Strain energy release rate calculation for a moving delamination front of arbitrary shape based on the virtual crack closure technique. Part II: Sensitivity study on modeling details |
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Authors: | De Xie |
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Affiliation: | a Alpha STAR Corporation, 5199 East Pacific Coast Highway, Long Beach, CA 90804, USA b Department of Mechanical Engineering, Clemson University, Clemson, SC 29634, USA |
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Abstract: | The interface element and VCCT process described in Part I of this two-part paper, developed to compute strain energy release rates of an arbitrary delamination front using non-orthogonal finite element meshes, are further investigated in this paper for robustness and ease of use in tracking delamination growth. Standard 3-D elements are used in conjunction with the interface elements. No special singularity elements are required. Stationary meshes that are independent of the shape of the delamination front can be used. Three cases having different initial delamination shapes are examined. The process is shown to be insensitive to the values used for the interfacial spring stiffness, the orientation of the interface element, or even the mesh pattern if the mesh has a reasonable degree of refinement. Therefore, the method can be used with ease and confidence in general-purpose delamination growth analysis for engineering applications. |
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Keywords: | Delamination growth Virtual crack closure technique Strain energy release rate Interface element Finite element analysis |
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