SCIENTIFIC ABSTRACT BARG, E. I. - BARGIEL, E.

USSR/Chemistry - PlasticB Aug 52 "The Effect cif Strain on the Vitrifi,-~ktlon. Tempera- ture of Polymers," E. I~ Baxg. N~ N. Mel-teva, and. D. M. Spl.tkovskiy, irst of High-Mol Compds Acad Sci 'USSR "DAN SSSR" Vol 85, No 5, pp j,061-1064 The vitrification temp (the temp at which vitrified plastic becomes viscoelastic) of polystyrene, poly- vinyl acetate, and pollyvinyl butyral was stud! ed with respect to its change at va;ying loads of strain. Tt was found that there is a linear rela- tionship bet the vitrification temp and the strain. Submitted by Acad A. F. Ioffe 16 May 52. 239T20  BABG J. ALe ~ta, DoMay Mad. Muki __UXA W -Ltnn of the rate of deformation Ut comt. load Us temps. 0 sptomc at vario f 'ns of polyvinyl a1c. (1) forruu lated with 10% glycerol, polyvinyl acetate. polyvinyl buty W, po',-styrcne, and pure I indicates that the much. be haAor of I can be rxplained most simply on the a~sumlption Ab s U -nt, Mal in 1. along with the fundmme Ally amorphous stran turv e exist -mall areas nf cryst. phase. M. 1M--50% Nos on temp. and the itmparul conditionst,f stretch ing I obtained by acidic and alk, _bydrolysh of polyp Ayi.- 25 P '1954 via a=tate was also examd. After an hdtiiJ straisht laical Chal1i"tVY tine relation bLtwee-n rat of d0ormation and temp., thure C occurs at about M' (T. for ibis polym.-r) a zigzag cuv;- wh" indicates ahcroating accclet~ion and roardatiou of strach, ud only at 10()--20' does the curve bccomeasaill substantially straight and %,cry steer.. In r'64%ation of de~, fomaticn I diffm from amorphous polymas in tbat It has MIdual deform"tion of 11ca0y (30%, whereas thu- anlorphous I mtr3 hud zero reiidual dtfonnation. This rc,,iduc re~, t rlmd tvcn after licating to 150-60, 1 -t - near dmtr='~ ttrap. Kosplapoff  PHASE X TREASURE ISLAND BIBLIOGRAPHICAL REPORT AID 770 - X BOOK Call No.: AF654374 Author: BARG., E. I. Full TitT`eT_tXM01;OGY OF SYNTHETIC PLASTICS Transliterated Title: Tekhnologiya sinteticheskikh plasti- cheskikh mass PUBLISHING DATA Originating Agency: None Publishing House: State Scientific and Technical Publishing House of Chemical Literature (Goskhimizdat) -Date: 1954 No. pp.: 656 No. of copies: 8,000 Editorial Staff: Editor: Tishakov, S. N., Prof. Corr. Mem., Acad. of Sci., USSR. Chapter XIII is written by A. A. Vasillyev, Kand. Chem. Sci. PURPOSE AND EVALUATION: This book is intended as a manual for engineers and technicians in the plastics industry and allied fields. It can also serve as a textbook for students in schools of advanced chemical and technical studies. The book is interesting because it is based on the work of Soviet scientists. The newest investigations and inventions in the field of synthetic plastics In the USSR are discussed, and the names of the scientists are given. 1/20  Tekhnologiya sinteticheskikh plasticheskikh mass AID 770 - X TEXT DATA Coverage: The book deals with the chemistry and technology of synthetic plastics. It contains detailed characteristics of raw materials and descriptions of methods used for obtaining them. Processing techniques, equipment and flow sheets are discussed, as well as the uses of various plastics and resins. Types and mechanisms of polymerization are discussed, and the relationship between the various properties and the physical and chemical structure of plastics and resins is presented. Table of Contents (Annotated) Pages Foreword 9-10 The instructions of the 19th Party Congress provide for the industrial development of plastics and syn- thetic materials as substitutes for nonferrous metals in the Five-Year-Plan, 1951-1955. Importance of syn- thetic plastics. Introduction 11-25 Historical outline. Many Russian scientists as well as their inventions and achievements in the field of plastics are mentioned (For Soviet sci- entists see p. 16). S. N. Ushakov, who worked out 2/20  Tekhnologiya sinteticheskikh plasticheslcikh mass AID 770 - X Pages new techniques and materials in the field of vinyl plastics, cellulooe derivatives, phenolic plastics, etc.; G. S. Petrovwho invented car- bolite, the first synthetic plastic, in 1912, investigated the field of phenolic plastics and polyconden3ation resins; K. A. Andrianov, who studied organic silicon compounds; S. S. Medvedev, A. A. Vansheydt, V. V. Korshak, I. P. Losev, B. N. Rutovskiy, Z. A. Rogovin, and others, who published extensive theoretical works on the chemical structure of polymers and polymerization and on polycondensation processes; P. P. Kobeko, A. F. Aleksandrov and V. A. Kargin, who contributed to the development of the new science of the physics of polymers. Basic technical properties, advantages and defects of plastics. Use of plastJ.cs in various industries.. PART ONE - THEORETICAL PRINCIPLES OF THE TECHNOLOGY OF PLASTICS. TERMINOLOGY AND CLASSIFICATION. Ch. I Chemical Principles of the Technology of Plastics 26-69 3/20  Tekhnologiya sinteticheskikh plasticheskikh mass AID 770 - X Pages General characteristic of resins. Formation of syn- thetic resins by polymerization and polycondensation. Stepwise polymerization. A. M. Butlerov (P. 31). Chain polymerization. N. N. Semenov's theory of kinetic chain reactions (P. 33). Radical (initiated) chaln polymerization, S. S. Medvedev (P. 35), V. V. Korshak (p. 41). Studies of D. A. Dogadkin and A. L. Klebanskiy on initiators and inhibitors (p. 42). Catalytic polymerization; S. S. Medvedev's and M. F. Shostakovskiy's investigations(p. 45). Studies of copolymerization processes by V. A. Solonina (1887), I. L. Kondakov (1912), and other Russian and Soviet scientists, e.g.: I. I. Ostromyslenakly, B. N. Rutovskly, S. S. Medvedev, S. N. Ushakov, A. A. Vansheydt (p. 46). Studies of polycondensation processes by V. V. Korshak and S. R. Rafikov (p. 65). 2 tables, 10 diagrs. Ch. II Physical Principles of the Technology of Plastics 70-146 Elastic and plastic deformation. Significance of the relaxation effect for low-molecular substances. 4/20  Tekhnologiya sinteticheskikh plasticheskikh mass AID 770 - X Pages Amorphous state. B. L. Blyumberg's conceptions on the energy of' amorphous and crystalline molecules (p. 84). Vitrification point and plasticity range of low-molecular resins. High-elastic deformation and its theory. S. Ye. Bresler's and Ya. I. Frenkel's arguments against the 1~inetic theory (p. 96). M. V. Vollkenshteyn's theory of linear polymers (P. 97-98). The author's attainment of reversible elongations which surplass the theoretical maximum dimensions, as an evidence of the maximum flexibility of polymer chains (p. 100). Basic regularity of high-molecular deformation as a result of their relaxation property established by P. P Kobeko, A. P. Aleksandrov, V. A. Kargin and others (P. i03). Vitrification and fragility temperatures of linear polymers. Intermolecular forces and phase struc- ture of polymers. Special features of the crystalline state of polymers. Theoretical and technical strength of plastics. P. P. Kobeko's conceptions (p. 121). A. F. Ioffels, A. P. Aleksandrov~s, S. N. Zhurkov's theory and experiments (p. 123-1 5 . Dependence of the technical strength of plastics on their structure. 5/20  Tekhnologiya sinteticheskikh plasticheskikh mass AID 770 - X Pages N. V. Mikhaylov's and V. A. Kargin's studies (p. 129). Theory of the strengthening effect of fillers on rubber- like polymers of Acad. P. A. Rebinder and collaborators (p. 133-134). Plasticization of polymers. Zhurkov's investigations of the mechanism of plasticization (P. 138-140). Bar and N. N. Mellteva's studies of plasticizers (p. IN. Investigations of other Soviet scientists, e.g., Kargin, Kobeko (p. Vio-141), Mechanical plasticization (orientation of polymers). 9 tables. 59 diagrs. Ch. III Terminology and Classification of Plastics 147-158 Soviet standard: "Classification, Terminology and Types of Plastics" ST 27 ), based on the author's ~ G OEM F UTZ5) draft, approved in 1937, and according to the author, the first standard in the world in this field. New classification and terminology of plastics worked out by the author and A. S. Faynshteyn, and approved in 1951 as a new All-Union State Standard: "Plastics of Organic Ori in. Classification, Srifications and Trade Names" TGOST 5752-51), (p. 147 - Explanation 6/20  Tekhnologiya sinteticheskilch plasticheskikh mass AID 770 - X Pages of composition of names of Soviet plastic materials. Principles on which classifications of plastics are based. Classification according to GOST 5752-51, presented In abbreviated form on Table 14, p. 155- 158. PART TWO - PLASTICS BASED ON SYNTHETIC RESINS OBTAINED BY CHAIN POLYMERIZATION Ch. IV Polymerization Processes 159-174 Technical methods of polymerization. Activating effect of regenerating agents in radical polymerization proc- esses, demonstrated by Ye. M. Chilina and S. S. Medvedev in 1950, (P. 167), Theory of emulsion polymerization. A. P. Yurzhenko's conceptions (P. 173). P. M. Khomikov- skiy's investigations (P. 174). Table, 7 diagrs. Ch. V Plastics Based on Polymers of Unsaturated Hydrocarbons 175-230 Plastics based on polyethylene (ethylene plastics). G. G. Gustavson, first Russian scientist to obtain polymers of ethylene, 18811 (P. 175). Ye. I. Orlov's reaction and other methods for obtaining polyethylene (P. 175) and its structure, properties and use. 7/ 20  Tekhnologiya sintetichesk.4kh plasticheskikh mass AID 770 X Pages Plastics based on polyisobutylene (isobutylene plastics). A. M. Butlerov and V. Goryainov's investi- gations published in 1873: S. V. Lebedev's studies of 13obutylene polymerization (p. 185). Further studies of polyisobutylene, its properties, uses and treatment. Copolymers of isobutylene. Plastics based on poly- styrene (styrene plastics). I. I. Ostromyslen3kiyls studies of styrene polymerization (p. 194). Technical methods of obtaining styrene. Methods of Soviet scientists Yu. S. Zallkind, I. P. Berkovich and M. K. Amusin (P. 197), A. A. Vansheydt and V. M. Zelltser (p. 198), N. D. Zelinskiy, Yu. S. Zal'kind (p. 199). Styrene polymerization process and equipment. Copolymers of styrene. Structure and properties of polystyrene. Manufacture and types of polystyrene plastics. Applica- tions. Porous plastics from polystyrene, their properties and use. Polymers of substituted styrenes. S. N. Ushakov's synthesis of o-, m-, and n- chloro-styrenes and studies of their polymerization and the technical properties of poly- mers (p. 225-226). Plastics based on polyvinyl carbazole. Structure, properties, and use of polyvinyl carbazole. 9 tables, 27 diagrs. 8/20  Tekhnologiya sinteticheskikh plasticheskikh mass AID 770 - X Ch. VI Plastics Based on Polymers of Halogen Pages Derivatives of Ethylene 231-269 Plastics based on polyvinyl chloride. I. I. Ostromyslenskly's 1912 publications on vinyl chloride, photopolymerization, etc. Investigations by Soviet scientists P. I. Pavlovich, I. P. Losev, B. N. Rutov- skiy, V. 0. Sedlis, and others (p. 231). Properties, manufacture and polymerization of vinyl chloride. Structure and properties of polyvinyl chloride. Polyvinyl-chloride plastics with and without plastici- zers. Perchloro-vinyl. Copolymers of vinyl chloride and their purpose. Plastics based on polyvinylidene chloride and structure. Properties, manufacture and applications of polyvinylidene-chloride copolymers. Plastics based on polyethylene tetrafluoride. Structure and properties. Manufacture and applications. Plastics based on polyethylene trifluorochloride. 2 tables, 10 diagrs. Ch. VII Plastics Based on the Polymers of Vinyl Alcohol and Its Derivatives 270-316 Polyvinyl alcohol esters. Polyvinyl acetate. Syn- thesis of vinyl acetate by S. N. U3hakov in collabora- 9/20  Telchnologiya sinteticheskikh plasticheskikh mass AID 770 X Pages tion with Yu. M. Faynshteyn, Ye. N. Rostovskiy and I. A. Arbuzova (p. 271). Liquid-phase and vapor- Dhase methods of vinyl acetate manufacture. Kucherov~3 reaction (p. 271). Polymerization. Structure, properties, manufacture and applications of polyvinyl acetate. Copolymers of vinyl acetate. Polyvinyl formate. Liquid-phase synthesis described by Yu. S. Zallkind (p. 286). Vapor-phase method of S. N. Ushakov, I. A. Arbuzova and Ye. N. Rostovskiy (p. 286). Polyvinyl alcohol ethers. A. M. Butlerov's, A. Ye. Favorskiy's, M. F. Shostakovskiy1s, and S. N. Ushakov's reactions (p. 287-292). Copolymers of vinyl ethers. Polyvinyl alcohol, its structure and proper- ties. Studies of its reactions and transformations by S. N. Ushakov and R. K. Gavurina, and S. N. Zhurkov (p. 299-300). Plasticization and applications of poly- vinyl alcohol. Polyvinyl acetals. Manufacture. S. N. Ushakov's methods (P. 307-310). Structure and properties. Industrial polyvinyl acetals: polyvinyl formal, polyvinyl ethanal and polyvinyl butyral. 5 tables, 12 diagrs. 10/20  Tekhnologiya sinteticheskikh plasticheskikh mass AID 770 - X Ch. VIII Plastics Based on Polymers of the Pages Derivatives of Ethylene Carboxylic Acids and on Esters of Unsaturated Alcohols 317-349 Acrylic resins. Esters of acrylic and methacrylic acids. Manufacture. Polymerization methods, Structure of polyacrylic esters. Copolymers of acrylic and methacrylic esters. Properties and ap- plications of polyacr lates. Plastics based on poly- mers of allyl esters Tallyl resins). Synthesis of allyl esters made for the first time in 1855 by the Russian scientist N. N. Zinin. B. N. Rutovskiy's in- vestigations (P. 342-343). 5 tables, 8 diagrs. PART THREE - PLASTICS BASED ON SYNTHETIC RESINS OB- TAINED BY POLYCONDENSATION AND BY STEP- WISE POLYMERIZATION Ch. IX Resins Obtained on the Base of Phenols and Aldehydes (Phenol-Aldehyde Resins) 350-421 Manufacture of Novolak and resol products of con- densation. A. A. Vansheydt's theory of the chemical structure of Novolak resins and resols as based on extensive experimental investigations (P. 354-356). 11/20  Tekhnologiya sinteticheskikh plasticheskikh mass AID 770 - X Pages Phenol-formaldehyde resins. Acid condensation and formation of Novolak resins. Catalysts. Correlation of components. Effect of condensation and drying. A. D. Sokolov and I. P. Mikheyev's experiments (P. 364-367). Effect of urotropine. (G. S. Petrov's investigations, P. 369). Alkali condensation and formation of resol resins. Catalysts. Resol-barytic resins obtained by G. S. Petrov and used in the pro- duction of electrical insulating molded articles (P. 370). Correlation of the components of resol resins and effect of their chemical structure. Phases of alkali condensation, properties and applications of resols. Equipment for Novolak and resol condensation. Preparation of raw-materials. Flow diagrams of various processes. Technological process of the manufacture of Novolak resins for molding powders. Phenol and alde- hyde raw materials. Description of the process. Technological process of the manufacture of hard and emulsion resol resins. Cresol-barytic resins obtained by G. S. Petrov, characterized by higher insulating properties (p. 394). Cazt products of resol condensation. 12/20  Tekhnologiya sinteticheskikh plasticheskilch mass AID 770 - X Bakelites. "Carbolite" plastic developed by G. S, Pages Petrov in 1912 (P. 396). "Noble" resites (Bakelite C). "Neoleykorite", Soviet plastic, developed by S. N. Ushakov and A. D. Sokolov (P. 398). Modified phenol- aldehyde resins for the manufacture of varnishes. Ethers and esters of Novolak resins. The te.chnology of oil-soluble resins (Novolak and resin esters), known in the USSR as "artificial copals", was worked out by S. N. Ushakov and V. M. Zelltser (p. 4M). Alkyl-phenol or 100% phenol resins. Resins based on phenols and formaldehyde substitutes. Phenol-furfural resins. G. S. Petrov's method for obtaining thermosetting (resol) resins (p. 411). Technology of phenol-lignin and Dhenol-wood resins worked out in the 'oviet Union on ~he basis of the investigations of S. N. Ushakov, Ye. N. Freydberg, I. I. Matveyev, I. P. Losev and collaborators (p. 412). Utilization of phenols from tars of low caloric value fuels. S. N. Ushakov's and G. S.Brodskiyls molding powders and laminated plastics (P. 41-17). Con- densation of formaldehyde with polyatomic phenols. 13/20  Tekhnologiya sinteticheskikh plasticheskikh mass AID 770 - X Pages Resorcin resin5; G. S. Petrov's experiments (p.419). The thermosetting of phenol resins. 9 tables, 30 diagrs. Ch. X Non-Laminated Plastics Based on Phenol-Aldehyde Resins (Phenol-Aldehyde Plastics) 422-46o Molding materials. Technical methods for obtaining mold- ing powders (varnish, emulsion and other methods). Novolak and resol molding powders. Rate of molding of Novolak powders dependent on the content of urotrapine. Compo- sition of Novolak molding powders based on wood flour. Roller and worm methods of the manufacture of molding powders. Equipment, flow diagrams. Specifications of molded samples. Molding powders with mineral fillers. Molding materials based on long-fibered fillers, and with cellulose fibers. Phenolic-textolite and phenolic- asbestos compositions. Trademarks of Soviet asbestos resites. Determining the viscosity of molding materials. Faolites. 6 tables, 13 diagra. Ch. XI Laminated Plastics Based on Phenol-Aldehyde Resins (Phenolic Plastics). 461-513 Resins for phenolic laminated plastics. Methods of impregnation of fillers. Types of phenolic laminated 14/20  Tekhnolor,iya sinteticheskikh plasticheskikh mass AID 770 - X Pages plastics. Textolites. Fabrics. Manufacturing methods and equi*ment. Study of the most favorable temperature .P conditions for impregnating machines by A. N. Levin (p. 469). Phenol alcohols used by A. A. Vansheydt, A. A. Va;sil'yev and R. I. Gruz for the impregnation of fibrous -and laminated fillers in the manufacture of laminated plastics (P. 1172). Properties and applications of phenolic laminated plastics. Phenolic laminated molded resites composed of cellulose paper sheets impregnated by bakelite resins; laminated asbestos resites; phenolic asbestos compositions based on asbestos paper and bakelite resins; laminated wood plastics (DSP); bakelite plywood; laminated plastics based on glass fibers and glass fabrics. Properties of the above plastics, methods and equipment of manufacture; applications. 8 tables, 18 diagrs. Ch. XII Plastics Based on Amino-Aldehyde Resins 514-550 Plastics based on urea-formaldehyde and melamine - formaldehyde resins (amino plastics). Structure of the above resins. A. A. Vansheydt's study of meth- ylene urea (P. 517). V. S. Kiselev's investigations 15/20  Tekhnologiya sinteticheskikh plasticheskikh mass AID 770 - X of melamine compounds (p. 520). Methods of the Pages manufacture of amino plastics and improvement of the process by A. A. Vansheydt and Kraus (P. 523). Vansheydt's and Z. I. Naumova's method for the manu- facture of molding powders based on urea-formaldehyde resins and cellulose (P. 526). Description of the process and equipment. Properties and use of molding powders. Laminated urea-formaldehyde molding materials. Urea-formaldehyde resins for varnishes and glues (modi- fied resins). Plastics based on melamine formaldehyde resins. V. S. Kiselev's, M. F. Sorokin's, A. A. Vansheydt's and Z. K. Naumova's investigations (P-539). Plastics based on aniline formaldehyde resins (aniline plastics). Modern investigations of the principles of synthesis and of the structure of aniline-formaldehyde resins, in particular the studies of G. S. Petrov, A. K. Andrianov, I. P. Losev W 545). Methods of obtaining modified melamine resins investigated by V. S. Kiselev (P. 544). Special type of aniline resins obtained by Andrianov (P. 546). Infusible and insoluble polymers obtained by A. M. Nastyukov W 548). Manufacture, properties and applications of aniline-formaldehyde 16/20  Tekhnologiya sinteticheskikh plasticheskikh mass AID 770 - X Pages resins. 2 tables, 6 diagrs. Ch. XIII Ion-Exchange Resins 551-56)1 (This chapter is written by A. A. Vasil'yev). The sorption method of the separation of ions was developed by Ye. N. Gapon, B. P. Nikollskiy, S. Ye. Bresler and others (P. 552). Cation-exchange resins. I. P. Losev'5 and Ye. B. Trostyanskayals concept (p. 556). Soviet ion- exchange resins of the phenolsulfonic cation type and their manufacture (P. 556-559). Anion-exchange resins. Synthesis of the ':amino resin" by F. G. Prokhorov, K. A. Yankovskiy and F. A. Kutkin in 1.038 (P. 561). Soviet brands of anion- exchange resins. Synthesis of ion-exchange resins of selective effect by A. S. Smirnov, V. A. Klyachko and others (P. 562). Latest investigations in the field of synthesis of A. B. Davankov(P. 562-563). Applications of ion-exchange resins. 1 table. Ch. XIV Plastics Based on Polyesters, Polyamides, Polyurethans and Polyurea 565-61o Ester and amide plastics. Basic courses of the rea- ctions of formation of polyester and polyamide resins. A. I. Kogan's, IT. V. Korshak's and S. R. Rafikov's studies of the polycondensation process (P-566-568). 17/20  Tekhnologiya sinteticheskikh plasticheskikh mass AID 770 - X A. Ya. Drinberg's concept of the "molecular function", Pages and his determination of the kinetics of the poly- condensation process and of the characteristics of polymers (P. 574-575). Varnish resins and plastics based on polyester resins. Manufacture of phthalic resins, Various types of phthalic resins. Maleic resins. Maleic anhydride used in the manufacture of varnishes. Polyesters based on linear dibasic acids. Synthesis of pentaerythritol resins developed by A. Ya. Drinberg and V. S. Kiselev (P. 588-589). Applications of polyester resins. Plastics based on synthetic poly- amides (amidoplastics),work in this field of V. V. Korshak, 1. L. Knunyants, Z. A. Rogovin (P. 591). Polyamides obtained by polycondensation of diamines with dicarboxylic acids. Polyamides obtained by polymerization of cyclic lactides of F,-amino acids. Z. A. Rogovin's formula (P. 597). Properties and treatment of polyamides. Plastics based on poly- urethans and polyurea. Properties, manufacture, applications. 5 tables, 17 diagrs. 18/20  Tekhnologiya sinteticheskikh plasticheskikh mass AID 770 - X Pages Ch. XV Plastics Based on Organosilicon Resins 611-627 Basic types of organosilicon resins. Importance of K. A. Andrianov's work in obtaining high-molecular organosilicon compounds, and in working out technical methods of producing organosilicon polymers (p.612, 610). Characteristics of organosilicon compounds. Production of initial 11monomers". Processes of -the formation of organosilicon polymers, and their prop- erties. Manufacture of plastics based on organosilicon polymers. Manufacture of thermosetting polymers modi- fied by organosiliQon compounds accordin to the method used by G. S. Petrov and A. I. Kreshkov ~p. 627). 2 tables, 6 diagrs. Bibliography 628-637 The references (with the exception of a few translated works) are Russian. They are divided by chapter-s. General: 9; Introduction: 5; Ch. 1: 28; Ch.II: 44; Ch. 111: 6; Ch.rV: 14; Ch.V; 13; Ch.VI. 14; Ch.VII: 14 Ch. VIII: 7; Chs. IX, X, XI: 31; Ch. XII: I; Ch.XIII: Ch. XIV: 14; Ch. XV: 10. Alphabetic Index 638-656 Index of subjects and of the names of scientists men- tioned in the text. 19/ 20  Tekhnologiya sinteticheskikh piastlohesklkh mass AID 770 - X No. of References: 224 Russian Facilities: Many names of Soviet scientists are scattered through the book. See "Table of Contents". 20/20  -I'D!',- !"I, E Of `L-r~-il.:: 'L~ --' ~'. - *, i .--. I z . 17' :3 '-~`27 - . 7cc i -,- ? ~ I -- -),.- . ~ . ! ~ . , c t ri- A.o ~ i :~ 7 1- -7 11 s t. ) 1, t Hi k ~.,.  'a Ile I S1, f 4 j f I - n- e 1-1 t r 1.1 f  in ltr, 1.92 8. ,oy ;accinc D-pt. ,~c teri, 1~;,. i I  " I ~ . . .1; , I . vi -. 711ii -" , . I ~- 1 .1 -- - ilct. :nst-11-Ft -lir . ' --,0, , L, 1 .1 . -   . C~ L't . ,u I. - . ... -e- 'E:- 4 i 5z; ~s - Z -- 1,, 7'i ~~n ~ '. - '. - -ction o~' 3: . obes OY: ~~ I ... - ..:,-j v"-i"i.01. I'~ c : Ic 3 2 - 5' :~ . 1 3 ~! , -~e L. --,~.t riolorlc!~l _-n~ ~ . 1-i t - ., 0  3 qn.,  Rc, , 1". S . t, V-! co -in, ~ --i :~I, 1.7, k- -,"ir., in~rac-,ili,-:. n ~ s . j, ~- . r - ~ 1,~,: li'i72-7- 1 ", - - i t I i.; ': ., U;' 1, ~. D-1. -1 - ~ F. I -- , -, t -41 ~)I, hicv. , - - I . -x: I! . . ."! . , ::(;t 1 o " i (-,-, 1 1 ,-, t . J,  BARG, I.G., inzhenar; EIZELI, G.A., inzhener. First year's operation of mechanized repa.ir stations MO. Elek.sta. 28 no.4:67-70 Ap '57. (MLRA 10:5) (Electric lines)  8(6) SOV/ 1.12 -59 -5 -8841 Translation frorn: Referativnyy zhurnal. Elektroteklaiika, 1959, Nr 5, p 61 (USSR) AUTHOR: Barg, I. G... and Engel', G. A. TITLE: Experience With Mechanized Repair Stations .n Fligh-Voltage Power Networks PERIODICAL: Naladochnyye i eksperim. raboty ORGRES, Nr 15, 1958, pp 36-42 ABSTRACT: Experience is described with using the combined method of line work in electrical networks. Experimental models of specialized mz.chines and mechanisms were developed: line-type automobile, three-part telescopic towers, automobile boring machine with a crane, a machine for replacing parts of wooden towers, etc. Data is presented that characterizes the efficiency of such mechanized repair stations and also their economy. Ways for further developing and adopting the combined repair methods in electric networks are mapped out. F.F.V. Card 1 / I  DOLIY, F.h.; I'vIRG, I,G., ir,,-,h., red,~ ~"y,',-_717 17, Atehhn. recl. .,iovk on oue.-atirc over, -nd t-~,Icctric rower t r ~ n s.-.. i -- 0 ia, -I i n c S clarifi(ntimis for cimpter III of "Safety Enf-inoovin;~ '~er- tton.-, for OperAint- Overlle,-d Power ill -, %cess of 1,,000 volts,,,).,ahot~: poci napri~-Thurdcm E.: na lillilakh clok-tropel-1-3 menfia IV "Fravil tekhniki elrsrdul~tatsii mulch linii clektro-credachi mpril-zh-nier, vy.:he I COO V.11 I,:I.cl,2., perer. lloskmt, GosmlevCoi,-,d1,:A, 1962. 11 N) (Electric lines-Overhead.) (Electric power distribution. .-Sa-fety re,-,:ulations)  KHAVIN, N,i',,, inz-h.; BA".6, I,G, , inzh. Wide use of a phase m---ithod for repairir,- electric :~,I-wer *.,ra--s- mission lines, Elek. sta. 33 no,c)185-87 je 162. 01-11R-A 15-7) (Electric 3-ines--O-verhead)  BARG, I.G. , inzh.; W.LOITSOV, Yu.F., inz!). Organization of the ooeration of elect.-Ic-il r~etworks. Flek. sta. 36 no,6!"1-10 JR 165. 04IR A 1;~: 7) 1. Gosudarstvennyy trest po rrganizatgAi i ratsionalizatsii ray.7,nnyllch elektrostantsiy i setey (for Barg). 2. V(,Igogradenergo (for BeIc'Iso-".   133-8-19/28 AUTHORS: Kulikovsl- S Kalynzlmyy, A.N., Far,-, M.M. and IX9 B" Zeylihovic , -Ya., Engineers TITLE: axperience in the application of a protective atmosphere. (Cpyt -primeneniya ~aqhchitnoy atmosfery). V a,I PERIODICAL: "Stall" (Steel)f,No.,qp 1957, rr. 7,10-7,14 (USSR). ABST&ICT: A description of equipment for azinealir,- sheets in a protective atmosphere (muffle with a sand~_seal, covered by a refractory lined hood) is -iven (Fig.1). The protec- tive atmosphere is obtained by combustion of Droducer gas (from anthracite) purified with monoethanolamine. x1fter cooling to 25-30 0 the combustion products are again purified from CO. with monoethanolamine and dried with alumosilicagel and silicagel. The installation for the eneratiOn Of the protective atmosphere was designed by 9 tallproyekt (Figs.2 and 4). Initial difficulties en- countered and methods of their elimination are described. Changes of the main indices of the Drotective atmosphere in the course of a satisfactory annealinE (without oxida- tion of edges) are shown in Fir,-5- It is stated that the production of clean annealed sheets without traces of Card 1/2 oxidation permitted either to avoid or to reduce consider- ably the subsequent pic'17--lirL process (no data given).  133-8-19/28 Experience in the application of a protective (Cont. ) There are 5 f iGures. ASSOCIATION: Novomo-chovsk Sheet RollirC. Works. (I;ovomoskovskiv - '7avod). Z he s t. ek at al I ny,%7 1. AW-ILA~BLE: Library of Congress Card 2/2  1-1-1-11 -13 33 5 Translation from: Referativnyy Zhurnal, McIdian1k;1, 19~7' N-- I I , p 147 (USSR) AUTHOR: Barg, 0. Ya. TITLE: The Stability of a Regular Grid Franiework. (Ustovchivost' re(,lulyarnogo perckrytiya. ) PERIODICAL: Prikl. rnekhanika, 1956, 2 Nr 41-, pp 404-408 (Ukrainian). ABSTRACT: The paper e-.\.-,mines the stability of grid frarne-%vorks consisting of a large number of bean-is in two directions, which support a deck sur- face. The problem is described by the deflection equation of a structur- ally orthotropic plate. A fuller investigation of the subject problem %vas published by L. Ya. Reznitsiciy (An Approximate Method for the Calculation of the Stability of Grid Frameworks with Due Consideration of the Resistance of the beams to Torsion and the Influence of General Deflection. Tr. VNITOSS. Sudprorngiz,, 1948, 5, N-. 4. ) A. A. Kudryurnov Card 1/1 I-Yb JZA  Barg, Ts. 1". and Verzhblovska:.-s, A. G. IISOMC da-ta -:,,I t!",2 Of stiniiiat,rs," Oftalmol. zh~zrnall 1)10 SO: U31'3b, 21 "a:,r 53, (Letopis 'Z'nurnal lriyd) 3tatcy, No. L"I  .!2P R C-, -1~" [" - r,W--ORAZ, N.A.-., BARG, TS.M, [Producti-ve life of Vladimir Petrovich Filatov] Trorcheskii Pat ~ P-kadamika Vladimira Petrovicha Filatova. Veat.khir. '70 no-1.3-7 150. OLML 19~1) 1. Of the,Ukrainiar Rcperlmental Institute for Eye Diseases Imeni, Academic',.an Filatov, 49-51 Proletarskly Boulvrard, Oclassa,  EXr,,,RPTA IZEDICA See.12 Vol.12/4 Oplythalmology -AlPril 58 5 7 2. T R E ATM EN T 0 F B U it ~NS () F '1'l I E L~ Y E (R U S S ~ a n t e xq - B a r g T s - TRU.D.TURK%MCN.TRAKII.lNS'l'. 1956, -1 (123-126) In 29 cases (if 3rd deVree eye burns the following treatment was used bv the author: DurinV the first 2.1 hr. 30% albucid ointment was applied in the coniunctival sac, after thorough and copious bathing with warm physiolopical saline every 1-2 hr. at first and later less frequently. From the Ist day on 'dionin' was beginning with a 61,'o solution, the concentration of the solution being increased o-,, the succeeding days until the drug was applied as a powder. Warinth procedures were also ordered - bed-warmers and bathing of the conjunctival sac with warm physiological saline. I. v. infusions of a 10% solution of sodium chloritie have a beneficial effect. After the acute manifestations have subsided, tissue therapy is indicated in the form of hypodermic injections of an autoclaved extract of aloe leaves, preserved in the dark; the daily dose is I rnl. Acuity of vision before treatment was limited in the majority to perception of light only. only in a few cases was it 0.02-0.05. On conclusion of treatment the visual acuity was 0.05 in one case, 0.1 in 3 cases and 0.2-1.0 in the remainder, Two case histories are presented. (S)  PUCHKOVSKAYA, N.A, doktor meditsinskikh nauk, radaktor; DEYNEKA, I.Ya., professor, redaktor;,~,~. M.,starshyy nauchnyy sotrudziik, -4,2 , . Jd'n redaktor; BARMSH, S.A.,Btarsbyy aauchnyy Botrudnik, redaktor; BUSHMIGH, D.G.,starohyy nauchn,-y sotrudalk, redaktor; V0nM-YASEN3T8IY, V.V.,lmndidat mediteinskikh nauk, redaktor; DANC13VA, L.D.,kandidat maditsinskikh nauk, redBktor; DEYNEKA, I. Ya..profesaor, redBktor; KURYSHKIN, P.M.,starshyy nauchnyy notrudnik, redaktor; MUCIU11K, S.R.,doktor meditsinakikh nauk, reUktor; PUCIIKOVSKAYA, N.A., floktor meditsinakikh nauk. redaktor; RUKIN, V.A.,starelivy nauchnyy sotrudnik. redaktor; SYS017EV,A.F.. star shyy nauchnyy sotrudnik, redaktor [Promedings of the jubiloe conference of the Ukrainian Filatov Fb-.peri$*8ntal Institute of Eye Diseases and the Odessa Pirogov Medical Institute, held on May 25-28, 1955, and dedicated to the 80th'birthdBy of Professor Vladimir PetroVich Filatov, Hera of Socialist Labor, Stalin Prize winner, active member of the Academy of Sciences of the U.S.S.R. and the Academy of Medical Sciences of the U.S.S.R., and Honored Scientist] Trudy iubileinoi nauchnoi konferentsii Ukrainskogo eksperimentallnogo iuBtituta glaznykh bolesnei im. akad. V.P. Fibitova i Odesskogo maditsinakogo inBtituta im. N.I. Pirogova, posviashchennot 80-letiiu so dnia rozhdeniia Geroia Sotsislisticheskogo Truda, laureata Stalinskoi premii. deistvitellnogo chlena Akademii nauk USSR i Akademii meditalaskikh nauk SSSR, zasluzhennop,o deiatelia nauki, professora Vladimira Fetrovicha Filatovao 25-?8 maia 1955 g. Kiev, Gos. mad. izd-vo USSR. 1956. 30? D. (mLRA 1o.4) 1. Ukraine. Hiniaterstvo zdravookhraneniya. (EY-L-DISNARP-0  BARG,TS.M.; KARPOVA, Ye.P. Effect of injections of mercury preparations on the biological activity of 'the blood. Uch.zap. UEIG13 5:263-267 162 (mmt, 1~:11) -~4-  BARG. Ya.A. (Kharlkov) Stability of thin rectangular plates [with summary in English]. Pryk~,-mekh- 5 no.l-.83-91 '59. (11,1RA 12:6) l.Tharkivalkir zavod teplovoznogo o1alctrousttt-k-uvannya. (Elastic plates ata shells)  BkRG, Ya.A. (Khar Ikov) Stability of rectangular (plates. Strot. mckh. t raach. noor. 2 nri-5: 27--)4 16o. (MIRA 13:9) (2aaGtic shells ant plates)  BARG, Ya.A., inzh.; KRIVOSHLYEVA, S.G., inzh. Oalculatinr the spring "riane. JO 160. Vont.oInktroprom. )I no.6:01-6) (MITRA 13:7) (Diesel locomotives)  BARG, Ya. A. Cand Tech Sci - (diss) "Estimation of plotes loaded with forces transversely and lying in the mean density range." Khar'kov, 1961. 11 pp; (Ministry of Higher Education Ukrainian SQ--, KharIkov Construction Engineering Inst); 2215 copies; free; (KL, 7-61 sup, 231)  BARG, Ya-.A. (Khar'~-cv) Vibration of compressed and stretched plates. Stroi. mekh. i rasch. soor. 3 no.6:22-28 161. (MIRA 15:4) (Elastic plates und she lls--Vilw-i tion)  B&M, Ya.A.J- inzh.; &RNOSI=VA, S.G., inzh. Concerning the design of electric machinery beds. Vest.elektrop-romm. 32 no.2:29-31 F 161. (141RA 15:5) (Electric machinery)  -BARGY Ya.Al,, inzh.; GEFildi, V.!,,., inzh.; inz.,-., Design of diathragn, cirives for electrical apparattir, 'ftjL, elelctroprom. 32. Ag -61. (,.aiiA j,~: 8) (Llectrio (Pneumatic driving)  BATIG Ya,,A.A~rlkov) Some problems of the stability and vibration of rectangular plates. Pr-jkl.mekh. 8 no-4:446-452 W. (MIRA 15:9) lo Kharlkovskiy zavod tyazhelogo elektromashinostroyeniya im. V.I. Lenina. (Elastic plates and shells)  BARG, Ya.A. (Khartkov) Design of plates Ving on an elastic fo-i-mdation. Stroi. mekh. i rasch. soor. 4 no.6:11-1,1 162. (ERA 16:1) (Elastic plates and shells)  aARG, Ya.A., kand. tekhn. nauk; LIVSHITS, A.L., inzh. Calculation of the torsional stresses of the shafts of electrical machines. Vest. elektroprom. 34 no.3:60-63 Mr 163. (MIRA 16:8) (Electric machinery)  BARG, Ya.A., " -, ~ jT121j. Calculation of the strength of tne hollow conductor of tl~e rotor of a large turbogenorator. FIMtrotekhnika 35 no.4,56-57 AD 164. (MIRA 1~:4)   - ~ !-, ~ -- , .~! ~ !, r, .~. .1 -, - , ~. --.. !, : ~I : , ~ -- :7 - ~ % . : . - ~ t - . . . I . z I - : I e 1. "1 -, , . 0 ~, ~,, C, 1 .1 1 , ; a l.-: 1""; ilk . " , . , , -, , , I, -, . I ~ . I . 'I , , - -. -1 ~  BARC'i, Yakov ;,rwajf~o%'Julh, 1h  7~ , , ;' ~ I . . .1 . . . 1 f, l.,. , . 1 .11 , " - . - .: * . . - - , . 1 : '. . - , . - - ., .-; , -". , . , . . . . . , - . .1 -,.. , .  1, hn - nau.-" I I ITS if I Ti , A - 1, n i EIL'wL the u-, Ena-fLs with ~arylno c:o~s "--~t~,ot ek~hni -q, 9 , ~9  rs:(Barg,. Ya. A., Livshitst A'. L., "Torsion Calculations for Shafts i of. Electrical Machinesp" Vestnik ElektropropyGhlennostip No 3) 1963) on -celculatij* shafts for torsion#- The-calculation of shafts vith rhombic And other cross sectiotis used in machine buildi ng (boring bars# telescopic, transmissions, 6tc.):io done~on the "Efkal-2" electronic digital computer. The torsion calciallation fora,ohaft with a sWIe connected cross section- (i. e. one' vithout internal - ca~itii6e) cons ir.ts of f inding The stress funetion. "icb satlsfies~the.~Polsson equation 2 -;2 X2 Card 1/2..   ,94R q 14 /L- 77/ AID P - 2030 Subject USSRAngineering Card 1/1 Pub. 110-a - 3/14 Authors : Bargaftik,, N. B., Doc. of Tech. Sci. and Eng. Title : Heat content of slags of various fuels Periodical : Teploenergetika, 4, 13-17, AP 1955 Abstract Results of research on heat content of solid and liquefied fuel slags at temperatures from 200 to 1,6oo c0 are presented. A description of the method of research and of the experimental installation is given. The authors present equations computing the enthalpy of slags of various fuels (coal, si-iale) at different temperatures. Nine diagrams. Six Russian references, 1940-1953, 1 German, 1933, and 1 US, 1947 are attached. Institution: None Submitted : No date  ' iL E rL t I  :7' LL I S )N  ACCESSION INIR: AT4017410 s/oooo/63/000/000/0055/0059 AUTHOR: Sletkina, L. S. , Bargamova, NT. D. ; Rogovin, Z. A. TITLE; Synthesis of new derivatives of cellulose and other poly sacchar ides. Synthesis of a mixed acetic and hexafluoroisobutyric acid ester of cellulose SOURCE: Tsell3ruloza i ycye proizvodny*ye, sbornik statcy (Cellulose and its derivatives). 1%,Ioscow, 1963, 55-59 TOPIC TAGS: polysace'llaride, cellulose, cellulose ester, cellulose acetate, cellulose hexafluoroisobutyrate, fluoridated cellulose ester ABS'MACT: Rcsi.zlts are Oven of attempts to accomplish the synthesis of this, as yet ujilmown, t~,,pe of F-containing cellulose ester which may lead to valuable new technical materials, such as less hygroscopic and more heat-resistant oil-and water -repelloi it films, Lacquers, etc. Bis-trifluoromctllyll~(tenc, (CF3)2-, C:C:O, prepared at the institut clemontoor-aniclicskikh soyedineniy AN SSSR (Institute of Metalloorganic compounds) was explored as the estorifying agent in a series of 48-hour tests at 20 C in a hetero- ,-eneous dioxan medium, with and without a caLalyst, but failed to produce yields higher than 7. A low-substituted cellulose ester was flien synthesized for tho first time ,,vith-,