State of stress in a patched plate containing a crack

Stress intensity factor for an isotropic cracked plate with orthotropic patch reinforcement is calculated by the finite element method. Three-dimensional (3-D) elements are employed in the present study with the help of an adhesive element analysis performed in advance. Different finite element mode

An assumed hybrid-stress finite element model together with two types of composite multilayer elements (MLTUP and MLTPH) is developed to study the crack patching problem. Three-dimensional mterlaminar stresses including transverse normal and shear stresses are accounted for. The assumed stress field

The fatigue and fracture performance of a cracked plate can be substantially improved by providing patches as reinforcements. The effectiveness of the patches is related to the reduction they cause in the stress intensity factor (SIF) of the crack. So, for reliable design, one needs an accurate eva

AMraet-The problem of a hacked plate repaired by an adhesively bonded patch is studied. A shear spring model is adopted to reduce the problem to the analysis of a cracked plate and a patch subjected to external loads and interacting adhesive shear. While the patch is treated by the i?nite element me