Abstract
AbstractIn this study, an approach utilizing a conjunction of the extended finite element method (XFEM) and the Gurson‐Tvergaard‐Needleman (GTN) micromechanical damage model is proposed for predicting the ductile crack propagation of a mill‐annealed Ti‐6Al‐4V alloy. The cohesive model‐based XFEM approach is used to capture the continuous crack propagation process, and the GTN model is applied to describe the constitutive behaviour of the material. Simulations are conducted by using the standard finite element code ABAQUS following a Newton–Raphson algorithm solution with employing the user material subroutine of the GTN model. In comparison with the experimentalresults of the smooth, notched and cracked titanium specimens, this approach is shown to be an efficient method for simulating the ductile crack propagation process under different stress triaxialities.
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