Ruan X, Cheeseman B A, Safari A, Danforth S C, Chou T W
EASi Eng., Detroit, MI.
IEEE Trans Ultrason Ferroelectr Freq Control. 1999;46(6):1489-96. doi: 10.1109/58.808872.
This paper reports the conceptual design, analysis, and modeling of the electromechanical behavior of dome actuators. The geometric parameters of the actuator (dome thickness, width, radius, and depth), poling direction, electric field, and material properties (elastic compliance, piezoelectric constants, and dielectric permittivity) have been taken into account in the modeling work. The results of the analysis indicate that a dome actuator with a tangentially alternating poling direction and electric field (Case C) exhibits much larger displacement and force responses than dome actuators with other poling directions and electric fields. The first mode of natural frequency of the Case C dome actuator also was investigated, and its predicted performance was compared with that of moonie and rainbow actuators. The findings of this research clearly demonstrate the merit of design optimization of electromechanical devices.
本文报道了穹顶式致动器机电行为的概念设计、分析和建模。在建模工作中考虑了致动器的几何参数(穹顶厚度、宽度、半径和深度)、极化方向、电场以及材料特性(弹性柔顺性、压电常数和介电常数)。分析结果表明,极化方向和电场呈切向交替变化的穹顶式致动器(情况C)比其他极化方向和电场的穹顶式致动器表现出更大的位移和力响应。还研究了情况C穹顶式致动器的一阶固有频率,并将其预测性能与穆尼型和彩虹型致动器的性能进行了比较。本研究结果清楚地证明了机电装置设计优化的优点。