Abstract
In this paper, a new approach for extracting stress intensity factors (SIFs) by the extended element-free Galerkin method, through a crack closure integral (CCI) scheme, is proposed. The CCI calculation is used in conjunction with a local smoothing technique to improve the accuracy of the computed SIFs in a number of case studies of linear elastic fracture mechanics. The cases involve problems of mixed-mode, curved crack and thermo-mechanical loading. The SIFs by CCI, displacement and stress methods are compared with those based on the M-integral technique reported in the literature. The proposed CCI method involves very simple relations, and still gives good accuracy. The convergence of the results is also examined.
| Original language | English |
|---|---|
| Pages (from-to) | 587-605 |
| Number of pages | 19 |
| Journal | Computational Mechanics |
| Volume | 52 |
| Issue number | 3 |
| DOIs | |
| Publication status | Published - 2013 |
| Externally published | Yes |
Keywords
- Crack closure integral Curved crack Extended element-free Galerkin Local smoothing Stress intensity factor Brittle fracture Computational mechanics Crack closure Fracture mechanics Galerkin methods Stress intensity factors Displacement and stress Element free Galerkin methods Element-free Galerkin Linear elastic fracture mechanics Thermo-mechanical loading Cracks