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Article type: Research Article
Authors: Quintanilla, R.
Affiliations: Matemática Aplicada 2, Universidad Politècnica de Catalunya Colón, 11. Terrassa, Barcelona, Spain Tel.: 34‐937398162, E‐mail: [email protected]
Abstract: This paper derives spatial decay bounds in a dynamical problem of incremental thermoelasticity defined on a semi‐infinite cylindrical region. Previous results for isothermal elastodynamics and the parabolic heat equation lead us to suspect that the solution of the problem should tend to zero faster than a decaying exponential of the distance from the finite end of the cylinder. We prove that an energy expression is actually bounded above by a decaying exponential of a quadratic polynomial of the distance. As it has been previously proved for usual linear thermoelasticity, this is reminiscent of the decay rate in second order parabolic problems.
Keywords: incremental thermoelastodynamics, spatial estimates, Saint‐Venant's principle
Journal: Asymptotic Analysis, vol. 27, no. 3-4, pp. 265-279, 2001
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