B. P. Maslov and Ya. G. Lyashenko, “Efficient creep characteristics of multiconstituent materials,” Teor. Prikl. Mekh., 33, 40–45 (2001).
A. A. Kaminski and G. V. Gavrilov, “Delayed fracture of an aging viscoelastic composite under plane strain,” Int. Appl. Mech., 38, No.2, 181–187 (2002).
N. V. Novikov, A. L. Maistrenko, and V. N. Kulakovskii, Resistance of Superhard Composite Materials to Fracture [in Russian], Naukova Dumka, Kiev (1993).
L. P. Khoroshun, “The method of conditional moments in problems of the mechanics of composite materials,” Prikl. Mekh., 23, No.10, 100–108 (1987).
B. P. Maslov, “Stress concentration in an uncompressible multiconstituent material,” Prikl. Mekh., 36, No.3, 108–114 (2000).
I. N. Molchanov, I. S. Levchenko, N. N. Fedorchuk, et al., “Numerical simulation of the stress concentration in an elastic half-space with a two-layer inclusion,” Int. Appl. Mech., 38, No.3, 308–314 (2002).
B. P. Maslov, Ya. Ya. Rushitskii, and A. P. Kovalenko, “Complete sets of physical constants for the nonlinear microstructural theory of the two-phase elastic compound calculated for a number of structural materials,” Prikl. Mekh., 32, No.4, 18–26 (1996).
A. N. Guz', V. A. Maksimyuk, and I. S. Chernyshenko, “Numerical stress-strain analysis of shells including the nonlinear and shear properties of composites,” Int. Appl. Mech., 38, No.10, 1220–1228 (2002).
I. Yu. Babich and A. N. Guz', “Stability of composite structure members (three-dimensional formulation),” Int. Appl. Mech., 38, No.9, 1048–1075 (2002).
Yu. N. Rabotnov, Elements of Hereditary Mechanics of Solid Bodies [in Russian], Nauka, Moscow (1977).
M. Megnis and J. Varna, “Micromechanics-based modeling of nonlinear viscoplastic response of unidirectional composites,” Compos. Sci. Tech., 63, 19–31 (2003).