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A coupled cohesive zone model for transient analysis of thermoelastic interface debonding

Sapora, Alberto and Paggi, Marco A coupled cohesive zone model for transient analysis of thermoelastic interface debonding. Computational Mechanics. pp. 1-13. ISSN 0178-7675 (2013)

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A coupled cohesive zone model based on an analogy between fracture and contact mechanics is proposed to investigate debonding phenomena at imperfect interfaces due to thermomechanical loading and thermal fields in bodies with cohesive cracks. Traction-displacement and heat flux–temperature relations are theoretically derived and numerically implemented in the finite element method. In the proposed formulation, the interface conductivity is a function of the normal gap, generalizing the Kapitza constant resistance model to partial decohesion effects. The case of a centered interface in a bimaterial component subjected to thermal loads is used as a test problem. The analysis focuses on the time evolution of the displacement and temperature fields during the transient regime before debonding, an issue not yet investigated in the literature. The solution of the nonlinear numerical problem is gained via an implicit scheme both in space and in time. The proposed model is finally applied to a case study in photovoltaics where the evolution of the thermoelastic fields inside a defective solar cell is predicted.

Item Type: Article
Identification Number: 10.1007/s00466-013-0934-8
Additional Information: Published online: 9 October 2013
Uncontrolled Keywords: Thermoelasticity; Interface debonding; Cohesive zone model; Photovoltaics
Subjects: T Technology > TJ Mechanical engineering and machinery
Research Area: Computer Science and Applications
Depositing User: Prof Marco Paggi
Date Deposited: 04 Dec 2013 15:37
Last Modified: 09 Oct 2014 09:20
URI: http://eprints.imtlucca.it/id/eprint/2045

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