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2013 | 13 | 4 |

Tytuł artykułu

Thermomechanical polymer material molding techniques

Treść / Zawartość

Warianty tytułu

RU
Termomekhanicheskie metody formovanija polimernykh materialov

Języki publikacji

EN

Abstrakty

EN
RU

Wydawca

-

Rocznik

Tom

13

Numer

4

Opis fizyczny

p.208-217,fig.,ref.

Twórcy

  • Ukrainian Engineer Pedagogic Academy, st. Universitetskaya 16, Kharkiv, 61003, Ukraine
  • Ukrainian Engineer Pedagogic Academy, st. Universitetskaya 16, Kharkiv, 61003, Ukraine
autor
  • Ukrainian Engineer Pedagogic Academy, st. Universitetskaya 16, Kharkiv, 61003, Ukraine
autor
  • Volodymyr Dahl East-Ukrainian National University, Molodzhny bl. 20a, Lugansk, 91034, Ukraine

Bibliografia

  • Anohin V., 1991.: Chemistry a.nd chemistry of polynler.- Higher School. - 370 (in Russian).
  • Baeurle A., 2009.: "Multiscale modeling of polymer materials using field-theoretic methodologies: a survey about recent developments". Joumal of Mathematical Chemistry 46 (2): 363-426.
  • Buzov B., Pozhídaev N., Modestova T., Pavlov A., Flerova L., 2002.: Laboratoiy practices on the course of “Study of sewing production” / 7 M.: Light industry. 7 383 (in Russian).
  • Detrez F., Cantournet S., Séguéla R.. 2011.: A constitutive model for semi-crystalline polymer deformation involving lamellar fragmentation. Comptes rendus Mecanique V01. 338, - 681-687.
  • Detrez F., Cantournet S., Séguéla R., 2011.: Plasticity/damage coupling in semi-crystalline polymers: micromechanisms and damage law identification. Polymer Vol. 52, 1998-2008.
  • Deyneka I., Mychko A., 2010.: Protective factors of textile materials foe special designation clothes // Commission of motorization and power industry in agriculture. Teka / Lublin university of technology. - Lublin. 7 98-102.
  • Deyneka I., Mychku A., Ripka G., 2012.: Identification of vegetable origin fibers for children's clothes. Commission of motorization and power industry in agriculture. Teka / Lublin university oftechnology. - Lublin, 7 15-18.
  • Dimitrieva I., Mihalovskaya L., 1990.: Physical-mechanical tests of chemical fibers - M., Higher School. 7 103. (in Russian).
  • Golotina L.A, Shardakov I.N., 2011.: Numerical Modeling thermomechanical behavior Of amorphous - crystalline shape memory polymers. // M. Computational
  • Continuum Mechanics - 2011. - T. 4 No4. 5-10. (in Russian).
  • Gorshkov A.G., Starovojtov Je.I., Tarlakovskij D.V., 2002.: The theory of elasticity and plasticity M.:Fizmatlit. - 416. (in Russian).
  • Katorzhnov N., Voitelev Yu., 1996: Diagnosis of chemical fibers - M.: Light industry. - 264. (in Russian).
  • Kolaydenko S., Mesaychenko V., Kokoshinskaya V., 1981.: Marketability of textile materials - M. Economics. - 312. (in Russian).
  • Mihajlov N.V., Shershnjov V.A., Sharaj T.A., Kuleziev V.N., 1977.: The foundations of physics and chemistry of polymers - M:Vyssh. shkola. - 248. (in Russian).
  • Nobuhiko H., Mayumi Y., Hidemitsu F., Kenro T., 2013.: Photoinduced Deformation of Rigid Azobenzene-Containing Polymer Networks. American Chemical Society. No46 (3), 1017-1026.
  • Pohl K., Adams J., Johannsmann D., 2013.: Correlation between Particle Deformation Kinetics and Polymer Interdiffusion Kinetics in Drying Latex Films. Clausthal-Zellerfeld.Institute of Physical Chemistry, Clausthal University of Technology D-38678, Germany Langmuir, 2013, 29 (36), 11317-11321. Rjabchykov M.L., Bezborodov S.M. 1999.: Some issues of designing devices for the removal of heat flows in the processes of processing of polymer films // Suchasni informacijni ta energozberigajuchi tehnologii'zhyttjezabezpechennja ljudyny. Zbirnyk naukovyh prac'. - K.: Fada LTD. - No 5. - 328-331. (in Ukrainian).
  • Rjabchikov M.L., Chelisheva S.V., Vilkov S.M., 2011.: Approximation methods of thermomechanical propenies of materials - Kharkiv.: Novoe slovo. - 72. (in Ukrainian).
  • Rjabchykov M.L., Sjedov I.B., Manina N.J., 2000.: Determination of the effective cooling modes sheet materials as they are processed // Vestnyk Har'kovskogo gosudarstvennogo polytehnycheskogo unyversyteta. -Har'kov: HGPU. - Na 82. - 69-73. (in Ukrainian).
  • Rogovin Z., 1972.: Chemistry of cellulose - M.; Chemistry - 520. (in Russian).
  • Roiter, Y., Mínko S., 2005.: "AFM Single Molecule Experiments at the Solid-Liquid Interface: In Situ Conformation of Adsorbed Flexible Polyelectrolyte Chains". Journal of the American Chemical Society 127 (45): 15688-15689.
  • Rottler J., Robbins M., 2001.: Yield conditions for deformation of amorphous polymer glasses. Vancouver, Physical Review E. Department of Physics and Astronomy, The Johns Hopkins University, 3400 N. Charles Street, Baltimore, Maryland 21218. - 64.
  • Shapovalov V., Nezhinskiy Y., 2010.: The development and applying of flexible technical facilities is effective way of agriculturay production mechanization in industry. Teka /Lublin university of technology. - Lublin. - 157-161.
  • Sheryshev M.A., 1989.: Molding resin sheets and films.-L.: Himija. Leningr. otdelenie, -119. (in Russian).
  • Sperling L. H., 2006.: Introduction to physical polymer science. Hoboken, N.J.: Wiley. 10.
  • Stratmann M., 1997.: ges Textilind,, No 24, 1035 - 1036; No 23, 981-982. (in German).
  • Tan J.C. Deformation of Polymers. Oxford, 2013.: Department of Engineering Science University of Oxford. -70.
  • Terebushko O.I., 1984.: Foundations of the theory of elasticity and plasticity. -M.: Nauka, 320. (in Russian).
  • Thomas C., Séguéla R., Detrez F., Miri V., Vanmansart C., 2009.: Plastic deformation of spherulitic semi-crystalline polymers. An in situ AFM study of polybutene under tensilc drawing. Polymer 50, 3714-3723
  • Torner R.V., 1977.: Thermodynamic principles of polymer processing M.:"Himija".- 212 (in Russian).
  • Wai-Yim Ching. 2013.: Ab initio modeling of thermomechanical properties of mobased alloys for fossil energy conversion Pittsburgh. University Coal Research Contractors Review Conference. - 28.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.agro-d1c59b4e-13f4-422e-904e-1fdd9cd7ca3e
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