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A novel phase‐field based cohesive zone model for modeling interfacial failure in composites

Pei‐Liang Bian, Hai Qing, Siegfried Schmauder

2021International Journal for Numerical Methods in Engineering17 citationsDOI

Abstract

Abstract The interface plays a critical role in the mechanical properties of composites. In the present work, a novel phase‐field based cohesive zone model (CZM) is proposed for the cracking simulation. The competition and interaction between the bulk and interfacial cracking are taken into consideration directly in both displacement‐ and phase‐field. A family of modified degradation functions is utilized to describe the traction‐separation law in the CZM. Finite element implementation of the present CZM was carried out with a completely staggered algorithm. Several numerical examples, including a single bar tension test, a double cantilever beam test, a three‐point bending test, and a single‐fiber reinforced composite test, are carried out to verify the present model by comparison with existing numerical and experimental results. The present model shows its advantage on modeling interaction between bulk and interfacial cracking.

Topics & Concepts

Cohesive zone modelMaterials scienceCrackingFinite element methodComposite materialComposite numberStructural engineeringCantileverTraction (geology)Tension (geology)BendingFracture mechanicsEngineeringUltimate tensile strengthMechanical engineeringNumerical methods in engineeringComposite Material MechanicsFluid Dynamics Simulations and Interactions
A novel phase‐field based cohesive zone model for modeling interfacial failure in composites | Litcius