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Recent advances in cohesive zone modelling of fracture




作者: Fulin Shang, Yabin Yan, Jiangyan Yang
发表/完成日期: 2019-03-26
期刊名称: International Journal of Aeronautics and Aerospace Engineering
期卷: 1,1
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论文简介
Cohesive zone modelling is commonly used in treating complicated damage, failure
and fracture phenomena in different materials and mechanical components; however, a
number of the disadvantages, difficulties or even inherent problems exist. This paper
reviews some recent critical progress in cohesive zone models (CZMs) at different scales.
Four new potential-based and non-potential-based CZMs proposed by McGarry et al.
cleared the inherent problems with the well-known Xu-Needleman CZM. A multiscale
CZM by Zeng and Li introduced a local quasi-continuum medium that obeys the Cauchy–
Born rule to model the bulk material and then a coarse grained depletion potential to
formulate the cohesive force and displacement relations inside the cohesive zone, based
on an idea in colloidal physics. First-principle calculation of mixed-mode responses of a
metal-ceramic interface by Guo et al. showed a promising way to construct an accurate
interface cohesive law. A nonlocal cohesive zone model for finite thickness interfaces
developed by Paggi and Wriggers are able to accounts for the complex failure phenomena
affecting the material microstructure of the interface region, through a continuum
damage mechanics concept. These studies provide novel constitutive laws of CZMs and
open up new possibilities in improving the cohesive modeling of fracture and failure.
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