Validation of High Displacement Piezoelectric Actuator Finite Element Models

机译：高位移压电致动器有限元模型的验证

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The paper presents the results obtained by using NASTRAN and ANSYS finite element codes to predict doming of the THUNDER piezoelectric actuators during the manufacturing process and subsequent straining due to an applied input voltage. To effectively use such devices in engineering applications, modeling and characterization are essential. Length, width, dome height, and thickness are important parameters for users of such devices. Therefore, finite element models were used to assess the effects of these parameters. NASTRAN and ANSYS used different methods for modeling piezoelectric effects. In NASTRAN, a thermal analogy was used to represent voltage at nodes as equivalent temperatures, while ANSYS processed the voltage directly using piezoelectric finite elements. The results of finite element models were validated by using the experimental results.

机译：本文通过使用Nastran和ANSYS有限元件代码来提供所获得的结果，以在制造过程中预测雷电致动器的凹陷，并随后由于施加的输入电压而断裂。为了有效地使用这些设备，在工程应用中，建模和表征是必不可少的。长度，宽度，圆顶高度和厚度是这种设备的用户的重要参数。因此，使用有限元模型来评估这些参数的效果。 Nastran和Ansys使用了不同的方法来建立压电效应。在Nastran中，使用热量模拟以表示节点的电压，作为等效温度，而Ansys使用压电有限元件直接处理电压。通过使用实验结果验证了有限元模型的结果。

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《European conference on smart structures and materials》|2000年||共9页
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Barmac Taleghani; SPIE-The International Society for Optical Engineering;
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中图分类材料;
关键词
NASTRAN; ANSYS; finite element; THUNDER; piezoelectric; actuator;

机译：Nastran;Ansys;有限元;雷;压电;执行器;

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专利

1. Prediction of Actuating Displacement in a Piezoelectric Composite Actuator with a Thin Sandwiched PZT Plate by a Finite Element Simulation [J] . Sung-Choong Woo, Nam Seo Goo Journal of Mechanical Science and Technology . 2007,第3期

机译：用有限元模拟预测夹层PZT薄板的压电复合驱动器的驱动位移。
2. Prediction of actuating displacement in a piezoelectric composite actuator with a thin sandwiched PZT plate by a finite element simulation [J] . Sung-Choong Woo, Nam Seo Goo Journal of Mechanical Science and Technology . 2007,第3期

机译：用有限元模拟预测夹层PZT薄板的压电复合激励器的激励位移。
3. Improved finite element modeling of piezoelectric beam with edge debonded actuator for actuation authority and vibration behaviour [J] . Raja S., Rao K. Venkata, Gowda T. Munikenche International journal of mechanics and materials in design . 2017,第1期

机译：带有边缘脱胶执行器的压电梁的改进有限元建模，具有执行权限和振动特性
4. Validation of High Displacement Piezoelectric Actuator Finite Element Models [C] . Barmac Taleghani, SPIE-The International Society for Optical Engineering European conference on smart structures and materials . 2000

机译：高位移压电致动器有限元模型的验证
5. Modeling and Validation of S-Drive: A Nestable Piezoelectric Actuator. [D] . Chigullapalli, Aarti. 2014

机译：S-Drive的建模和验证：可嵌套的压电执行器。
6. Micro Finite Element models of the vertebral body: Validation of local displacement predictions [O] . Maria Cristiana Costa, Gianluca Tozzi, Luca Cristofolini, 2011

机译：椎体的微有限元模型：局部位移预测的验证
7. Validation of High Displacement Piezoelectric Actuator Finite Element Models [O] . Barmac Taleghani Army, Barmac K. Taleghani 2000

机译：高位移压电致动器有限元模型的验证
8. Validation of High Displacement Piezoelectric Actuator Finite Element Models [R] . Taleghani, B. K. 2000

机译：高位移压电致动器有限元模型的验证

Validation of High Displacement Piezoelectric Actuator Finite Element Models

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