论文信息 - Numerical approximation and error control for a thermoelastic contact problem

Numerical approximation and error control for a thermoelastic contact problem

A numerical method using finite elements for the spatial discretization and the Crank-Nicolson scheme for the time stepping is applied to a partial differential equation problem involving thermoelastic contact. The Crank-Nicolson scheme is interpreted as a low order continuous Galerkin method. By exploiting the variational framework inherent in this approach, an a posteriori error estimate is derived. This estimate gives a bound on the approximation error that depends on computable quantities such as the mesh parameters, time step and numerical solution. In this paper, the a posteriori estimate is used to develop a time step refinement strategy. Several computational examples are included that demonstrate the performance of the method and validity of the estimate.

M. I. M. Copetti | Donald A. French

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