Green’s functions of a half-infinite piezoelectric body: Exact solutions

By using Stroh's formalism, simple explicit compact expressions of Green's functions for a piezoelectric semi-infinite body, with a fixed conductor surface electrode, subject to a singularity (i.e., a generalized line dislocation and a generalized line force at a point z ° ) are presented. Coulomb f

In this paper, as is studied are the electro-elustic solutions for a piezoelectric barspace subjected to a line force, a line charge and a line dislocation, i. e., Green's functions on the basis of Stroh formalism and the concept of analytical continuation, explicit expressions for Green's functions

This paper derives an exact solution for a flat smooth punch applied on a piezoelectric half plane. The piezoelectric solid occupies the lower half plane, and a flat rigid punch is applied on it. As the permittivity of the air (environment) is far less than that of the piezoelectric material, the el

Dyadic Green's functions for a dielectric half-space, based on ''Formulation C,'' are computed by a fast algorithm using the discrete complex image method with a two-le¨el approximation. The results show ¨ery good agreement with those calculated by direct numerical integration. It is expected to be