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Modification of ultra-high-molecular-weight polyethylene with nanoparticles of titanium subgroup metal oxides

  • Physical Methods of Investigation
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Abstract

A method for modifying ultra-high-molecular-weight polyethylene with nanoparticles of titanium subgroup metal oxides was considered, which consists in the interaction of organic oxygen donors with halides of titanium and other titanium subgroup metals directly in the polymer matrix. Forming in the polymer matrix, nanosized particles of oxides are incapable of agglomeration and have a noticeable effect on the properties of the polymer. In particular, they change the glass transition temperature and the temperature of the onset of melting, and also the dielectric permittivity over a wide temperature range.

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References

  1. J. Rockenberger, E. C. Scher, and A. P. Alivisatos, J. Am. Chem. Soc. 121, 11595 (1999).

    Article  CAS  Google Scholar 

  2. M. Shim and P. Guyot-Sionnest, J. Am. Chem. Soc. 123, 11651 (2001).

    Article  CAS  Google Scholar 

  3. J. Joo, T. Yu, W. Kim Young, et al., J. Am. Chem. Soc. 125, 6553 (2003).

    Article  CAS  Google Scholar 

  4. Y.-W. Jun, M. F. Casula, J.-H. Sim, et al., J. Am. Chem. Soc. 125, 15981 (2003).

    Article  CAS  Google Scholar 

  5. J. Tang, J. Fabbri, R. D. Robinson, et al., Chem. Mater. 16, 1336 (2004).

    Article  CAS  Google Scholar 

  6. M. Niederberger, G. Garnweitner, F. Krumeich, et al., Chem. Mater. 16, 1202 (2004).

    Article  CAS  Google Scholar 

  7. A. Avanzini, Exp. Mech. 45, 53 (2005).

    Article  Google Scholar 

  8. S. R. Bakshi, J. Miner. Met. Mater. Soc., 59 (7), 50 (2007).

    Article  CAS  Google Scholar 

  9. S.-J. Park, J. Ind. Eng. Chem. 11, 561 (2005).

    CAS  Google Scholar 

  10. Polymer Tribology, Ed. by S. K. Sinha and B. J. Briscoe (Imperial College Press, London, 2009).

  11. A. I. Rusanov, Thermodynamic Fundamentals of Mechanochemistry (Nauka, St. Petersburg, 2006) [in Russian].

    Google Scholar 

  12. G. B. Sergeev, Nanochemistry (MGU, Moscow, 2003) [in Russian].

    Google Scholar 

  13. A. I. Gusev, Nanomaterials, Nanostructures, Nanotechnologies (FIZMATLIT, Moscow, 2007) [in Russian].

    Google Scholar 

  14. R. A. Andrievskii and A. V. Ragulya, Nanostructured Materials (Akademiya, Moscow, 2005) [in Russian].

    Google Scholar 

  15. C. P. Poole, Jr., and F. J. Owens, Introduction to Nanotechnology (Wiley, Hoboken, NJ, 2003).

    Google Scholar 

  16. V. B. Aleskovskii, Course of Chemistry of Supramolecular Compounds (LGU, Leningrad, 1990) [in Russian].

    Google Scholar 

  17. A. Adamson, The Physical Chemistry of Surfaces (Wiley, New York, 1976).

    Google Scholar 

  18. A. V. Suvorov and A. B. Nikol’skii, General Chemistry (Khimiya, St. Petersburg, 1994) [in Russian].

    Google Scholar 

  19. V. M. Smirnov, Chemistry of Nanostructures: Synthesis, Structure, Properties (SPbGU, St. Petersburg, 1996) [in Russian].

    Google Scholar 

  20. I. P. Suzdalev, Nanotechnology: Physical Chemistry of Nanoclusts, Nanostructures, and Nanomaterials (KomKniga, Moscow, 2006) [in Russian].

    Google Scholar 

  21. Yu. D. Tret’yakov, N. N. Oleinikov, and A. P. Mozhaev, Fundamentals of Cryochemical Technology (Vysshaya Shkola, Moscow, 1987) [in Russian].

    Google Scholar 

  22. V. N. Antsiferov, L. D. Sirotenko, A. M. Khanov, and I. V. Yakovlev, Composite Materials and Structures Based on Titanium and Its Compounds (Inst. Gidrodinam., SO RAN, Novosibirsk, 2001) [in Russian].

    Google Scholar 

  23. G. S. Zakharova, V. L. Volkov, V. V. Ivanovskaya, and A. L. Ivanovskii, Nanotubes and Related Nanostructures of Metal Oxides (UrO RAN, Yekaterinburg, 2005) [in Russian].

    Google Scholar 

  24. Ya. E. Geguzin, Physics of Sintering (Nauka, Moscow, 1984) [in Russian].

    Google Scholar 

  25. V. D. Parkhomenko, P. I. Soroka, Yu. I. Krasnokutskii, and V. G. Vereshchak, Zh. Khim. Ob-va Im. D.I. Mendeleeva 36, 166 (1991).

    Google Scholar 

  26. A. M. John, R. Jose, and J. Koshy, J. Nanoparticle Res. 3, 413 (2001).

    Article  CAS  Google Scholar 

  27. B. R. Churagulov, N. E. Oleinikov, and S. L. Lyubimov, Zh. Neorg. Khim. 40, 202 (1995).

    CAS  Google Scholar 

  28. A. A. Burukhin and B. R. Churagulov, et al., Russ. J. Inorg. Chem. 47, 1609 (2002).

    Google Scholar 

  29. A. B. Antipov, Candidate’s Dissertation in Chemistry (MGU, Moscow, 2004).

    Google Scholar 

  30. E. M. Dedlovskaya, N. P. Kuz’mina, A. B. Antipov, et al, Inorg. Mater. 38, 1277 (2002).

    Article  CAS  Google Scholar 

  31. E. P. Turevskaya, M. I. Yanovskaya, and N. Ya. Turova, Inorg. Mater. 36, 260 (2000).

    Article  CAS  Google Scholar 

  32. Yu. V. Kolen’ko, A. A. Burukhin, B. R. Churagulov, et al., Russ. J. Inorg. Chem. 47, 1609 (2002).

    Google Scholar 

  33. Yu. V. Kolen’ko, V. D. Maksimov, A. V. Garshev, et al., Russ. J. Inorg. Chem. 49, 1133 (2004).

    Google Scholar 

  34. G. Selyutin, V. Voroshilov, Yu. Gavrilov, et al., Proceedings of the V International Conference on Mechanochemistry and Mechanical Alloying (Novosibirsk, 2006), p. 266 [in Russian].

    Google Scholar 

  35. A. D. Pomogailo, A. S. Rozenberg, and I. E. Uflyand, Nanoparticles of Metals in Polymers (Khimiya, Moscow, 2000) [in Russian].

    Google Scholar 

  36. V. N. Kargopol’tsev, D. M. Mognonov, I. A. Farion, et al., Trenie Iznos 30 (1), 78 (2009).

    Google Scholar 

  37. G. E. Selyutin, Yu. Yu. Gavrilov, E. N. Voskresenskaya, et al., Perspekt. Mater., No. 4, 137 (2007).

    Google Scholar 

  38. V. A. Poluboyarov, G. E. Selyutin, Z. A. Korotaeva, and Yu. Yu. Gavrilov, Perspekt. Mater., No. 6, 86 (2008).

    Google Scholar 

  39. A. V. Ushakov, V. N. Veselovskii, and V. E. Red’kin, Proceedings of the All-Russian Scientific and Technical Conference “Ultradispersed Powders, Nanostructures, Materials: Production, Properties, Application” (Krasnoyarsk, 2003), p. 75 [in Russian].

    Google Scholar 

  40. D. R. Askeland, The Science and Engineering of Materials (PWS, Boston, 1994).

    Google Scholar 

  41. G. N. Churilov, N. G. Vnukova, G. E. Selyutin, and I. V. Osipova, Phys. Solid State 51, 860 (2009).

    Article  CAS  Google Scholar 

  42. Chae-Woong Cho, Sangkyu Lee, Sung-Churl Choi, et al, J. Electroceram. 17, 345 (2006).

    Article  CAS  Google Scholar 

  43. A. D. Pomogailo, A. S. Rozenberg, and I. E. Uflyand, Nanoparticles of Metals in Polymers (Khimiya, Moscow, 2000) [in Russian].

    Google Scholar 

  44. S. P. Gubin and I. D. Kosobudskii, Usp. Khim. 52, 1350 (1983).

    Article  CAS  Google Scholar 

  45. I. D. Kosobudskii and G. Yu. Yurkov, Izv. Vyssh. Uchebn. Zaved., Khim. Khim. Tekhnol. 43 (5), 3 (2000).

    Google Scholar 

  46. M. V. Radchenko, G. V. Lashkarev, V. I. Sichkovskyi, et al., Inorg. Mater. 45, 468 (2009).

    Article  CAS  Google Scholar 

  47. S. N. Kolesov, Materials Science and Technology of Structural Materials (Vyssh. shkola, Moscow, 2007) [in Russian].

    Google Scholar 

  48. R. A. Andrievskii, Nanostructured Materials (BINOM, Moscow, 2004) [in Russian].

    Google Scholar 

  49. N. T. Kuznetsov, V. G. Sevast’yanov, E. P. Simonenko, et al., RF Patent No. 2 333 888 (2008).

    Google Scholar 

  50. E. P. Simonenko and N. A. Ignatov, et al., Inorg. Mater. 46, 495 (2010).

    Article  Google Scholar 

  51. V. G. Sevastyanov, E. P. Simonenko, N. A. Ignatov, et al., Russ. J. Inorg. Chem. 56, 661 (2011).

    Article  CAS  Google Scholar 

  52. N. T. Kuznetsov, V. G. Sevast’yanov, E. P. Simonenko, et al., RF Patent No. 2 407 705 (2010).

    Google Scholar 

  53. N. T. Kuznetsov, V. G. Sevast’yanov, E. P. Simonenko, et al., RF Patent No. 2 407 705 (2010).

    Google Scholar 

  54. G. A. Meerson and A. N. Zelikman, Metallurgy of Rare Elements (Metallurgizdat, Moscow, 1955) [in Russian].

    Google Scholar 

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Authors and Affiliations

  1. IREA Research Institute of Chemical Reagents and Special-Purity Substances, Bogorodskii val 3, Moscow, 107076, Russia

    A. M. Nemeryuk, M. M. Lylina, V. M. Retivov, P. A. Volkov & O. A. Zhdanovich

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  1. A. M. Nemeryuk
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  2. M. M. Lylina
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  3. V. M. Retivov
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  4. P. A. Volkov
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  5. O. A. Zhdanovich
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Correspondence to A. M. Nemeryuk.

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Original Russian Text © A.M. Nemeryuk, M.M. Lylina, V.M. Retivov, P.A. Volkov, O.A. Zhdanovich, 2015, published in Zhurnal Neorganicheskoi Khimii, 2015, Vol. 60, No. 12, pp. 1690–1698.

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Nemeryuk, A.M., Lylina, M.M., Retivov, V.M. et al. Modification of ultra-high-molecular-weight polyethylene with nanoparticles of titanium subgroup metal oxides. Russ. J. Inorg. Chem. 60, 1548–1555 (2015). https://doi.org/10.1134/S0036023615120190

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  • DOI: https://doi.org/10.1134/S0036023615120190

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