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Improved Force-Displacement of a Dielectric Electro-active Polymer Actuator using a Negative-Rate Bias Spring Mechanism

机译：使用负速率偏置弹簧机构改进介电电活性聚合物致动器的力位移

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This paper presents experimentation and modeling of a small profile, scalable DEAP actuator system. The actuator system consists of a bi-stable mechanism (a negative-rate bias spring, or NBS) coupled with an out-of-plane dielectric electro-active polymer (DEAP) actuator. The NBS biases the DEAP allowing actuation when the voltage is cycled and is shown to have a major impact on the overall system performance. Particularly the NBS-biased actuator can exhibit up to a fourfold increase in displacement stroke in comparison with conventional linear springs. A non-linear DEAP model was developed and simulations where conducted. The model is validated with experimental data and provides insight into system trends and related parameter optimization.

机译：本文介绍了小型轮廓，可扩展的DEAP执行器系统的实验和建模。致动器系统由与平面外电活性聚合物（DEAP）致动器耦合的双稳态机构（负率偏置弹簧或NBS）组成。当电压循环时，NBS偏置允许致动的DEAP，并显示对整体系统性能的重大影响。特别是与传统的线性弹簧相比，NBS偏置致动器可以表现出置换行程的四倍增加。开发了一种非线性DEAP模型和进行的模拟。该模型用实验数据验证，并深入了解系统趋势和相关参数优化。

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《International conference on new actuators》|2012年||共4页
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M. Hodgins; A. York; S. Seelecke;
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中图分类半导体技术;
关键词
dielectric electro-active polymer (DEAP); bi-stable mechanism; displacement stroke;

机译：介电电活性聚合物（DEAP）;双稳态机制;位移冲程;

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1. Adaptive Observer for State and Load Force Estimation for Dielectric Electro-Active Polymer Actuator ? [J] . Jakub Bernat, Jakub Kolota IFAC PapersOnLine . 2019,第16期

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2. Inverse modeling and control of a dielectric electro-active polymer smart actuator [J] . Bui Ngoc Minh Truong, Ahn Kyoung Kwan Sensors and Actuators, A. Physical . 2015,第Null期

机译：介电电活性聚合物智能执行器的逆向建模和控制
3. Hysteresis modeling and identification of a dielectric electro-active polymer actuator using an APSO-based nonlinear Preisach NARX fuzzy model [J] . Truong B.N.M., Nam D.N.C., Ahn K.K. Smart Materials & Structures . 2013,第9期

机译：使用基于APSO的非线性Preisach NARX模糊模型对电活性聚合物致动器进行磁滞建模和识别
4. Improved Force-Displacement of a Dielectric Electro-active Polymer Actuator using a Negative-Rate Bias Spring Mechanism [C] . M. Hodgins, A. York, S. Seelecke International conference on new actuators;International exhibition on smart actuators and drive systems . 2012

机译：负速率偏置弹簧机制改善了电活性聚合物致动器的力-位移
5. Design of electro-active polymer gels as actuator materials. [D] . Popovic, Suzana. 2001

机译：电活性聚合物凝胶作为致动器材料的设计。
6. Exploiting Stretchable Metallic Springs as Compliant Electrodes for Cylindrical Dielectric Elastomer Actuators (DEAs) [O] . Chien-Hao Liu, Po-Wen Lin, Jui-An Chen, 2017

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7. Static and Dynamic Studies of Electro-Active Polymer Actuators and Integration in a Demonstrator [O] . Pauline Poncet, Fabrice Casset, Antoine Latour, 2017

机译：电活性聚合物驱动器的静态和动态研究及其在演示器中的集成

Improved Force-Displacement of a Dielectric Electro-active Polymer Actuator using a Negative-Rate Bias Spring Mechanism

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