Dynamic analysis of cracks using boundary element method

A new methodology for computing dynamic stress intensity factors in the frequency domain based on the mixed boundary element method, a combination of the equations corresponding to the integral representations of displacements and tractions, is proposed and analysed. The expressions of hypersingular

In this paper, the dual boundary element method is extended to include the non-linear behaviour of cracking in concrete. The fictitious crack model is used to simulate the pure mode I and mixed mode crack propagation in concrete. The fictitious crack in the fracture zone in front of the real crack t

In this paper the dual boundary integral equation for three-dimensional dynamic problems in Laplace space is presented for the tirst time. The dual boundary element method is used to calculate dynamic stress intensity factors for three-dimensional cracked structures. The application of Laplace trans

## Abstract This study presents a novel application of the scaled boundary finite element method (SBFEM) to model dynamic crack propagation problems. Accurate dynamic stress intensity factors are extracted directly from the semi‐analytical solutions of SBFEM. They are then used in the dynamic fract