1. A. K. Kondé, L. Rosu, F. Lebon, et. al., “Thermomechanical analysis of an aircraft tire in cornering using coupled ale and lagrangian formulations,” Cent. Eur. J. Eng., 3, No. 2, 191–205 (2013).
2. A. Gonçalves De Lima, D. Rade, H. Lacerda, et. al., “Influence of the combined dynamic and static strains on the self-heating phenomenon in viscoelastic dampers,” in: Proc. of the 22nd Int. Congr. on Mechanical Engineering – COBEM 2013 (November 3–7, 2013, Ribeirao Preto, Brazil) (2013), pp. 9739– 9747.
3. D. A. Hguyen, J. Dang, Y. Okui, et al., “An improved rheology model for the description of the rate-dependent cyclic behavior of high damping rubber bearings,” Soil Dyn. Earthq. Eng., 77, 416–431 (2015).
4. Y. Koutsawa, W. L. Azoti, S. Belouettar, et al., “Loss behavior of viscoelastic sandwich structures: A statistical-continuum multi-scale approach,” Compos. Struct., 94, No. 4, 1391–1397 (2012).
5. G. S. Pisarenko, A. P. Yakovlev, and V. V. Matveev, Vibration Absorbing Properties of Constructional Materials [in Russian], Naukova Dumka, Kiev (1971).