The fractal analysis of polymerization kinetics in nanofiller presence was performed. The influence of catalyst structural features on chemical reaction course was shown. The notions of strange (anomalous) diffusion conception was applied for polymerization reactions description.
polymerization, kinetics, catalyst, nanofiller, fractal analysis, strange diffusion, полимеризация, кинетика, катализатор, нанонаполнитель, фрактальный анализ, аномальная диффузия
1. Kozlov G.V., Zaikov G.E., Klodzinska E., Richert Jozef. The fractal kinetics of polymerization catalyzed by nanofillers. Vestnik Kazanskogo tekhnologicheskogo universiteta. - 2013. - T.16. - №15. - P.13-18.
2. Kozlov G.V., Zaikov G.E., Klodzinska E., Richert Jozef. The fractal kinetics of polymerization catalyzed by nanofillers (Part 2). Vestnik Kazanskogo tekhnologicheskogo universiteta. - 2013. - T.16. - №19. - P.188-193.
3. Baranov V.G., Frenkel S.Ya., Brestkin Yu.V. Doklady AN SSSR, 1986, vol. 290(2), pp. 369-372. (Rus.).
4. Vilgis T.A. Physica A, 1988, vol. 153(2), pp. 341-354.
5. Brady R.M., Ball R.C. Nature, 1984, vol. 309(5965), pp. 225-229.
6. Botet R., Jullien R., Kolb M. Phys. Rev. A, 1984, vol. 30(4), pp. 2150-2152.
7. Kobayashi M., Yoshioka T., Imai M., Itoh Y. Macromolecules, 1995, vol. 28(22), pp. 7376-7385.
8. Kozlov G.V., Batyrova H.M., Zaikov G.E. J Appl. Polymer Sci., 2003, vol. 89(7), pp. 1764-1767.
9. Nugmatullin R.R. Teoretich. i Matematich. Fizika, 1992, vol. 90(3), pp. 354-367. (Rus.).
10. Kozlov G.V., Shustov G.B. In coll.: International Interdisciplinary Seminar “Fractals and Applied Synergetics, FaAS-01”, Moscow, Publishers MSOU, 2001, pp. 155-157. (Rus.).
11. Naphadzokovz L.Kh., Kozlov G.V., Zaikov G.E. Electron. Zhurnal “Studied in Russia”, 111, p. 1173-1179, 2007, http: // Zhurnal. apl. relarn. ru / articles / 2007 / 111. pdf. (Rus.).
12. Tyan H.-L., Liu Y.-C., Wei K.-H. Polymer, 1999, vol. 40(11), pp. 4877-4886.
13. Melikhov I.V. Rossiiskii Khimichesk. Zhurnal, 2002, vol. 66(5), pp. 7-14. (Rus.).
14. Pernyeszi T., Dekany I. Colloid Polymer Sci., 2003, vol. 281(1), pp. 73-78.
15. Moronta A., Ferrer V., Quero J., Arteaga G., Choren E. Appl. Catalysis A, 2002, vol. 230(1), pp. 127-135.
16. Naphadzokovz L.Kh., Shustov G.B., Kozlov G.V. In cool.: Proceedings of 9-th International Symposium “Order, Disorder and Properties of Oxides, ODPO-2006”. Rostov-na-Donu, RSU, 2006, pp. 49-51. (Rus.).
17. Meakin P. Chem. Phys. Lett., 1986, vol. 123(5), pp. 428-432.
18. Stanley E.H. In book: Fractals in Physics. Ed. Pietronero L., Tosatti E. Amsterdam, Oxford, New York, Tokyo, North-Holland, 1986, pp. 463-477.
19. Naphadzokovz L.Kh., Aphashagova Z.Kh., Kozlov G.V. In coll.: V Intern. Sci.-Pract. Conf. “Effective Building Constructions: Theory and Practice”. Penza, PSU, 2006, pp. 271-273. (Rus.).
20. Avnir D., Farin D., Pfeifer P. Nature, 1984, vol. 308(5959), pp. 261-263.
21. Balankin A.S. Synergetics of Deformable Body, Moscow, Ministry of Defence SSSR, 1991,404 p. (Rus.).
22. Van Damme H., Levitz P., Bergaya F., Alcover J.F., Gatineau L., Fripiat J.J. J. Chem. Phys., 1986, vol. 85(1), pp. 616-625.
23. Naphadzokovz L.Kh., Kozlov G.V. In coll.: Intern. Sci.-Techn. Conf. “Composite Building Materials. Theory and Practice”. Penza, PSU, 2006, pp. 170-172. (Rus.).
24. Zelenyi L.M., Milovanov A.V. Uspekhi Fizichesk. Nauk, 2004, vol. 174(8), pp. 809-852. (Rus.).
25. Chen J.-S., Poliks M.D., Ober C.K., Zang Y., Wiesher U., Giannelis E. Polymer, 2002, vol. 43(18), pp. 4895-4904.
