SCIENTIFIC ABSTRACT REYBEL, I.M. - REYDLER, YA.

 PAVLOVSKAYAY M.P., kand.khim.nauk; REYBELI, I.M., kand.khi*.nauk Potentiometric t1tration used for determining the composition of a complex compound formed by the uranyl ion and sulfosalycilic acid. Trudy Kish.sellkhoz.inst. 26:73-79 162. OURA 16:5) (Ura~* compounds) (Salicylic acid) (Potentiometric analysis)  - - I ~.- - . . . - - -1 . - -'- "". ~ 1.~ I . I , -   PAVLOVSKAYA, M.P., kand.khim.nauk; REYBELIP I.M., kand.khim.nauk Optical and potentiometric methods for determining the composition of the complex.fon forme4 b_v ur&zWl and orthobydrozyquinoline. Trudy Kish.sellkhoz.inat. 26:13W 162. (KIRA 16:5) (Uranyl compounds) (Quinolinol)   i:-di t a nd, e of C-rtairi I-Anucleur Complex 'm oni-ates of Cohal ." C Ch m s u Sci, "oscow Clity Feelaf.-Ogic:a! iris" iineni V. i'. Potue;nJealln, 31 54. Veccherr~,raya -va 1"Osco, 20 1 ~'a y4 Nosk vii 60: SMM 2P,/,, 2`6 Nov 1954.   US,.5R-/Y--YSi:al CtBM:L--"I-Z-Y - Kir--~ticS, CUMNUStiM., Pa-pl.),viozz, Tr,-pc,- cl,amistry, Catallrais. B-9 A7:,s J.:Y,.;.r: IL-farat. &-tux-nal Fbizalya.: No 2; 1958 3 Auth.D::, I.B. IC-;.&kham, I.M. Raybell. Title OrAdation of Cobalt Salts in A=wnia Solution. Oeig Pab: Tr. Kishinevsk. a.-kh. im-ta. 1956, 11, 145-:.57- AbL3jra,--t: An equipment for studying the capacity of 2-nuclearz complex campounds of CO with. N~3 and other addends (ethyleae, diamine, glycol) te,- annex. 02 wlecales is desc-ibed. The potantiometrical and po.1maxagraphic met'hods are usad fo:- the dete-ndnation of Co2+, vhich has not te-kem. maz-t in the reaction. 'Ca--d 1/1 -5-  -5- 5.;),2 () AUTHORS; TITLEX PERFODICALt ABSTRACT: 68231 5/07.61/60/005/02/02 4/ 04 Pavl )vsl-.aya, M. P., Reybel I, I. X. B004/BO 16 ()Forf.,iation of the Uranyl Ion With B-Hydroxyqu- ol-I Complex in ine ?,hurnal noorgatnichookoy klaml,I, 1960, Vol- 5, Ur 2, pp ,193-395 (U"isfi) The reaction mentioned in the title was investigated in Lhe ,eA The optical densities of presence of an excess of pyridin isomolar solutions of urany! ace'ate and 6-hydroxyquinoline Were determined by the 1741 type photometer at 200, and thapH-.' was measured by means of the LP-5 type potentiometer (FiL-jre).,, The maximum optical density occurs at a.ratio of uranyl ion : hydroxyquinoline = 1 ; 1 and at PH = 7.00. The composition of the complex compound was determined by potentiometric titration (Table). It corresponds to a ratio of U024-. 8-hydroxyquinoline,_-~*,~ 2 1 ; 1. The authors describe 'the application of the color, reaction of the urany! ion with 6-hydroxyquinoline as drop reaction for the qualitative determination of, the urany-1 ion'.. At a maximum dilution of 1 . 11267 ii, 2 mil solution, .9till 177*5,ruranium can be determined even in "lie presence of.cther ions. The authors refer to papers by V. D. Vasilenko. B. E.  68231 Com-Dlex Formation of the Uran-1 Ion W-ith S1 0 76/60110-05/0210, G-Hydro:cyquinoline B0041BO16 Rezriik, and L. A. liakonechnaya (Ref 3), L. M. Kullberc (Re" 4), A. K. Babko (Ref 13), B. 11. Vikollskiiyp V. I. Paramonove, and M. D. Morachevskaya (Ref 15). There are 1 figure, 1 table, and 15 references, "I of which are Soviet. ASSOCIATION: Kishinevskiy sellskokhozyayst-vennyy institut Kafedra ne- orE~anicheskoy khimii (Kishinev Instittztp. of" Cba, of Inorganic Chemistry) SUBI*-ITTED-. SePtember 27, 1958 Card 2/2    69778 12 t/. S/155/59/000/02/021/036 AUTHOR: Reyblat, Z.V. -l' e .TITLEs On the Application of the Variation Method to Non in a lasticity. Theo ,PERIODICAL: Nauchnyye doklady vysshey shkoly. Fiziko-matematicheakiye nauki, 1959, No. 2, pp. 118-119 1 2, 3 ij TEXT: Let. u u 9, u u be the displacement vectorv C components lk kl of the deformation tensor, iY 61 components of the stress tensor, Tkl = T kl( 6 11 , 'f 12 E33) the non-linear Hook law. The Cauchy con- ditions of equilibrium are -A. + k ',ij k: (2) A u, 0 where A u jx + y k1 Theorem The elastic potential W is assumed to exist, i.e. T 2 aps let the form W_ h h be positivedefinite. Then there exi eta ijalkl , k1 ij in L2(SI) a unique general-ized solution of all four elasticity problens.1; it the limit of an arbitrary sequence which minimizes the corresponding Card 112  69778 On the Application of the Variation Method S/155/59/000/02/021/036 to Non-linear Elasticity Theory --tional Here it is assumed that the boundary and the boundar func y conditions are so that the corresponding linear problem is soluble. There are 3 references: 2 Soviet.and 1 American. ASSOCIATION't Yakutskiy gosudarstvennyy universitet (Yakutiya State University) SUBMITTED: March 23, 1959 Card 2/2   ACCESSION NR: AP4043822 S/0303/64/000/004/0042/0045 Finkel'shteyn, M. 1. AUTHOR: Rgba;~~. TITLE: Solvent resistant organic coatings SOURCE: Lakokrasochny*ye materialy* i 1kh primeneniye. no. 4. 1964, 42-45 TOPIC TAGS: organic coating, solvent resistant coating, enamel VL-515, enamel EP-7 enamel KbS-710, lacquer F-10, lacquer KhS-76, lacquer MS-25, lacquer EP-096, alumi-, num powder coating, primer VL-02, primer KhS-04, primer FL-03K, primer EP-09T, toluene resistant coating, water resistant coating, butylacetatc resistant coating, ethyl alcohol resistant coating, bakelite lacquer, ethinol lacquer, paint EKZhE-40, paint EKA- 15, ED-6 based epoxy, benzene resistant coating ABSTRAur: Air and heat dried serial production finishes'(cnamels Vlj-515, EP-718, K11S-710, lacquers F-10, KhS-76 and aluminum powder modified KhS-76, MS-25 and EP- 096, over primers VL-02, KhS-04, FL-03K and EP-09T) were laboratory. tested for resistance to toluene. toluene + 20% H20, benzene (270 hro., 18-25C for all three), 40% epoxy enamel solution in toluene (270 hrs. , 50C, ex6ept 150 bra. for EP-718), 60 proof ethyl alcohol (90 hrs. , 18-45 or 40C) and 40 proof ethyl alcohol (90 hra. . 40C). 7hese finishes and laboratory samples of bakelite lacquer, epoxy coating on an ED-6 baset painta: 1/2 Card  ACCESSION NR: AP4043822 EkZhE-40 and EKA-15, as well as ethinol lacquer, were also field tested under various conditions prevalent in the chemical and shale processing industries, Results are tabu- 1~1 lated and show that air or heat cured enamel VL-515 (3 or 4 coats) ~rote6ts steel against toluene at 40C and against ethyl chloride with ethyl alcohol and ethyl. ether admixtures. Only the heat cured variant (120C).was resistant to t6 presence of water in the solvents. Heat dried F-10 (3 or 4 coats, 150-160C) is resistant to toluene at 40C. Six coats of EP- t protecti6ii against benzene, benzene with water,* 718 over a coat of VL-02 provided the besi ethyl alcohol and ethyl ether at temperatures up to f0C. Five coatdof KhS-76 (metaffic) over a coat of KbS-04, five coats of KhS-710 over a boat of FL-03K-or five coats of modi- fied EP-096 over a coat of EP-09T protect against 60 proof ethyl alcohol at 18-20 or 40C. Three coats of EKZhS-40 and two coats of ethinol lacquer protect steel against 94% butyl er. "G. V. acetate with 5% phenol and 1% water or against 99% butyl acetate with 1% wat Yelesina, I. A. Zholondz' and R. P. loffe took part in the work. Orig. art. has: 4 tables. ASSOCIATION: Leningradskoye otdeleniye VPK "Lakokraspokry*t1yell (Leningrad division of the VPK "Paint and Varnish Coatings') SUBMITTED: 00 ENCL:- 00 SUB CODE: MT NO REF SOV: 000 OTHER: 000 Card 2/2  ISKRA, Yevgenly Vasillyevich, kand. tekhn. nauk; GUREVICH, Yefim Samoylovich, kand. tekhn. nauk- REYBW. A.L. red.; red.izd-va RT FREGER D.P., ; GVI red. (Modem ship paints; a review] Soyremennye sudovye kras4t; obzor. Leningrad. Pts.1-2. 1963. (MIRA 16:9) (ShIpp- Painting) (Paint materials)  S/193/61/OW/001/004/008 AOO5/AOO1 AUTHOR. ~eyb -A,-1- man, TITLE.- Lacquer-Paint Coating Materials on Polymeric Base PERIODICAL: Byul. tekhn.-ekonom. inform... 1961, No. 1, pp. 23-25 TECT. The industry assimilated some new varnishes and paints based on. synthetic resins such as vinyl, alkyd styrenes, etc. The known lacquer-paint- materials on perchlorovinyl. resin base form coatings of high.weitherproof quality and chemical resistance, but the low concentration of the film-forming substances is their disadvantage, which necessitates the application of many layers. New materials were developed with lower viscosity. The Soviet industry put out the, enamelsX(5-113 (KhV-113) of different colors on the base of low,viscous perchloro- vinyl resin. The concentration of the film-forming substances is 38-40% instead of 30-33% in the comventional enamels. The KhV-113 enWnels ( 13T3 JA Q No. 181-6o (VTU UKhP)) is a suspension of pigmefits In the solution of low-viscous perchloro vinyl resin, glyptal and,phenol formaldehyde resins and plasticizers In a ml Ixture of organic solvents; they are applied to the surface'by a pulverizer over s., glyptal No. 138 and a phenol formaldehyde cPlt-O 1 (FL-03k)-ground coat. As.sol- V 3,~ Card 1/4  S/193/61/000/001/004/bo8 Lacquer-Paint Coating Materials on Polymeric Base A005/AO01 vent serves xylene with acetone in the ratio 9:1. The enamels dry during 3 hours at 18-23OC; the drying process can be accelerated by anaddition of 1.5-2% sic- cative N63 in the enamel. The viscosity of -the enamels is 60-75 see by. the VB -4 (VZ-4) viscosimeter. The coatings are half-lustrous, they have the hardness of 0.3 by the pendulum apparatus M-3, high ductility of 1 mm by the W F(ShG)-scale., Impact.strength of 50.kg/cm by the j -1 (U-1)-device, and a sufficient resistance 'f'.) oil and water. The Lipetskiy traktornyy zavod (Lipetsk:Tractor Works) stated In practice and experimentally that the enamel can be well applied by spraying,with. the viscosity of 25-35 see by the viscosimeter 'VZ_4 and combines in ccmposite coatings with the primers glyptal 138, phenol formaldehyde FL-03k and a primer on the base of the copolymer of vinyl-chloride with vinylidene chloride r3X r M (VKhGM). The enamel KhV-113 is applicable to painting the tractors by replacing the common glyptal enamels containing a considerable amount of vegetable oil. it'' has a good covering ability; a single-layer coating.is sufficient Instead of the two-layer coating of the tractor enamel paint CT(s'r). Moreover, the enamel K'iV- 113 on the phenol formaldehyde primer FL-03k shows satisfactory resistanGe to~ tropic climate, There are the following advantagesr reliable protecting coatings with a small number of layers, speeding-up of the painting operation, applying the .-he ap ica enamel not only by spraying but Also by dipping, and t p1 tion of less dif-, Card _::~/4  S/193/6 '-)t)00/bO I/tO4/bO8, Lacquer-Paint Coating Materials on Polymeric Base A005/AOOJ ficultly Available solvents, obtaining of coatings of better resistance -to cli- mate. The enamels KhV-113 can be recommended for coating of agricultural mach-In- ery, railroad cars etc, - Recentlys the Soviet industry put out lacquer-paint materials on the base of alkyd-styrene resins; their advantagesare: high hard- ness, resistance to,water, light and chemical agents, as well as high dielectric-,. al qualities; disadvantageous are poor adhesion, poor compatibility with other materials, and brittleness. The combined polymerization of styrene with oils and greasy alkyd resins yields a film-forming material combining the advantageous* properties of polystyrene resins and alkyd resins. The following lacquer-paint materials are based upon these resins.- primer W-015 (KS-015), enamel MS-17, and the first coat, AC -.395-1 (AS-395-1). The MS-015 ( PjTJ WV1 -4 No. 312-59 (VT-U GIPI-4)) is a suspension of pigments and alkyd-styrene varnish MS-25 and is in-, tended for priming of articles of ferrous metals; it is applied in one layer by spraying and-dftes during 2 hours at 18-230C. Test lots were prepared of the alkyd-styrene enamel MS-17 -105-59 (VTU UxhP-105-59)), whichis Put out for replacing nitroenamel No. 660 applied to painting the chassis parts-, it dries during 20 min at 18-200C and can be recommended for painting the lamest parts of automobiles, railroad cars, etc. Recently, the alkyd-styrene first,coat, A ( , -395-1 (AS-395- 1) (811 X Q No. 118-59 (VTU U.KhP), was developed which is a Card 3/4  S/19-3/61/000/tOl/004/008 Lacquer-Faint Coating Materials on Polymeric Base A005/AOOl mixture of pigments fillers, alkyd-styrene varnish, and solvents; it drf,.z-s during 15 min at 20 C at a layer thickness of 50 micron and can be gr1nded with dry or moist emery cloth. It has better drying and physicomechanical properties:., -than pentaphthalle varnish JU-1 (ISh-1),'perchlorovinyl varnish 11Y (3 LLI -23 (PKhVSh-23), and the nitrocellulose first coat Auj-.3o (ASh-30). Card4 /4  S/652/62/000/000/009/020 B136/B101 AUTHOR: Heybman, A. I. TITLE: Applications-of now varnishes and dyes based on polymers SOURCE: ?rimeneniye polimerov v antikorrozionnoy tekhnike. Ed. by I. Ya. K1 inov and P. G. Udyma.- MOSCOW, M&ShgiZ, 1962. Voss. sovet nauchiao-ttekhn. obahchestv., 67-74 TEXT; In the last few years the Nauchno-isaledovatellskiy institut GIFII-4 (Scientific Research Institute GIPI-4) has developed & variety of new varnishes and dyes which have been put into industrial production. These. include various varnishes and enamels based on PVC which areLvery resistant, to chemical agents and extreme climates but which have low biding power. For this reason, the enamelX6 -113 (KhV-113), which contains 36 40% of film formers as against 30 - 33% in conventional enamels, was devel oped in various colors. When appliedover the primer P-03K (FL-03K) it is s uk -sp) itable for tropical use. The newly developed enaaels JMX CT(pVI(h designed for protecting various machines and devices* display1he.same physicomechanical properties, corrosion resistance# and stabilityLunder ~rdl/~3  S/852/62/000/000/009/02'0 Applications of now varnishes and dyes ... B136/3101 hard and elastic; ~T-51 (0-51) solution of alkyd epoiy resin 4-30 (E-30) and collodion in volatile solvents with gignents and a softener added; maximum hardening time 30 bra at 18 23 C, or 1-5 bra at 0 70 60 C; highly resistant to 3% NaCl and moisture at 35 40*C. Card 3/3   PHASE I BOOK EXPLOITATION SOV/6273 Reybman, A. I. ----------------------- Novyye lakokrasochn ye materialy I progressivnyye metody ikh pri-, meneniya; obzor fNew Varnish'and Paint Vaterials and Modern Methods of Their Application; Outline). Leningrad, 1962, 99 P-~ (Series: Leningradakoye otdeleniye Obahchestva Po rasProstranen- Iyu politicheskikh I nauchnikhmanly RSFSR& Serlya Zashchiu-nyye pokrytiya) 5000.copies printed. Sponsoring Agency: Leningradskiy Dom nauchno-tekhnicheekoy propagandy. Rd.: Ye. S. Gurevich, Candidate of Technical Sciences; Ed. of Pub- lishing House; D. P. Freger; Tech. Ed.: V. L. Ovirts PURPOSE: This book Is Intended for the personnel of-paint shops in. various branches of the industry an a guide.to now coating ma- terials and techniquis. Card 1/3  New Varnish and Paint Materials (Cont.) SOV/6273 C0VFMGH: This book reviews the new synthetic.high-Olymer coating, materlals and new techniques recently,developed in the 3oviet Union and abroad. Special attention Is given to modern coating processes. The text is based on data from the proceedings of the Moscow conference on protective coatings,.4-5 Jul 1901, on materials of the exposition on control of the corrosion of metals, Moscow, 1 Sep to 21-Oct 1960, and on the achievements of the Leningrad Division of (;osudarstvennaya Vaesoyuznaya proizvodstven- nay& kontora (state All-Union Industrial Bureau) "Lakokra6Pokrytiye.:1 The appendix gives tabulated data f or new.- paints and varnishes ard their GOST, TU and VTU designations. There are 33 references: 29 Soviet and 4 non-Soviet. TABLE OF CONTENTS. Introduction 3 Ch. 1. New Paints and Varnishes and Their Application eard 2/3  REYBI-LO A I - kIINKELJSHTEYIJ !-%I. Use of paint and lacquer coatings with a ba3e of epoxy resins. iAkokras. mat. i ikh prim. no.2.33-36 963. (MIRA 16:41' 1. Leningradskoye otdeleniye Gosudarstvenr~7 V9030yumoy proizvodstvennoy kontory po lakokrasochnym pokrytiyam Glavkhimplastkraski Minis.terstva, khimichaskoy romyshlennosti SSSR. (Protective coatings5 (Epoxy resins)   S/081/61/000/019/079/085 AUTHORS: Reybman, A. I., Finkellahteyn, M. I. TITLE: Application of anticorrosive coats based on divinyl acetylene polymers PERIODICAL: Referativnyy zhurnal. Khimiya, no. 1qj 1961, 511-512, abstract 19P239 (Lakokrasochn. materialy i ikh primeneniye, no. 4, 1960, 44-48) TEXT: In an investigation of the behavior.of various coats based on divinyl acetylene applied to steel.and concrete in various media under different conditions it was found that divinyl-acetylene-coatings were highly resistant to standing and running fresh and sea water. This also applies to water with a content of free C02, a sandy water flow, a mixture of butyl acetate, phenol, and water, moist chlorine, and bleaching solu- tion. Fourfold coatings based on "Etinol" varnish and iron minium (3K)KC-40 (EKZhS-40) Paint), as well as the same varnish with aluminum powder, are recommended as protection of hydrotechnical plants and metal structures in standing water or in water running at 5 m/sec. This.also Card 1/2  s/o81/61/ooo/o19/O79/085 Application of anticorrosive ... B103/B147 applies to plants subjected to an alternate action of water and mineral oil, as well as to the inside of containers permanently holding fresh water. Four.-layer coatings of EKZhS-40 paint can be used for painting the submerged parts of neaship hulls and concrete surfaces which are subjected to a permanent action of water containing free C02 up to 30 mg/liter at 4 500C. Objects exposed to atmospheric influences should not be coated with paints based on "Etinol" with iron minium or aluminum powder having a reduced light and weather resistance. Five-layer coatings of EKZhS-.,40 paint and "Etinol" varnish with aluminum powder can be used for protecting steel surfaces which are permanently exposed to illuminating gas or a mixture of butyl acetate, phenol, and water at different quantitative ratios. Heat-dried (at 1000C) Asbovinyl coatings. are recommended as protection for various metal surfaces exposed to moist chlorine, bleaching powder at 500c, bleaching solution, or a 3~0 NaCl solution flowing at