Saint-Venant end effects in piezoceramic materials

The stress decay rate and characteristic decay length for anisotropic mater ials and fiber composites have been intensively investigated. However, thos e for piezoelectric materials have not been studied. In this paper, we exam ine the Saint-Venant end effects of piezoceramic materials by considering t he problem of a semi-infinite piezoceramic strip polarized in the thickness direction and with applied voltages on the upper and lower surfaces. It is assumed that the gradient of electric potential in the axial direction is much smaller than that in the thickness direction. Thus, the governing equa tions in terms of the Airy stress function and electric potential function can be uncoupled. The governing equation in terms of the Airy stress functi on involves only two non-dimensional parameters after non-dimensionalizatio n. Finally, the stress decay rates and characteristic decay lengths for a v ariety of piezoceramic materials are computed numerically, and their variat ion with the two non-dimensional parameters is presented. (C) 2000 Elsevier Science Ltd. All rights reserved.