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Extended finite element fracture analysis of a cracked isotropic shell repaired by composite patch
Authors:H. Zarrinzadeh  M. Z. Kabir  A. Deylami
Affiliation:Department of Civil and Environmental Engineering, Amirkabir University of Technology, Tehran, Iran
Abstract:An extended finite element method (XFEM) is developed to study fracture parameters of cracked metal plates and tubes that are repaired on top of the crack with a composite patch. A MATLAB® stand‐alone code is prepared to model such structures with eight‐noded doubly curved shell elements in the XFEM framework. Crack trajectory studies are performed for a diagonally cracked panel under fatigue loading. Verification studies are investigated on different shell type structures such as a cracked spherical shell and cracked cylindrical pipe with different crack orientations. The effects of using patch repairs with different fibre orientations on the reduction of stress intensity factors (SIFs) is also studied which can be useful for design purposes. XFEM is selected as any crack geometry can be embedded in the finite element mesh configuration with no need to coincide the crack geometry with meshed elements and so re‐meshing with fine mesh generation is not needed in the current method.
Keywords:3D shell element  fatigue crack growth  patch repaired shell  stress intensity factors  XFEM
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