitrogen atoms ats in the fir fomula aboveg vhile 20% appears to be triply bonded as in the second formula. Orig. art. hast 3 figures, I table. SM C01DE I U/ SUBM DATEt OlDec64/ ORIG IMF: 007/ OTH REr.- 003 2/2 &f  ACC NR: AP6011017 SOUPCF CODE: UR/0080/66/039/003/05614/0668 AUTHOR: P91yanskava, V. 1. N-eos. A. 1. ; V,)~' f, L. it. ORG: LenInUad lnsfltut#~ of the Textile 11 -Lighl In g5try i ni S. M. Kirov (Leningradskiy institut tekstil'noy i legkoy promyshlemosti) TITLE: Study of esterif ication nf polyvinyl alcohol f iber with titanium- tetrachlo-; ride SOURCE: Zhurnal priklacbioy khim.i-;, v. 39, no. 3, 1966, 664-660 TOPIC TAGS: polvvinyl alcohol, tivanium compound, synthetic fiber L144C4,901- ABSTRACT: The article descr-jbrs the !~q_te_rpr2ofLng,polyviny1 alcohol (PVA) fiber with titanium tetrachlnr~de and ~ix;imines the properties of titanium-containing fibers. Esterificaticn of PVA fiher3 with TiClt, is represented as follo-q: "jC'4 4- 1"1() TIOC12 + 211GI, Card 1/3 UDC: - 66.09S.13 + 547.361.2-126  ACC NR: AP601101-7 Ti=O - CI/ C11-0 I C11, + 211CI, iThis may be associated with cross-linking between chains: oil off ">Tf