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W2135728267 startingPage "3540" @default.
W2135728267 abstract "Discrete crack models with cohesive binding forces in the fracture process zone have been widely used to address failure in quasi-brittle materials and interfaces. However, the numerical concerns and limitations stemming from the application of interface cohesive zone models in a quasi-static finite element framework increase considerably as the relative size of the process zone decreases. An excessively fine mesh is required in the process zone to accurately resolve the distribution of tractions in a relatively small moving zone. With a moderate mesh size, inefficient path-following techniques have to be employed to trace the local discretization-induced snap-backs. In order to increase the applicability of cohesive zone models by reducing their numerical deficiencies, a self-adaptive finite element framework is proposed, based on a hierarchical enrichment of the standard elements. With this approach, the planar mixed-mode crack growth in a general three-dimensional continuum, discretized by a coarse mesh, can be modeled while the set of equations of the non-linear system is solved by a standard Newton–Raphson iterative procedure. This hierarchical scheme was found to be most effective in reducing the oscillatory behavior of the global response." @default.
W2135728267 created "2016-06-24" @default.
W2135728267 creator A5053214326 @default.
W2135728267 creator A5054129826 @default.
W2135728267 creator A5070688242 @default.
W2135728267 date "2011-12-01" @default.
W2135728267 modified "2023-09-25" @default.
W2135728267 title "A three-dimensional self-adaptive cohesive zone model for interfacial delamination" @default.
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W2135728267 doi "https://doi.org/10.1016/j.cma.2011.08.021" @default.
W2135728267 hasPublicationYear "2011" @default.
W2135728267 type Work @default.
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