Crack Deflection from the Interface between Two Orthotropic Materials-Effect of Higher Order Terms in Asymptotic Analysis

conference paper

English

The problem of crack deflection from the interface between two orthotropic materials is analyzed using the concept of Finite fracture mechanics and matched asymptotic procedure. A fracture criterion based on the energy approach is introduced for this problem. The main input for such criterion is the complex stress intensity factor calculated e.g. using the two-state integral. However for more precise predictions of the crack propagation also higher order terms of the asymptotic expansion are advisable to involve in the fracture criterion. To this end a T-stress term will be calculated and considered as the second input parameter. The matched asymptotic procedure together with FEM is used to derive the change of the potential energy induced by the incremental crack growth.

Interface crack, Finite fracture mechanics, Crack kinking, Fracture criterion, T-stress

DAMBORSKÝ, P.; ŠEVEČEK, O.; PROFANT, T.; KOTOUL, M.

2014

6. 1. 2014

Trans Tech Publications

Švýcarsko

978-3-03785-830-1

Advances in Fracture and Damage Mechanics XII

1

1013-9826

Key Engineering Materials (print)

577-578

1

Swiss Confederation

157

160

4