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Journal Articles International Journal for Numerical Methods in Engineering Year : 2010

Multigrid solver with automatic mesh refinement for transient elastoplastic dynamic problems

Abstract

This paper presents an adaptive refinement strategy based on a hierarchical element subdivision dedicated to modeling elastoplastic materials in transient dynamics. At each time step, the refinement is automatic and starts with the calculation of the solution on a coarse mesh. Then, an error indicator is used to control the accuracy of the solution and a finer localized mesh is created where the user prescribed accuracy is not reached. A new calculation is performed on this new mesh using the non linear ``Full Approximation Scheme'' (FAS) multigrid strategy. Applying the error indicator and the refinement strategy recursively, the optimal mesh is obtained. This mesh verifies the error indicator on the whole structure. The multigrid strategy is used for two purposes. First, it optimizes the computational cost of the solution on the finest localized mesh. Second, it ensures information transfer amongst the different hierarchical meshes. A standard time integration scheme is used and the mesh is reassessed at each time step.

Dates and versions

hal-00525956 , version 1 (13-10-2010)

Identifiers

Cite

Ewen Biotteau, Alain Combescure, Anthony Gravouil, Antonius Lubrecht. Multigrid solver with automatic mesh refinement for transient elastoplastic dynamic problems. International Journal for Numerical Methods in Engineering, 2010, 84 (8), pp.947-971. ⟨10.1002/nme.2927⟩. ⟨hal-00525956⟩
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