H. А. Shynkarenko scite author profile

Abstract. Using Lord-Shulman hypothesis we formulate the initial boundary value problem and its corresponding variational problem of a generalized linear thermopiezoelectricity in terms of the displacement, electrical potential, temperature increment and heat flux, which describes the dynamic behavior of the coupled mechanic, electric and heat waves in pyroelectric materials. We construct the corresponding energy balance equation and determine input data regularity for the variational problem, which guarantees the existence, uniqueness and stability of its solution in the problem energy norm. Based on these results, we propose a numerical scheme for solving this problem, which includes spatial finite element semi-discretization and one-step recurrent time integration procedures and generalizes the similar one for classic thermopiezoelectricity problem. We give the sufficient conditions on the values of the scheme parameters which guarantee properties of conservatism and unconditional stability of the scheme. The rest of the article is devoted to the analysis of performed numerical experiments with 1D model problem and their results are then compared with the ones obtained by the other researchers.

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H. А. Shynkarenko

Mathematical Model of the Thermoelasticity of the Surface Layer of Parts During Discontinuous Friction Treatment

Numerical modeling of thermopiezoelectricity steady state forced vibrations problem using adaptive Finite Element Method

Well-Posedness of the Green–Lindsay Variational Problem of Dynamic Thermoelasticity

Numerical solution of Lord-Shulman thermopiezoelectricity dynamical problem

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