On stress analysis for a penny-shaped crack interacting with inclusions and voids

The shape of a penny-shaped crack located at the center of an elastic plate of finite thickness is related to the arbitrary axisymmetrical internal pressures applied to the crack surfaces in the form of a Fredholm integral equation, without using the methods of dual-integral equations. General expre

Three-dimensional stress investigation on the interaction between a penny-shaped crack and an expanding spherical inclusion in an infinite 3-D medium is studied in this paper. The spherical transformation area (the inclusion) expands in a self-similar way. By using the superposition principle, the o

The stress concentrations around a penny-shaped crack contained in a threedimensional body under axi-symmetric loads are analysed in this paper. The basic solution with infinite stress concentrations around the crack fringe is derived using the Legendre's function. Then, a method is presented to con

Buckling problem of the elastic and viscoelastic rotationally symmetric thick circular plate with a penny-shaped crack is investigated. It is supposed that the crack edges have a small initial rotationally symmetric imperfection. The lateral boundary of the plate is clamped and the clamp compresses

This study considers the axisymmetric analysis of a finite cylinder containing a pennyshaped transverse crack. Material of the cylinder is assumed to be linearly elastic and isotropic. One end of the cylinder is bonded to a fixed support while the other end is subjected to uniform axial tension. Sol