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- Title
Study on the cohesive edge crack in a square plate with the cohesive element method.
- Authors
Kellner, Leon; Lu, Wenjun; Ehlers, Sören; Høyland, Knut V.
- Abstract
The size of the fully developed process zone (FDPZ) is needed for the arrangement of displacement sensors in fracture experiments and choosing element size in numerical models using the cohesive element method (CEM). However, the FDPZ size is generally not known beforehand. Analytical solutions for the exact FDPZ size only exist for highly idealised bodies, e.g. semi-infinite plates. With respect to fracture testing, the CEM is also a potential tool to extrapolate laboratory test results to full-scale while considering the size effect. A numerical CEM-based model is built to compute the FDPZ size for an edge crack in a finite square plate of different lengths spanning several magnitudes. It is validated against existing analytical solutions. After successful validation, the FDPZ size of finite plates is calculated with the same numerical scheme. The (FDPZ) size for finite plates is influenced by the cracked plate size and physical crack length. Maximum cohesive zone sizes are given for rectangular and linear softening. Further, for this setup, the CEM-based numerical model captures the size effect and can be used to extrapolate small-scale test results to full-scale.
- Subjects
ANALYTICAL solutions; EDGES (Geometry)
- Publication
International Journal of Fracture, 2021, Vol 231, Issue 1, p21
- ISSN
0376-9429
- Publication type
Article
- DOI
10.1007/s10704-021-00560-9