Extended finite element method and fast marching method for three-dimensional fatigue crack propagation
2002; Elsevier BV; Volume: 70; Issue: 1 Linguagem: Inglês
10.1016/s0013-7944(02)00032-2
ISSN1873-7315
AutoresN. Sukumar, David L. Chopp, Brian J. Moran,
Tópico(s)Fluid Dynamics Simulations and Interactions
ResumoA numerical technique for planar three-dimensional fatigue crack growth simulations is proposed. The new technique couples the extended finite element method (X-FEM) to the fast marching method (FMM). In the X-FEM, a discontinuous function and the two-dimensional asymptotic crack-tip displacement fields are added to the finite element approximation to account for the crack using the notion of partition of unity. This enables the domain to be modeled by finite elements with no explicit meshing of the crack surfaces. The initial crack geometry is represented by level set functions, and subsequently signed distance functions are used to compute the enrichment functions that appear in the displacement-based finite element approximation. The FMM in conjunction with the Paris crack growth law is used to advance the crack front. Stress intensity factors for planar three-dimensional cracks are computed, and fatigue crack growth simulations for planar cracks are presented. Good agreement between the numerical results and theory is realized.
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