Exact dynamic solutions to piezoelectric smart beams including peel stresses Part II: Numerical results, comparison and approximate solution

Abstract

This work presents numerical results for the exact dynamic solution of piezoelectric (PZT) smart beams including peel stresses, which was developed in Part I. Numerical results are presented in details for frequency spectra, natural frequencies, normal mode shapes, harmonic responses of the shear and peel stresses, and sensing electric charges for a cantilever beam with a bonded PZT patch to the clamped end. The exact dynamic solution can provide useful data for benchmarking other methods. The numerical results of the present model including peel stresses (PSM) are also compared with those obtained using the shear lag beam model and the shear lag rod model. On the basis of the equivalent forces derived in the static analysis, simple approximate dynamic solutions are obtained and compared with the exact solutions, and then the application and limitation of the simple approximate solutions are investigated. By comparing numerical results predicted by the present PSM model with the shear lag models and the approximate solutions based on the static equivalent forces, effects of the dynamic shear and peel stresses on natural frequencies and dynamic responses of the smart structures are examined.