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Computational Mechanics

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01-08-2014 | Original Paper

A stabilization technique for the regularization of nearly singular extended finite elements

Author: Stefan Loehnert

Published in: Computational Mechanics | Issue 2/2014

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Abstract

In this contribution a simple, robust and efficient stabilization technique for extended finite element (XFEM) simulations is presented. It is useful for arbitrary crack geometries in two or three dimensions that may lead to very bad condition numbers of the global stiffness matrix or even ill-conditioning of the equation system. The method is based on an eigenvalue decomposition of the element stiffness matrix of elements that only possess enriched nodes. Physically meaningful zero eigenmodes as well as enrichment scheme dependent numerically reasonable zero eigenmodes are filtered out. The remaining subspace is stabilized depending on the magnitude of the respective eigenvalues. One of the main advantages is the fact that neither the equation solvers need to be changed nor the solution method is restricted. The efficiency and robustness of the method is demonstrated in numerous examples for 2D and 3D fracture mechanics.

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Title: A stabilization technique for the regularization of nearly singular extended finite elements
Author: Stefan Loehnert
Publication date: 01-08-2014
Publisher: Springer Berlin Heidelberg
Published in: Computational Mechanics / Issue 2/2014
Print ISSN: 0178-7675
Electronic ISSN: 1432-0924
DOI: https://doi.org/10.1007/s00466-014-1003-7

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