Stress in Piezoelectric Hollow Sphere with Thermal Gradient
mahdi saadatfar
The Journal of Mechanical Science and Technology, vol. 22, no. 8, pp.1460-1467, 2008
Abstract : The piezoelectric phenomenon has been exploited in science and engineering for decades. Recent advances in smart
structures technology have led to a resurgence of interest in piezoelectricity, and in particular, in the solution of fundamental
boundary value problems. In this paper, we develop an analytic solution to the axisymmetric problem of a radially
polarized, spherically isotropic piezoelectric hollow sphere. The sphere is subjected to uniform internal pressure,
or uniform external pressure, or both and thermal gradient. There is a constant thermal difference between its inner and
outer surfaces. An analytic solution to the governing equilibrium equations (a coupled system of second-order ordinary
differential equations) is obtained. On application of the boundary conditions, the problem is reduced to solving a system
of linear algebraic equations. Finally, the stress distributions in the sphere are obtained numerically for two piezoceramics
Keyword : Piezoelectric hollow sphere; Thermal gradient; Electric potential; Radial stress, Hoop stress |