Wang Q M, Cross L E
Lexmark Int. Inc., Lexington, KY.
IEEE Trans Ultrason Ferroelectr Freq Control. 1999;46(6):1343-51. doi: 10.1109/58.808857.
Piezoelectric triple layer benders, with a structure of two piezoelectric top and bottom layers sandwiched by a non-piezoelectric elastic central layer, are one of the most commonly used piezoelectric devices. In this paper, we present the derivation of the constitutive equations of a symmetrical triple layer piezoelectric bender under different excitation conditions. The constitutive equations are presented by a 4x4 matrix with an external moment M, an external tip force F, a uniform load p, and an applied electric voltage V as the extensive parameters, with the generated tip angular deflection (slope) alpha, tip deflection delta, volume displacement v, and electric charge Q as the internal parameters. Further analysis on the electromechanical behavior of the triple layer piezoelectric bender can be made on the constitutive equations.
压电三层弯曲器是最常用的压电器件之一,其结构为两个压电顶层和底层夹着一个非压电弹性电弹性中间层。在本文中,我们给出了对称三层压电弯曲器在不同激励条件下本构方程的推导。本构方程由一个4×4矩阵给出,其中外部力矩M、外部尖端力F、均匀载荷p和施加的电压V作为广延参数,产生的尖端角偏转(斜率)α、尖端偏转δ、体积位移v和电荷Q作为内禀参数。基于本构方程可以对三层压电弯曲器的机电行为进行进一步分析。