A note on penny-shaped cracks in transversely isotropic materials

The scattering of a harmonic longitudinal wave by a penny-shaped crack in a transversely isotropic material is investigated using the techniques of Hankel transform. The wave impinges normally on the crack surfaces. A complete contour integration is employed to simplify the expressions of the result

In this paper, we develop a model to treat penny-shaped crack configuration in a piezoelectric layer of finite thickness. The piezoelectric layer is subjected to axially symmetric mechanical and electrical loads. Hankel transform technique is used to reduce the problem to the solution of a system of

A solution is given for problems involving non!axisymmetric dynamic impact loading of a penny shaped crack in a transversely isotropic medium[ Laplace and Hankel transforms are used to reduce the equations of elasticity to integral equations\ and solutions are obtained for the three modes of fractur

By utilizing the eigenstram formulation and Cauchy's residue theorem. a unified explicit expression for the electroelastic fields inside a flat ellipsoidal crack embedded in an infinite piezoelectric solid subjected to electromechanical loads is presented. In particular. an explicit expression is ob