A finite element investigation of stable crack growth in anti-plane shear

The response of a through-the thickness crack with finite dimensions to impact loads in a finite elastic strip is investigated in this study. The elastic strip is assumed to be subjected to anti-plane shear deformation. Laplace and Fourier transform were used to formulate the mixed boundary value pr

The problem of an edge crack in a finite orthotropic plate under anti-plane shear is considered. The boundary collocation method is used to calculate the mode III stress intensity factor (SF). For the case in which the material is isotropic, the present results agree very well with those obtained by

By applying integration by parts and other techniques to the traditional boundary integral formulation, a new boundary integral equation is derived to analyze cracked anisotropic bodies under anti-plane shear. The new boundary formulation uses dislocation density as unknown on the crack surface from

Field equations of the non!local elasticity are solved to determine the state of stress in a plate with a Gri.th crack subject to the anti!plane shear[ Then a set of dual!integral equations is solved using Schmidt|s method[ Contrary to the classical elasticity solution\ it is found that no stress si