Composite Films Based on Methyl Cellulose Mixtures with Poly(urethane-imide) Obtained from Their Solutions in Dimethylacetamide

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Resumo

Composite films of methyl cellulose and poly(urethane-imide) are obtained. At the poly(urethane-imide) content in the films above 50% phase separation of the polymers is observed. Using the methods of dynamic mechanical analysis and X-ray diffraction the structural organization of the films is studied, the temperatures of relaxation transitions are determined, and the mechanical characteristics of the composite films are investigated.

Sobre autores

D. Buslaev

Institute of Macromolecular Compounds, Russian Academy of Sciences

Email: abochek@mail.ru
199004, St. Petersburg, Russia

A. Didenko

Institute of Macromolecular Compounds, Russian Academy of Sciences

Email: abochek@mail.ru
199004, St. Petersburg, Russia

A. Bochek

Institute of Macromolecular Compounds, Russian Academy of Sciences

Email: abochek@mail.ru
199004, St. Petersburg, Russia

V. Kudryavtsev

Institute of Macromolecular Compounds, Russian Academy of Sciences

Email: abochek@mail.ru
199004, St. Petersburg, Russia

V. Smirnova

Institute of Macromolecular Compounds, Russian Academy of Sciences

Email: abochek@mail.ru
199004, St. Petersburg, Russia

I. Gofman

Institute of Macromolecular Compounds, Russian Academy of Sciences

Email: abochek@mail.ru
199004, St. Petersburg, Russia

I. Abalov

Institute of Macromolecular Compounds, Russian Academy of Sciences

Email: abochek@mail.ru
199004, St. Petersburg, Russia

V. Yudin

Institute of Macromolecular Compounds, Russian Academy of Sciences

Email: abochek@mail.ru
199004, St. Petersburg, Russia

V. Lavrent’ev

Institute of Macromolecular Compounds, Russian Academy of Sciences

Autor responsável pela correspondência
Email: abochek@mail.ru
199004, St. Petersburg, Russia

Bibliografia

  1. Dobrovol’skaya I.P., Yudin V.E., Drozdova N.F., Smirnova V.E., Gofman I.F., Popova E.N., Bochek A.M., Zabivalova N.M., Plugar I.V., Panarin E.F. // Polymer Science A. 2011. V. 53. № 2. P. 166.
  2. Jung H.-S., Kim H.C., Park W.H. // Carbohydr. Polymers. 2019. V. 213. P. 311.
  3. Deng L., Liu Y., Yang L., Yi J.-Z., Deng F., Zhang L.-M. // Colloids Surf. B. 2020. V. 194. P. 111159.
  4. Tang Y., Wang X., Li Y., Lei M., Du Y., Kennedy J.F., Knill C.J. // Carbohydr.Polymers. 2010. V. 82. № 3. P. 833.
  5. Babu V.R., Sairam M., Hosamani K.M., Aminabhavi T.M. // Carbohydr. Polymers. 2007. V. 69. № 2. P. 241.
  6. Li L., Jing H., Gao Y., Hu T., Meng Y., Fu G. // Construction Build. Mater. 2020. V. 244. P. 118403.
  7. Tate M.C., Shear D.A., Hoffman S.W., Stein D.G., La Placa M.C. // Biomaterials. 2001. V. 22. P. 1113.
  8. Akindoyo J.O., Beg M.D.H., Ghazali S., Islam M.R., Jeyaratnama N., Yuvaraj A.R. // Royal Soc. Chem. 2016. V. 6. P. 114453.
  9. Solanki A., Das M., Thakore S. // Carbohydr. Polymers. 2018. V. 181. P. 1003.
  10. Desai S., Thakore I.M., Sarawade B.D., Devi S. // Polym. Eng. Sci. 2000. V. 40. № 5. P. 1200.
  11. Solanki A., Das M., Thakore S. // Carbohydr. Polymers. 2014. V. 110. P. 338.
  12. Solanki A.R., Kamath B.V., Thakore S. // J. Appl. Polym. Sci. 2015. V. 132. № 28. P. 4223.
  13. Chen Y., Xie A., Zhang M., Inoue S.-I. // Open J. Org. Polym. Mater. 2017. V. 7. P. 29.
  14. Pan X., Saddler J.N. // Biotechnol. Biofuels. 2013. V. 6. № 12. P. 1.
  15. Didenko A.L., Kuznetsov D.A., Vaganov G.V., Smirnova V.E., Popova E.N., Ivanov A.G., Svetlichnyi V.M., Yudin V.E., Kudryavtsev V.V. // Polymer Science C. 2020. V. 62. № 2. P. 90.
  16. Didenko A.L., Ivanov A.G., Bogdanova E.A., Smirnova V.E., Vaganov G.V., Popova E.N., Kuznetsov D.A., Kobykhno I.A., Vasil’eva E.S., Tolochko O.V., Svetlichnyi V.M., Yudin V.E., Kudryavtsev V.V. // Rus. J. Appl. Chem. 2020. V. 93. № 9. P. 45.
  17. Didenko A.L., Ivanov A.G., Bogdanova E.A., Smirnova V.E., Vaganov G.V., Popova E.N., Kuznetsov D.A., Kobykhno I.A., Vasilieva E.S., Tolochko O.V., Svetlichnyi V.M., Yudin V.E., Kudryavtsev V.V. // Russ. Chem. Bull. 2021. V. 70. № 9. P. 1746.
  18. Didenko A.L., Ivanov A.G., Bogdanova E.A., Smirnova V.E., Vaganov G.V., Popova E.N., Kuznetsov D.A., Kobykhno I.A., Vasilieva E.S., Tolochko O.V., Svetlichnyi V.M., Yudin V.E., Kudryavtsev V.V. // Rus. J. Appl. Chem. 2021. V. 94. № 9. P. 1240–1258.
  19. Kobykhno I., Tolochko O., Vasilyeva E., Didenko A., Kuznetcov D., Vaganov G., Ivanov A., Kudryavtsev V. // Key Engineering Materials. 2016. V. 721. P. 23.
  20. Bochek A.M., Nishiyama Sh., Zabivalova N.M., Gavrilova I.I., Nesterova N.A., Panarin E.F., Poltoratskii G.M., Gofman I.V., Yudin V.E., Smirnova V.E., Abalov I.V., Lavrent’ev V.K., Vlasova E.N., Volchek B.Z. // Polymer Science A. 2011. V. 53. № 5. P. 409.
  21. Bochek A.M., Zabivalova N.M., Gavrilova I.I., Gofman I.V., Abalov I.V., Popova E.N., Yudin V.E., Lavrent’ev V.K., Panarin E.F. // Polymer Science A. 2014. V. 56. № 2. P. 158.
  22. Rimdusit S., Jingjid S., Damrongsakkul S., Tiptipakorn S., Takeichi T. // Carbohydr. Polymers. 2008. V. 72. № 3. P. 444.
  23. Kutsenko L.I., Santuryan Yu.G., Gofman I.V., Abalov I.V., Kalyuzhnaya L.M., Bochek A.M., Panarin E.F. // Rus. J. Appl. Chem. 2010. V. 83. № 1. P. 102.
  24. Симанович И.Е., Петропавловский Г.А., Ларина Э.И., Сазанов Ю.Н., Степанов Н.Г. // Журн. прикл. химии. 1991. Т. 64. № 3. С. 626.
  25. Bochek A.M., Terekhova E.A., Popova E.N., Smirnova V.E., Yudin V.E., Gofman I.V., Abalov I.V., Lavrent’ev V.K. // Polymer Science A. 2022. V. 64. № 5. P. 368.
  26. Nunes R.C.R., Pereira R.A., Fonseca J.L.C., Pereira M.R. // Polym. Testing. 2001. V. 20. P. 707.

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Declaração de direitos autorais © Д.Л. Буслаев, А.Л. Диденко, А.М. Бочек, В.В. Кудрявцев, В.Е. Смирнова, И.В. Гофман, И.В. Абалов, В.Е. Юдин, В.К. Лаврентьев, 2023