Problem of coupled thermoelasticity for a half-layer with a tunnel cavity: An antisymmetric case
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2008
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Springer
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Abstract
A boundary-value problem of coupled thermoelasticity for a half-layer with a hole and mixed boundary conditions is solved. The problem is reduced to a system of four singular integral equations. It is solved numerically using the mechanical-quadrature method. A numerical experiment is conducted to study the dynamic stress concentration around cavities of different cross sections. The effect of the coupled thermal and elastic fields on the wave processes in the body is established.
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Keywords
coupled dynamic thermoelasticity, half-layer, tunnel cavity, mixed boundary conditions, singular integral equations of the second kind, dynamic stress concentration
Citation
L. A. Fil’shtinskii, A. V. Bondar’. Problem of coupled thermoelasticity for a half-layer with a tunnel cavity: An antisymmetric case. International Applied Mechanics, 2008, Volume 44, Number 10, Pages 1098-1105