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INFLUENCE OF 2D-NANOCARBONS ON HEAT RESISTANCE OF SILICONE RUBBERS

Abstract

The results of studying the graphene nanoplates (GNP) effect on thermal stability of the polydimethylsiloxane rubbers are proposed. GNP obtained by carbonization of biopolymers by self-propagating high-temperature synthesis. In the experiment, a silicone rubber compound ELASTOSIL® R401/40 S (Wacker Chemie AG, Germany) used. Analysis of the data a complementary methods complex made it possible to conclude that the introduction of GNP into the formulation as additives increases the heat resistance of silicone rubbers.

About the Authors

Julia Valeryevna Frantsuzova
Orders of Lenin and the Order of the Red Banner of Labor Research Institute of Synthetic Rubber named after Academician S.V. Lebedev
Russian Federation


Alexander Petrovich Wozniakovsky
Orders of Lenin and the Order of the Red Banner of Labor Research Institute of Synthetic Rubber named after Academician S.V. Lebedev
Russian Federation


Anna Yurievna Neverovskaya
Orders of Lenin and the Order of the Red Banner of Labor Research Institute of Synthetic Rubber named after Academician S.V. Lebedev
Russian Federation


Elena Olegovna Kotelkova
Orders of Lenin and the Order of the Red Banner of Labor Research Institute of Synthetic Rubber named after Academician S.V. Lebedev
Russian Federation


Elena Anatolyevna Bolshunova
Orders of Lenin and the Order of the Red Banner of Labor Research Institute of Synthetic Rubber named after Academician S.V. Lebedev
Russian Federation


References

1. Zhang H., Xing W., Li H., Xie Z., Huang G., Wu. J. Fundamental researches on graphene/rubber Nanocomposites // Advanced Industrial and Engineering Polymer Research. 2019. V. 2. P. 32–41.

2. Kausar A. Polydimethylsiloxane-based nanocomposite: present research scenario and emergent future trends // Polymer-Plastics Technology and Materials. 2020. V. 59. P. 1148–1166.

3. Han R., Li Y., Zhu Q., Niu K. Research on the preparation and thermal stability of silicone rubber composites: A review // Composites Part C: Open Access. 2022. V. 8. 100249.

4. Song Y., Yu J., Yu L., Alam F.E., Dai W., Li C., Jiang N. Enhancing the thermal, electrical, and mechanical properties of silicone rubber by addition of graphene nanoplatelets // Materials and Design. 2015. V. 88. P. 950–957.

5. Zaaba N.I., Foo K.L., Hashim U., Tan S.J., Liu W.W., Voon C.H. Synthesis of Graphene Oxide using Modified Hummers Method: Solvent Influence // Procedia Engeneering- 2017. V. 184. P. 469–477.

6. Voznyakovskii A.P., Vozniakovski A.A., Kidalov S.V. New Way of Synthesis of Few-Layer Graphene Nanosheets by the Self Propagating High-Temperature Synthesis Method from Biopolymers // Nanomaterials. 2022. V. 12, N. 4. P. 657.


Review

For citations:


Frantsuzova J.V., Wozniakovsky A.P., Neverovskaya A.Yu., Kotelkova E.O., Bolshunova E.A. INFLUENCE OF 2D-NANOCARBONS ON HEAT RESISTANCE OF SILICONE RUBBERS. Proceedings of the Kabardino-Balkarian State University. 2022;12(5):90-93. (In Russ.)

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ISSN 2221-7789 (Print)