Analysis of mixed-mode dynamic crack propagation by interface element based on virtual crack closure technique

An interface element tailored for the virtual crack Closure technique (VCCT) was used to Study an example of dynamic crack propagation under mixed mode loading. Through this interfacial element approach, VCCT can be implemented into a commercial finite element analysis (FEA) code having user Subroutines without interrupting the main code. Further, with the implementation of relevant fracture criteria, this interface element can be used to Simulate a wide range of fracture problems by utilizing the enhanced capabilities available by the commercial FEA codes. For illustration, this element has been implemented with the commercial FLA software ABAQUS((R)) through the user defined element (UEL). One example of fast crack propagation at constant speed and under mixed-mode loading was examined by comparison to the other's numerical results using singular moving elements. No convergence difficulty was encountered for all the cases with different values of crack velocity. Neither singular element, not the collapsed element was required. Therefore, due to its simplicity, the VCCT interface element as demonstrated Could be a potential tool for engineers to practice dynamic fracture analysis in conjunction with commercial FLA codes. (c) 2006 Elsevier Ltd. All rights reserved.