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An improved model of thin cylindrical piezoelectric layers between isotropic elastic media
Authors:S. Abdel-Gawad  Xiaodong Wang
Affiliation:Department of Mechanical Engineering, University of Alberta, Edmonton, AB T6G 2G8, Canada
Abstract:Radially polarized piezoelectric fibers are now considered to be used in smart composites. The piezoelectric layers in these fibers are generally anisotropic in the transverse direction and therefore difficult to analyze when dynamic loads are involved. The present paper presents a theoretical study of the dynamic behavior of radially polarized cylindrical piezoelectric layers between isotropic elastic media. A new interphase model is developed to provide simple yet accurate evaluation of the dynamic response of such anisotropic elastic layers. Unlike the traditional interface-spring model, the current interphase model satisfies the equations of motion of the layers and can provide reliable prediction of the stress and displacement. A comparison between the developed model, the interface-spring model and the finite element analysis is conducted. The results clearly show the advantages of the current model over the traditional interface-spring model in simulating anisotropic layers. Numerical examples based on this interphase model for different interphase thicknesses, loading frequencies and material combinations are presented to evaluate the dynamic behavior of multilayered elastic media.
Keywords:Interphase   Cylindrical   Anisotropy   Composites   Fibres   Dynamic   Piezoelectric
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