1. Analysis and Optimization of Dynamic and Static Characteristics of the Compliant-Amplifying Mechanisms.
- Author
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Wang, Jin, Jing, Zijian, Xie, Zongliang, Ning, Zongqi, and Qi, Bo
- Subjects
OPTIMIZATION algorithms ,TRANSFER matrix ,PIEZOELECTRIC actuators ,MULTIBODY systems ,COMPLIANT mechanisms ,RESONANCE - Abstract
Compliant amplifying mechanisms are used widely in high-precision instruments driven by piezoelectric actuators, and the dynamic and static characteristics of these mechanisms are closely related to instrument performance. Although the majority of existing research has focused on analysis of their static characteristics, the dynamic characteristics of the mechanisms affect their response speeds directly. Therefore, this paper proposes a comprehensive theoretical model of compliant-amplifying mechanisms based on the multi-body system transfer matrix method to analyze the dynamic and static characteristics of these mechanisms. The effects of the main amplifying mechanism parameters on the displacement amplification ratio and the resonance frequency are analyzed comprehensively using the control variable method. An iterative optimization algorithm is also used to obtain specific parameters that meet the design requirements. Finally, simulation analyses and experimental verification tests are performed. The results indicate the feasibility of using the proposed theoretical compliant-amplifying mechanism model to describe the mechanism's dynamic and static characteristics, which represents a significant contribution to the design and optimization of compliant-amplifying mechanisms. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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