Crack propagation under mode II loading: An effective stress intensity factor method

A model is constructed to evaluate the mode II stress intensity factor (SIF) for the layered material with a center crack under an arbitrary shear crack surface loading. The mixed boundary value problem is formulated by the Fourier integral transform method and a Fredholm integral equation is derive

The concept of the stress intensity factor circles (SIF circles) was introduced in this paper, as well as the correlation of these circles with Mohr's circles. The main advantage of this graphical representation is the facility in establishing a one-to-one correlation between the values of the angle

A three-dimensional solution is presented for the transient response of an infinite plate which contains a rectangular crack. The Laplace and Fourier transforms are used to reduce the problem to a pair of dual integral equations. These equations are solved with the series expansion method. The stres

The 3-D dynamic problem is presented for an infinite elastic medium weakened by four plane rectangular cracks of equal size. The surfaces of the cracks are loaded by a uniform pressure with Heaviside-function time dependence. Fourier-Laplace transform technique is utilized to reduce the problem to a