Solid-Phase Production of Low-Density Polyethylene Compositions with Reduced Graphene Oxide under Shear Deformations

Cover Page

Cite item

Full Text

Open Access Open Access
Restricted Access Access granted
Restricted Access Subscription or Fee Access

Abstract

Nanocomposites of low-density polyethylene (LDPE) with a nanocarbon nanofiller, reduced graphene oxide (RGO) of different composition, have been obtained under conditions of high-temperature shear deformations in a rotary disperser. Structure and properties of the obtained nanocomposites have been studied using a wide range of physico-chemical methods of analysis, including laser diffraction, scanning electron microscopy, and measurement of mechanical and electrical parameters. The influence of the components ratio in the compositions on the characteristics of the resulting materials has been demonstrated.

About the authors

M. M. Gasymov

N.N. Semenov Federal Research Center for Chemical Physics, Russian Academy of Sciences

Email: s.rogovina@mail.ru
119991, Moscow, Russia

S. Z. Rogovina

N.N. Semenov Federal Research Center for Chemical Physics, Russian Academy of Sciences

Email: s.rogovina@mail.ru
119991, Moscow, Russia

O. P. Kuznetsova

N.N. Semenov Federal Research Center for Chemical Physics, Russian Academy of Sciences

Email: s.rogovina@mail.ru
119991, Moscow, Russia

V. G. Shevchenko

N.N. Semenov Federal Research Center for Chemical Physics, Russian Academy of Sciences; Enikolopov Institute of Synthetic Polymeric Materials, Russian Academy of Sciences

Email: s.rogovina@mail.ru
119991, Moscow, Russia; 117393, Moscow, Russia

A. A. Berlin

N.N. Semenov Federal Research Center for Chemical Physics, Russian Academy of Sciences

Author for correspondence.
Email: s.rogovina@mail.ru
119991, Moscow, Russia

References

  1. Jeffrey R.P., Daniel R.D., Christopher W.B. // Polymer. 2011. V. 52. P. 5.
  2. Layek R.K., Nandi A.K. // Polymer. 2013. V. 54. № 19. P. 5087.
  3. Alam F., Choosri M., Gupta T.K., Varadarajan K.M. // Mater. Sci. Eng. B. 2019. V. 241. P. 82.
  4. Barra A., Santos J.D.C., Silva M.R.F., Nunes C. // Nanomaterials. 2020. V. 10. P. 1.
  5. Rafiee M.A., Rafiee J., Wang Z., Song H., Yu Z.-Z., Koratkar N. // ACS Nano. 2009. V. 3. № 3. P. 3884.
  6. Abbasi H., Antunes M., Velasco J.I. // Prog. Mater. Sci. 2019. V. 103. P. 319.
  7. Nasir A., Kausar A., Younus A. // Polym. Plast. Technol. Eng. 2015. V. 54. P. 750.
  8. Olanipekun O., Oyefusi A., Neelgund G.M., Oki A. // Spectrochim. Acta A. 2015. V. 149. P. 991.
  9. Zhu Y., Peng Q., Qin Y., Zhao X., Xu L., Chen Q., Li Y., Xu Z., He X. // ACS Appl. Nano Mater. 2020. V. 3. P. 9076.
  10. Pang Y., Yang J., Curtis T.E., Luo S., Huang D., Feng Z., Morales-Ferreiro J.O., Sapkota P., Lei F., Zhang J., Zhang Q., Lee E., Huang Y., Guo R., Ptasinska S., Roeder R.K., Luo T. // ACS Nano. 2019. V. 13. P. 1097.
  11. Sarker F., Karim N., Afroj S., Koncherry V., Novoselov K.S., Potluri P. // ACS Appl. Mater. Interfaces. 2018. V. 10. P. 34502.
  12. Chen M., Muniz A.R., Maroudas D. // ACS Appl. Mater. Interfaces. 2018. V. 10. P. 28898.
  13. Gobi N., Vijayakumar D., Keles O., Erogbogbo F. // ACS Omega. 2017. V. 2. P. 4356.
  14. Messina E., Leone N., Foti A., Marco G.D., Riccucci C., Carlo G.D., Maggio F.D., Cassata A. // ACS Appl. Mater. Interfaces. 2016. V. 8. P. 23244.
  15. Liu W., Do I., Fukushima H., Drzal L.T. // Carbon Letters. 2016. V. 11. № 4. P. 279.
  16. Potts J.R., Daniel R.D., Christopher W.B., Rodney S.R. // Polymer. 2011. V. 52. P. 5.
  17. Прут Э.В., Зеленецкий А.Н. // Успехи химии. 2001. Т. 70. № 1. С. 72.
  18. Rogovina S.Z., Gasymov M.M., Lomakin S.M., Kuznetsova O.P., Ermolaev I.M., Shevchenko V.G., Shapagin A V., Arbuzov A.A., Berlin A.A. // Mech. Compos. Mater. 2023. V. 58. № 6. P. 845.
  19. Rogovina S.Z., Aleksanyan K.V., Loginova A.A., Ivanushkina N.E., Vladimirov L.V., Prut E.V., Berlin A.A. // Starch – Starke. 2018. V. 70. № 7. P. 1700268.
  20. Rogovina S., Prut E., Aleksanyan K., Krashininnikov V., Perepelitsyna E., Shaskin D., Ivanushkina N., Berlin A. // J. Appl. Polym. Sci. 2019. V. 136. № 22. P. 47598.
  21. Rogovina S., Zhorina L., Gatin A., Prut E., Kuznetsova O., Yakhina A., Olkhov A., Samoylov N., Grishin M., Iordanskii A., Berlin A. // Polymers. 2020. V. 12. P.1088.
  22. Rogovina S., Lomakin S., Usachev S., Gasymov M., Kuznetsova O., Natalya S., Shevchenko V., Prut E., Berlin A. // Polym. Crystallization. 2022. V. 2022. P. 1.
  23. Rogovina S.Z., Lomakin S.M., Gasymov M.M., Kuznetsova O.P., Shevchenko V.G., Melnikov V.P., Berlin A.A. // Polymer Science D. 2023. V. 16. № 1. P. 161.
  24. Wu H., Lu C., Zhang W., Zhang X. // Mater. Des. 2013. V. 52. P. 621.
  25. Che J., Wu K., Lin Y., Wang K., Fu Q. // Composites A. 2017. V. 99. P. 32.
  26. Khanam P.N., AlMaadeed M.A., Ouederni M., Harkin-Jones E., Mayoral B., Hamilton A., Sun D. // Vacuum. 2016. V. 130. P. 63.
  27. Hari B.S., Kumar K.V.M., Krishnamurthy K., Kumar P.S., Gobinath V.K., Sachinbala R., Rajasekar R. // Mater. Today. 2020. V. 39. P. 1.
  28. Arbuzov A.A., Muradyan V.E., Tarasov B.P., Sokolov E.A., Babenko S.D. // Russ. J. Phys. Chem. 2016. V. 90. № 5. P. 663.
  29. Arbuzov A.A., Muradyan V.E., Tarasov B.P. // Izv. RAS Ser. Chem. 2013. V. 62. № 9. P. 1962.
  30. Blythe T., Bloor D. Electrical Properties of Polymers. Cambridge: Cambridge Univ. Press, 2008.

Supplementary files

Supplementary Files
Action
1. JATS XML
Download
2.

Download (67KB)
Indexing metadata
3.

Download (1MB)
Indexing metadata
4.

Download (1MB)
Indexing metadata
5.

Download (99KB)
Indexing metadata
6.

Download (357KB)
Indexing metadata
7.

Download (74KB)
Indexing metadata

Copyright (c) 2023 М.М. Гасымов, С.З. Роговина, О.П. Кузнецова, В.Г. Шевченко, А.А. Берлин