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Article type: Research Article
Authors: Yu, Caofenga; | Yang, Kuna | Xiao, Zhihaoa | Wei, Yijuna | Tao, Xuefenga | Wu, Gana
Affiliations: [a] School of Mechanical Engineering, Anhui University of Science and Technology, Huainan, Anhui Province, China
Correspondence: [*] Corresponding author: Caofeng Yu, School of Mechanical Engineering, Anhui University of Science and Technology, Huainan, Anhui Province, China. E-mail: [email protected]
Abstract: Studying the nonlinear dynamic characteristics of multi-field coupling of the giant magnetostrictive actuator (GMA) is one of the main ways to improve its output performance. Because of the problem that its multi-field coupling nonlinear dynamic characteristics are difficult to accurately describe, the multi-field coupled nonlinear dynamic model of GMA and two-dimensional micro-positioning workbench is established according to the Jiles–Atherton hysteresis model, magnetostrictive model, hysteresis nonlinear magnetic equation and the structural dynamics principle of GMA, respectively. The influence of equivalent damping coefficient, equivalent stiffness, and equivalent mass on the dynamic characteristics of each model is analyzed, and finally, the constructed model and the obtained law are experimentally verified. The results show that the displacement curve calculated by the model is consistent with the experimentally measured displacement curve, the influence of the equivalent damping coefficient, equivalent stiffness, and equivalent mass on the dynamic characteristics of the model measured by the experiment is consistent with the simulation analysis results, and the maximum error of the output displacement is 1.779 um, which verifies the correctness of the model. The research results provide a theoretical basis for improving the dynamic characteristics of GMA and improving the output performance of two-dimensional micro-positioning workbenches.
Keywords: GMA, two-dimensional micro-positioning workbench, multi-physics, hysteresis is nonlinear, dynamic model
DOI: 10.3233/JAE-220283
Journal: International Journal of Applied Electromagnetics and Mechanics, vol. 72, no. 3, pp. 219-236, 2023
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