Title of article :
A Stress Tensor-based Failure Criterion for Ordinary State-based Peridynamic Models
Author/Authors :
Dipasquale ، Daniele Department of Aeronautical Engineering - International Academy of Aviation Industry - King Mongkut’s institute of Technology Ladkrabang , Sarego ، Giulia Department of Industrial Engineering - University of Padova , Prapamonthon ، Prasert Department of Aeronautical Engineering - International Academy of Aviation Industry - King Mongkut’s institute of Technology Ladkrabang , Yooyen ، Soemsak Department of Aeronautical Engineering - International Academy of Aviation Industry - King Mongkut’s institute of Technology Ladkrabang , Shojaei ، Arman Institute of Material Systems Modeling - Helmholtz-Zentrum Hereon
Abstract :
Peridynamics is a recent nonlocal theory of continuum mechanics that is suitable to describe fracture problems in solid mechanics. In this paper, a new failure criterion based on the stress field is developed by adopting the damage correspondence model in the ordinary state-based peridynamic theory. The proposed stress tensor-based failure criterion is capable of predicting more accurately crack propagation in the mixed mode I-II fracture problems different from other failure criteria in peridynamics. The effectiveness of the proposed model is demonstrated by performing several examples of mixed-mode dynamic fracture in brittle materials.
Keywords :
State , based peridynamics , fracture criteria , dynamic crack propagation , mixed , mode loading
Journal title :
Journal of Applied and Computational Mechanics
Journal title :
Journal of Applied and Computational Mechanics
