POLYMER COMPOSITIONS MODIFIED WITH MONTMORILLONITE

Abstract

The review of the literature data shows the analysis of the current state of the study of polymer composite materials modified by the natural mineral montmorillonite, contributing to the increase of thermal, strength, and electrostatic properties, reducing the gas permeability of the material as a whole.

References

[1] Cheng C., Cheng H., Cheng F., Lee Y. Effect of reactive channel functional groups and nanocomposite of nanoscale mesoporouse silica on properties of polyimide // Macromol. 2006. Vol. 39, N 22. P. 7583-7590.
[2] Lyisenkov E.A., Gomza Yu.P., Klepko V.V. Struktura i ionnaya provodimost polimernyih elektrolitov na osnove polietilenglikolya i organomodifitsirovannogo montmorillonita // Sb. mater. H Mezhd. konf. po himii i fiziko-himii oligomerov. Volgograd, 2009. P. 240.
[3] Gonchar A.N., Shtompel V.I., Savelev Yu.K. Nanokompozityi na osnove lineynogo anionoaktivnogo poliuretanovogo ionomera i montmorillonita // Polimern. zhurn. 2009. N 1. P. 81-88.
[4] Mashkov Yu.K., Ovchar Z.N., Surikov V.I., Kanistratova L.F. Kompozitsionnyie materialyi na osnove politetraftoretilena. M.: Mashinostroenie, 2005. 240 p.
[5] Borisov V.A., Bedankov A.Yu., Karmokov A.G. i dr. Svoystva polimernyih nanokompozitov na osnove organomodifitsirovannogo Na-montmorillonita // Plast. massyi. 2007. N 5. P. 30-33.
[6] Kahramanov N.T., Kasumova G.Sh., Osipchik V.S., Gadzhieva R.Sh. Iznosostoykie polimernyie materialyi. Struktura i svoystva // Plast. massyi. 2017. N 11-12. P. 8-14.
[7] Petrov V.T. Bentonityi. M.: Nauka, 1980. 273 p.
[8] Battalova Sh.B. Fiziko-himicheskie osnovyi polucheniya i primeneniya katalizatorov i adsorbentov iz bentonitov. Alma-Ata: Nauka, 1986. 168 p.
[9] Ohlopkova A.A., Popov S.N., Sleptsova S.A. i dr. Polimernyie nanokompozityi tribotehnicheskogo naznacheniya // Zhurn. strukt. himii. 2004. N 45. P. 172-175.
[10] Vorontsov A.S., Liopo V.A., Avdeychik S.V., Kozello A.V. Protsessyi agregatsii dispersnyih chastits modifikatorov polimernyih matrits // Gornaya mehanika i mashinostroenie. 2011. N 4. P. 81-85.
[11] Finevich V.P., Allert N.A., Karpova T.R., Duplyakin V.K. Kompozitsionnyie nanomaterialyi na osnove kislotno-aktivirovannyih montmorillonitov // Ros. him. zhurn. (Zh. Ros. him. obva im. D.I. Mendeleeva). 2007. Vol. LI, N 4. P. 69-74.
[12] Chvalun S.N. Polimernyie nanokompozityi // Priroda. 2000. N 7. P. 1-13.
[13] Tinnus K.M. Plastifikatoryi. M.: Himiya, 1964. 916 p.
[14] Begieva M.B., Ligidov M.H., Pahomov S.I. Vliyanie modifitsirovannogo N,N'diallilaminoizogeksanovoy kislotoy Na-montmorillonita na strukturu i svoystva polipropilena // Izv. VUZov. 2015. N 2. P. 53-57.
[15] Schuler B, Baumstark R, Kirsch S., et al. Structure and properties of multiphase particles and their impact on the performance of architectural coatings // Prog. Org. Coat. 2000. Vol. 40. P. 139-50.
[16] Hsu-Tung Lu. Synthesis and characterization of amino-functionalized silica nanoparticles // Colloid J. 2013. Vol. 75, N 3. P. 311-318.
[17] Sokolova Yu.A., Shubanov S.M., Kadyirin L.B., Kalugina E.V. Polimernyie nanokompozityi. Struktura. Svoystva // Plast. massyi. 2009. N 3. P. 18-23.
[18] Maksimov R.D., Gaidukovs S., Zicans J., et al. Nanocomposites based on styreneacrylate copolymer and organically modified montmorillonite 2 // Mechanics of Composite Materials. 2006. Vol. 42, N 4. P. 353-362.
[19] Trofimov A.E., Stepanov I.S., Tenkovets A.V. Novyiy podhod k sintezu organo-neorganicheskih nanokompozitov // Zhurn. prikl. himii. 2007. Vol. 80, N 4. P. 627-631.
[20] Gardelien F. Synthesis of dense ceramics of single-phase mayenite (Ca12Al14O32)O // J. Phys. Chem. Ser. B. 2004. Vol. 108, N 30. P. 10678-10686.
[21] Lin W., Tian X. Synthesis and Properties of New Polyimide-Silica Hybrid Films through both Intrachain and Interchain Bonding // J. Polym. Sci. 2004. Vol. 94, N 2. P. 1229-1232.
[22] Cheng-Tang O. Use of a strain amplification factor to describe the elastic behavior of filler reinforced vulcanized rubber // J. Appl. Polym. Sci. 2003. Vol. 89, N 12. P. 3315-3322.
[23] Davis C.H., Mathias L.J., Gilman J.W., et al. Polietilen asosida qiyin yonuvchan kompozitsiyalami yaratish // J. Polym. Sci. 2002. Vol. 40 V, N 23. P. 2661-2666.
[24] Xia Y., Fan X. Thermomechanical Analysis of Polymer Nanocomposites // J. Polym. Mater. Sci. 2005. Vol. 21, N 3. P. 117-120.
[25] Gerasin V.A., Bahov F.N., Merekalova N.D. i dr. // Struktura formiruyuschihsya na Na -montmorillonite sloev poverhnostno aktivnyih veschestv i sovmestimost modifitsirovannoy glinyi s poliolefinami // Vyisokomolek. soed. 2005. Vol. 47 A, N 9. P. 1635-1651.
[26] Wei L., Tang T., Huang B. Synthesis and characterization of polyethylene/montmorillonite /composite // J. Polym. Sci. 2004. Vol. 42 A, N 4. P. 941-949.
[27] Zidi R., Bekri-Abbes I., Srasra E. The effect of monomer and clay proportion on the formation of polypyrrole clay intercalated nanocomposite // Elektronnaya obrabotka materialov. 2016. N 52(4). P. 22-29.
[28] Anuar K. Metastable phase relation and phase equilibria in the Cr2O3-Fe2O3 system // J. Preparation and characterization Mater. Sci. 2004. Vol. 10, N 3. P. 255-258.
[29] Rehab A., Salahuddin N. Synthesis and Characterization of New Reducing Agent Based on Methylmethacrylate-Vinylpyridene Copolymer–Clay Nanocomposites // J. Mater. Sci. 2005. Vol. 399, N 1-2. P. 368-376.
[30] Ma C.M., Su H.Y., et al. Synthesis and thermal studies of flexible polyurethane nanocomposite forms obtained using nanoclay modified with flame retardant compound // J. Polym. Sci. 2006. Vol. 44, N 9. P. 1076-1089.
[31] Mehmet Atilla Tasdelen, Wim Van Camp, Eric Goethals, Philippe Dubois, et al. Polytetrahydrofuran/Clay Nanocomposites by in situ Polymerization and “Click” Chemistry Processes // Macromol. 2008. Vol. 41. P. 6035-6040.
[32] Xiong I, Zheng Z., Jifng H., et. al. Organic/inorganic nanocomposites for high temperature // J. Composites. 2007. Vol. 38, N 1. P. 132-137.
[33] Bedanokov A.Yu., Mikitaev A.K., Borisov V.A., et al. Properties of polymer nanocomposites based on organomodified Na-montmorillonite // J. of the Balkan Tribological Association. 2007. Vol. 13, N 3. P. 360-366.
[34] Den Gao, Robert B. Heimann. Structure and mechanical properties of superabsorbent poly(acrilamide)-montmorillonite composite hydrogels // Polymer Gels and Networks. 1993. Vol. 1, N 4. P. 225-246.
[35] Pozzo D. C. Reversible shear gelation of polymer–clay dispersions // J. Colloide and Surfaces. 2004. Vol. 240, N 1-3. P. 187-198.
[36] Chigwada G., Wang D., Jiang D., Wilkie C. Transition metal complexes of N-picolyl polyurethane // J. Polym. 2006. Vol. 91, N 4. P. 755-762.
[37] Semenov V.V., Melenskova N.V., Cherepennikova N.F. i dr. Funktsionalnyie kremniysoderzhaschie iminenolyi i enamin-ketonyi: poluchenie i gidroliticheskaya kondensatsiya // Zhurn. prikl. himii. 2007. Vol. 80, N 4. P. 663-669.
[38] Poplevina N.V. Azotsoderzhaschie karbo- i geterotsiklicheskie soedineniya na osnove atsetilzameschennyih tsiklogeksanonov i oksotsiklogeksandikarboksilatov: Avtoref. kand. him. nauk. Saratov, 2009. 24 p.
[39] Sompong Piriyaon. Struktura, mehanicheskie i tribotehnicheskie svoystva nanokompozitov na osnove uslovno himicheski modifitsirovannogo sverhvyisokomolekulyarnogo polietilena: Avtoref. kand. him. nauk. Tomsk, 2012. 24 p.
[40] Lednev O.B. Sloistosilikatnyie nanokompozityi na osnove polibutilentereftalata: Avtoref. kand. him. nauk. M., 2006. 24 p.
[41] Tsurova A.T. Vliyanie himicheskogo stroeniya organomodifikatora montmorillonita na fiziko-himicheskie svoystva poliamid-6/sloistosilikatnyih nanokompozitov: Avtoref. kand. him. nauk. Nalchik, 2014. 24 p.
[42] Zaikov G.E., Lomakin S.M. Kompozityi ponizhennoy goryuchesti na osnove sloistyih silikatov // Konstruktsii iz kompozitsionnyih materialov. 2005. N 1. P. 17-36.
[43] Shoranova L.O., Chukov N.M., Mikitaev A.K. Nanokompozityi na osnove prosteyshih poliolefinov // Naukoemkie tehnologii. 2011. Vol. 12, N 2. P. 61-71.