Experimental investigation and modelling of piezoelectric actuator hystereses for FE analysis of smart structures

机译：智能结构有限元分析的压电执行器磁滞现象实验研究与建模

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This paper presents a method to predict the actuation strain in a smart cantilever beam numerically with the help of experimental parameter identification in combination with a finite element code. The hysteretic electric field-strain relation of an unconstrained laminar piezoceramic actuator is measured directly by Michel-son interferometry. The observed nonlinear material behaviour is modelled by a classical Preisach model. This is used for the determination of the piezoelectric coupling coefficient, which depends nonlinearly on the strains. For the numerical investigation of the active structure a finite element code is interacting in an iterative procedure with the Preisach model.

机译：本文提出了一种方法，通过结合有限元代码的实验参数识别，以数字方式预测智能悬臂梁的驱动应变。无约束层流压电陶瓷致动器的磁滞电场-应变关系直接通过迈克尔逊干涉法测量。通过经典的Preisach模型对观察到的非线性材料行为进行建模。这用于确定压电耦合系数，该系数非线性地取决于应变。为了对活动结构进行数值研究，有限元代码与Preisach模型以迭代过程进行交互。

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来源
《International Conference on Computational Methods and Experimental Measurements(CMEM XII); 2005; Malta(MT)》|2005年|P.217-226|共10页
会议地点 Malta(MT)
作者
H. Bossong; S. Lentzen; R. Schmidt;
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作者单位

Institute of General Mechanics, RWTH Aachen University, Germany;

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原文格式 PDF
正文语种 eng
中图分类半导体技术;
关键词
smart structures; finite element method; actuators; piezoelectri-city; hysteresis; preisach model;

机译：智能结构有限元法激励器压电城市滞后Preisach模型;

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专利

1. The modelling and design of smart structures using functionally graded materials and piezoelectrical sensor/actuator patches [J] . Liew KM, Sivashanker S, He XQ, Smart Materials & Structures . 2003,第4期

机译：使用功能渐变材料和压电传感器/执行器贴片的智能结构的建模和设计
2. MODELLING SMART STRUCTURES WITH SEGMENTED PIEZOELECTRIC SENSORS AND ACTUATORS [J] . K. Y. Sze, L. Q. Yao Journal of Sound and Vibration . 2000,第3期

机译：分段压电传感器和执行器对智能结构的建模
3. Finite Element and Experimental Investigation of Piezoelectric Actuated Smart Shells [J] . V. K. Gupta, P. Seshu, K. Kurien Issac AIAA Journal . 2004,第10期

机译：压电驱动智能壳体的有限元与实验研究
4. Experimental investigation and modelling of piezoelectric actuator hystereses for FE analysis of smart structures [C] . H. Bossong, S. Lentzen, R. Schmidt International Conference on Computational Methods and Experimental Measurements . 2005

机译：智能结构Fe分析压电执行器止动器的实验研究
5. Coupled electromechanical system modeling and experimental investigation of piezoelectric actuator-driven adaptive structures. [D] . Zhou, Su-Wei. 1994

机译：压电致动器驱动的自适应结构的机电系统耦合建模和实验研究。
6. Smart Self-Sensing Composite: Piezoelectric and Magnetostrictive FEA Modeling and Experimental Characterization Using Wireless Detection Systems [O] . Relebohile George Qhobosheane, Muthu Ram Prabhu Elenchezhian, Partha Pratim Das, 2020

机译：智能自感复合材料：使用无线检测系统的压电和磁致伸缩FEA建模和实验性格
7. Experimental and Numerical Investigation of Nonlinear Piezoelectric Effects Including Minor Hystereses [O] . Bossong, Heiko, Schmidt, Rüdiger 2010

机译：含次迟滞的非线性压电效应的实验和数值研究
8. Smart Composite Structures Featuring Embedded Hybrid Actuation and SensingCapabilities: An Analytical and Experimental Investigation [R] . Gandhi, M. V., Thompson, B. S. 1996

机译：具有嵌入式混合驱动和传感功能的智能复合结构：分析和实验研究

Experimental investigation and modelling of piezoelectric actuator hystereses for FE analysis of smart structures

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