A thermodynamics-based cohesive model for interface debonding and friction |
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Institution: | 1. School of Civil Engineering J05, University of Sydney, Sydney, NSW 2006, Australia;2. School of Civil, Environmental and Mining Engineering, University of Adelaide, Adelaide, SA 5005, Australia |
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Abstract: | A constitutive model for interface debonding is proposed which is able to account for mixed-mode coupled debonding and plasticity, as well as further coupling between debonding and friction including post-delamination friction. The work is an extension of a previous model which focuses on the coupling between mixed-mode delamination and plasticity. By distinguishing the interface into two parts, a cracked one where friction can occur and an integral one where further damage takes place, the coupling between frictional dissipation and energy loss through damage is seamlessly achieved. A simple framework for coupled dissipative processes is utilised to derive a single yield function which accurately captures the evolution of interface strength with increasing damage, for both tensile and compressive regimes. The new material model is implemented as a user-defined interface element in the commercial package ABAQUS and is used to predict delamination under compressive loads in several test cases. |
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Keywords: | Interface Constitutive model Friction Coupling Delamination Thermodynamics |
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