Влияние среды на реакционную способность мономеров в синтезе полилактидов и сополимеров акрилонитрила (1105551), страница 19
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DeSimone // J. of Supercritical Fluids. - 2009. - V. 47. - P. 447 - 457.[15]Woods, H. M. Materials processing in supercritical carbon dioxide: surfactants, polymers andbiomaterials [текст] / H. M. Woods, M. M. C. G. Silva, C. Nouvel, K. M. Shakesheff, S. M.Howdle // J. Mater. Chem. - 2004. - V. 14. - P. 1663 - 1678.[16]Goodship, V.
Polymer Processing with Supercritical Fluids [текст] / V. Goodship, E.O. Ogur// Papra Review Reports. - 2004. - V. 15. - No 8. - 138 p.[17]Варшавский, В. Я. Углеродные волокна [текст] / В. Я. Варшавский // M.: Варшавский. 2007. - 500 с. - C. 94 - 98.[18]Schaper, F. Acrylonitrile Polymerization by Cy3PCuMe and (Bipy)2FeEt2 [текст] / F. Schaper,S.
R. Foley, R. F. Jordan // J. Am. Chem. Soc. - 2004. - V. 126. - No 7. - P. 2114 - 2124.[19]Yang, P. Is FeEt2(2,2’-dipyridyl)2 a Ziegler Catalyst for Polymerization of the Polar MonomerAcrylonitrile? [текст] / P. Yang, B. C. K. Chan, M.
C. Baird // Organometallics. - 2004. - V.23. - No 11. - P. 2752 - 2761.[20]Yao, Y. Efficient polymerization of acrylonitrile catalyzed by divalent lanthanidecomplex/sodium phenolate systems [текст] / Y. Yao, Q. Shen, L. Zhang // Chinese Sci. Bull. 2001.
- V. 46. - No 17. - P. 1443 - 1445.[21]Simitzis, J. C. Chapter 8. Polyacrylonitrile [текст] / J. C. Simitzis // in Handbook ofThermoplastics, ed. Olagoka Olabisi. - New York: Marcel Dekker, Inc. - 1997. - 1080 p - P.180 - 181.[22]Johnson, H. D. Synthesis, Characterization, Processing and Physical Behavior of MeltProcessible Acrylonitrile Co- and Terpolymers for Carbon Fibers: Effect of Synthetic Variableson Copolymer Structure [текст] / H. D.
Johnson // Thesis Submitted to the Faculty of theVirginia Polytechnic Institute and State University in partial fulfillment of the requirements for105the degree of Masters of Science in Macromolecular Science and Engineering. - Blacksburg,Virginia. - 2006. - 108 p.[23]Morgan, P. Carbon Fibers and their Composites [текст] / P. Morgan // Boca Raton, London,New York, Singapore: Taylor & Francis Group.
2005. - 1131 p. - P. 121 - 147, 185 - 258.[24]Gupta, A. K. Acrylic Precursors for Carbon Fibers [текст] / A. K. Gupta, D. K. Paliwal, P.Bajaj // J. Macromol. Sci. Polymer Rev. - 1991. - V. 31. - No 1. - P. 1 - 89.[25]Huang, X. Fabrication and Properties of Carbon Fibers [текст] / X. Huang // Materials. - 2009.- V. 2. - P.
2369 - 2403.[26]Wade, B. Chapter 3. Polymerization [текст] / B. Wade, R. Knorr // in Acrylic FiberTechnology and Applications, ed. J. C. Masso. - New York: Marcel Dekker. 1995. - 408 p. - P.37.[27]Matyjaszewski, K. Handbook of Radical Polymerization [текст] / K. Matyjaszewski, T. P.Davis // Hoboken: John Wiley and Sons Inc. - 2002. - 920 p.
- P. 83.[28]Zhang, C. Preparation of ultrahigh molecular weight polyacrylonitrile and its terpolymers[текст] / C. Zhang, R. D. Gilbert, R. E. Fornes // J. Appl. Polym. Sci. - 1995. - V. 58. - No 11. P. 2067 - 2075[29]Симамура, С. Углеродные волокна [текст] / С. Симамура, А. Синдо, К. Коцука, Н.Цутияма, Т. Сато, Е. Ито, К. Икэгами, К. Ямада, А. Сакамото, Ё. Ватанабэ, Х. Такэда, Т.Исикава, В. Сасаки, Я. Абэ // ред. С. Симамура, перевод с японоского Ю. М.
Товмасяна,ред. Э. С. Зеленского - М.: Мир. - 1987. - 304 с. - С. 30 - 36.[30]Каданцева, А. И. Углеродные волокна [текст] / А. И. Каданцева, В. А. Тверской //учебное пособие. - М.: МИТХТ имени М. В. Ломоносова. 2008. -55 с.[31]Frank, E. Carbon Fibers: Precursors, Manufacturing, and Properties [текст] / E. Frank, F.Hermanutz, M.
R. Buchmeiser // Macromol. Mater. Eng. - 2012. - V. 297. - P. 493 - 501.[32]Rahaman, M. S. A. A review of heat treatment on polyacrylonitrile fiber [текст] / M. S. A.Rahaman, A. F. Ismail, A. Mustafa // Polym. Degrad. Stab. - 2007. - V. 92. - P. 1421 - 1432.[33]Sun, T. Mass DSC/TG and IR Ascertained Structure and Color Change of PolyacrylonitrileFibers in Air/Nitrogen During Thermal Stabilization [текст] / T. Sun, Y. Hou, H. Wang // J.Appl.
Polym. Sci. - 2010. - V. 118. - P. 462 - 468.106[34]Quyang, Q. Mechanism and kinetics of the stabilization reactions of itaconic acid-modifiedpolyacrylonitrile [текст] / Q. Ouyang, L. Cheng, H. Wang, K. Li // Polym. Degrad. Stab. 2008. - V. 93. - P. 1415 - 1421.[35]Tsai, J. S. The effect of molecular-weight on the cross-section and properties ofpolyacrylonitrile precursor and resulting carbon-fiber [текст] / J. S. Tsai, C. H.
Lin // J. Appl.Polym. Sci. - 1991. - V. 42. - P. 3045 - 3050.[36]Tsai, J. S. Effect of cross-section evenness for polyacrylonitrile precursor on the properties ofcarbon-fiber [текст] / J. S. Tsai, C. J. Wu // J. Mater. Sci. Lett. - 1993. - V. 12. - P. 411 - 413.[37]Tsai, J. S. Effect of cross-section of polyacrylonitrile fiber on carbon fiber properties [текст] /J.
S. Tsai // Sampe J. - 1994. - V. 30. - P. 51 - 55.[38]Пат. США US2010/0003515, МПК C08F120/44, D01F9/12, D02G3/02. Polyacrylonitrylpolymer, method of producing the same, method of producing precursor fiber used forproducing carbon fiber, carbon fiber and method of producing the same [текст] / Tanaka, F.,Endo, M., Okoshima, Y.; заявитель Toray Industries Inc; заявл.
15.10.2007; опубл.07.01.2010.[39]Ju, A. Effect of comonomer structure on the stabilization and spinnability of polyacrylonitrilecopolymers [текст] / A. Ju, Sh. Guang, H. Xu // Carbon. - 2013. - V. 54. - P. 323.[40]Пат. КНР CN101413153, МПК C08F2/38, C08F220/44, C08F222/16, C08F4/04, D01F6/38,D01F9/22. Chain-structure-uniform acrylonitrile binary copolymer spinning solution andpreparation method thereof [текст] / Li, Y., Li, B., Zhang, G. Liu, X., Bai, Y; заявительCHANGCHUN APPLIED CHEMISTRY; заявл. 04.12.2008; опубл.
22.04.2009.[41]Chen, Q. Preparation and Study of Acrylonitrile/β-methylhydrogen Itaconic Copolymer[текст] / Q. Chen, G. Zhang, X. Liu, Y. Xi, Y. Li, Y. Liu // Hecheng Xianwei. - 2010. - V. 39. P. 27.[42]Пат. КНР 101158060A, МПК C08F220/44, C08F4/04, D01F6/38. Acrylonitrile-based binarycopolymer spinning solution for carbon fiber precursor and its preparation [текст] / Li, Y.,Zhang, G., Li, B., Bai, Y., Liu, X., Yang, Zh.; заявитель СHANGCHUN APPLIEDCHEMISTRY; заявл. 20.11.2007, опубл. 09.04.2008.[43]Beckman, E. J. Supercritical and near-critical CO2 in green chemical synthesis and processing[текст] / E.
J. Beckman // J. of Supercritical Fluids. - 2004. - V. 28. - P. 121 - 191.107[44]Okubo, M. Production of polyacrylonitrile particles by precipitation polymerization insupercritical carbon dioxide [текст] / M. Okubo, S. Fujii, H. Maenaka, H. Minami // ColloidPolym. Sci. - 2003. - V. 281. - P. 964 - 972.[45]Teng, X.-R. Molecular Weight and Spinnability of Polyacrylonitrile Produced by PrecipitationPolymerization in Supercritical CO2 [текст] / X.-R.
Teng // J. Appl. Polym. Sci. - 2003. - V.87. - P. 1393 - 1398.[46]Teng, X.-R. Molecular Weight Distribution of Polyacrylonitrile Produced in Supercritical CO2[текст] / X. R. Teng, H. L. Shao, X. C. Hu // J. Appl. Polym. Sci. - 2002. - V. 86. - P. 2338 2341.[47]Yang, Y. Dispersion Copolymerization of Acrylonitrile-Vinyl Acetate in Supercritical CarbonDioxide [текст] / Y. Yang, Q.
Dong, Z. Wang, C. Shen, Z. Huang, H. Zhu, T. Liu, C. P. Hu //J. Appl. Polym. Sci. - 2006. - V. 102. - P. 5640 - 5648.[48]Yeo, S. D. Copolymerization of Acrylonitrile with Methyl Methacrylate and 2-Chlorostyrene inSupercritical CO2 [текст] / S. D. Yeo, E. Kiran. // Macromolecules. - 2004. - V. 37. - No 22. P. 8239 - 8248.[49]Shen, Q. Surface properties of poly(acrylonitrile) (PAN) precipitation polymerized insupercritical CO2 and the influence of the molecular weight [текст] / Q. Shen, Q. F. Gu, J. F.Hu, X. R. Teng, Y.
F. Zhu // J. Colloid Interface Sci. - 2003. - V. 267. - P. 333 - 336.[50]Teng, X.-R. Study on the Stereoregularity of Polyacrylonitrile Produced by PrecipitationPolymerization in Supercritical CO2 [текст] / X. R. Teng, X. C. Hu, H. L. Shao // Polym. J. 2002. - V. 34. - No 7. - P. 534 - 538.[51]Drumright, E. Polylactic Acid Technology [текст] / E. Drumright, P. R.
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