Three dimensional finite element mixed fracture mode under anti-plane loading of a crack
Date
2012
Authors
Kotooussov, A.
Berto, F.
Lazzarin, P.
Pegorin, F.
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Journal article
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Theoretical and Applied Fracture Mechanics, 2012; 62(1):26-33
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Andrei Kotousov, Filippo Berto, Paolo Lazzarin, Fabio Pegorin
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Abstract
The 3D Finite Element method is applied to mixed fracture under anti-plane loading of a straight through-the-thickness crack in a linear elastic plate. This coupled fracture mode represents one of three-dimensional phenomena, which are currently largely ignored in numerical simulations and failure assessment of structural components weakened by cracks. It arises due to the boundary conditions on the plate free surfaces, which negate the transverse shear stress components corresponding to classical mode III. Instead, a new singular stress state in addition to the well-known 3D corner singularity is generated. This singular stress state (or coupled fracture mode) can affect or contribute significantly to the fracture initiation conditions. The coupled singular mode exists even if the applied anti-plane loading produces no singularities (K<inf>III</inf>=0). In this case there is a strong thickness effect on the intensity of the coupled fracture mode. © 2013 Elsevier Ltd.
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Copyright 2013 Elsevier Ltd. All rights reserved.