Closed-Form Solutions for a Mode-III Moving Interface Crack at theInterface of Two Bonded Dissimilar Orthotropic Elastic Layers
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2009-02-03
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Abstract
An integral transform technique is used to solve the elastodynamic problem of a crack of fixed length propagating at a constant speed at the interface of two bonded dissimilar orthotropic layers of equal thickness. Two cases of practical importance are investigated. Firstly, the lateral boundaries of the layers are clamped and displaced inequal and opposite directions to produce antiplane shear resulting in a tearing motion along the leading edge ofthe crack, and secondly, the lateral boundaries of the layers are subjected to shear stresses. The analytic solutionfor a semi-infinite crack at the interface of two bonded dissimilar orthotropic layers has been derived. Closed-formexpressions are obtained for stressing the intensity factor and other physical quantities in all cases.
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B. M. Singh, J. Rokne, and R. S. Dhaliwal, “Closed-Form Solutions for a Mode-III Moving Interface Crack at theInterface of Two Bonded Dissimilar Orthotropic Elastic Layers,” Mathematical Problems in Engineering, vol. 2008, Article ID 930820, 10 pages, 2008. doi:10.1155/2008/930820