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Finite element analysis over tangled simplicial meshes: Theory and implementation

2013; Elsevier BV; Volume: 70-71; Linguagem: Inglês

10.1016/j.finel.2013.04.004

1872-6925

Josh Danczyk, Krishnan Suresh,

Advanced Numerical Analysis Techniques

In modern finite element analysis (FEA), a mesh is said to be 'tangled' if it contains one or more inverted elements. Tangling can occur, for example, during mesh optimization and mesh morphing. Modern finite element theory and commercial FEA packages are not designed to handle tangled meshes, i.e., they can lead to erroneous results. Researchers and practitioners therefore unanimously recommend untangling prior to analysis. In this paper, a new mathematical framework for FEA over tangled meshes is proposed. Specifically, by defining a cell decomposition of a tangled mesh, and an associated set of cell shape functions, it is shown that FEA can be successfully carried out over tangled meshes. The cell shape functions are constructed through an oriented linear combination of the classic element shape functions. Numerical examples illustrate the correctness of the proposed framework. Potential applications of the proposed framework are also illustrated.