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Viscous regularization for cohesive zone modelling under constant displacement: an application to hydrogen embrittlement simulation

Yu, Haiyang; Olsen, Jim Stian; Olden, Vigdis; Alvaro, Antonio; He, Jianying; Zhang, Zhiliang
Journal article, Peer reviewed
Published version
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Yu (Locked)
URI
http://hdl.handle.net/11250/2596646
Date
2016
Metadata
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  • Institutt for konstruksjonsteknikk [1569]
  • Publikasjoner fra CRIStin - NTNU [19694]
Original version
Engineering Fracture Mechanics. 2016, 166 23-42.   10.1016/j.engfracmech.2016.08.019
Abstract
The convergence problem during the cohesive zone modelling of hydrogen embrittlement in constant displacement scenario is attributed to the numerical instability which is studied analytically in the present work. The property of numerical stability is directly associated with the number of solutions for the controlling equations from the failure initiation point. It is shown that all the cases with a non-unique solution are numerically unstable thereby having convergence problem. Linear elastic and elasto-plastic material models are considered in the derivation, and the convergence properties for both models are proved essentially the same. The viscous regularization proposed by Gao and Bower [1] proves effective in solving the convergence problem with good accuracy under constant displacement, provided that the viscosity is small enough. This is further supported by a pipeline engineering case study where the viscosity regularized cohesive zone approach is applied to the hydrogen embrittlement simulation. The stabilizing mechanism of the viscous regularization is attributed to its capacity to enforce a single solution by modifying the controlling equations. The influence of viscous regularization on symmetry modelling is also discussed.
Publisher
Elsevier
Journal
Engineering Fracture Mechanics

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