1. S. V. Sheshenin, P. V. Chistyakov, M. E. Gritchenko, and I. M. Zakalyukina, “Averaging the viscoelastic properties of the rubber-cord layer,” Coll. of works of the 9th All-Russia. scientific. conf. “Mechanics of Composite Materials and Structures, Complex and Heterogeneous Media,” M., IPRIM RAN, 264-268 (2019).

2. A. A. Adamov, V. P. Matveenko, N. A. Trufanov, and I. N. Shardakov, Methods of Applied Viscoelasticity [in Russian], Yekaterinburg: Ural Branch of the Russian Academy of Sciences (2003).

3. A. S. Yankin, R. V. Bulbovich, S. V. Slovikov, and V. E. Vildeman, “Methodological issues of experimental studies on viscoelastic filled polymer composites under complex dynamic cyclic actions,” Vestn. PNRPU, Mekhanika, No. 4, 180-192 (2013).

4. M. Ly, K. A. Khan, and A. Muliana, “Modeling self-heating under cyclic loading in fiber-reinforced polymer composites,” J. Mater. Eng. Perform., 29 (2020). doi: https://doi.org/10.1007/s11665-020-04663-7

5. O. Larin, Y. Vyazovichenko, E. Barkanov, and M. Itskov, “Experimental investigation of viscoelastic characteristics of rubber-cord composites considering the process of their self-heating,” Strength Mater., 50, 841-851 (2018). - doi: https://doi.org/10.1007/s11223-019-00030-7