Accurate determination of thermoelastic damping (TED) is very challenging in the design of micro resonators with composite structures. This paper investigates TED in the bilayered microplate. The temperature field in the bilayered microplate with a thermally perfect interface subjected to a time harmonic excitation is presented. The total damping is obtained by computing the energy dissipated in each layer. An analytical model in the form of an infinite series for TED in the bilayered fully clamped rectangular and circular microplates is developed, and the convergence rate of the present model is studied. For TED in the bilayered cantilever and fixed-fixed microplates oscillating at the first natural frequency, an approximate analytical model is also presented based on Rayleigh's method. TED calculated by the present model agrees well with that obtained by the finite element method (FEM). Present results show that the effects of the thickness and the property of the metallic layer on the peak damping are significantly.

• 出版日期2016-2
• 单位南京邮电大学; 东南大学