Cohesive zone models and the plastically deforming peel test |
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Authors: | I. Georgiou H. Hadavinia A. Ivankovic A. J. Kinloch V. Tropsa J. G. Williams |
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Affiliation: | Department of Mechanical Engineering , Imperial College of Science, Technology and Medicine , London , United Kingdom |
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Abstract: | The peel test is a popular test method for measuring the peeling energy between flexible laminates. However, when plastic deformation occurs in the peel arm(s) the determination of the true adhesive fracture energy, G c , from the measured peel load is far from straightforward. Two different methods of approaching this problem have been reported in recently published papers, namely: (a) a simple linear-elastic stiffness approach, and (b) a critical, limiting maximum stress, σ max , approach. In the present article, these approaches will be explored and contrasted. Our aims include trying to identify the physical meaning, if any, of the parameter σ max and deciding which is the better approach for defining fracture when suitable definitive experiments are undertaken. Cohesive zone models Fracture mechanics Laminates Peel tests Plastic deformation |
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Keywords: | Epoxy Fracture energy Interface Poly(amic acid) Polyimide Rutherford backscattering spectrometry Secondary ion mass spectrometry |
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