Design, Modeling and Analysis of a Novel Flexure-guided 3-DOF Fast Tool Servo Device

机译：一种新型柔性引导3-DOF快速工具伺服装置的设计，建模与分析

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A piezo-actuated flexure-guided three-degrees of freedom (3-DOF) fast tool servo (FTS) device is presented in this paper, a kind of microstructure surface machining device, which is designed to achieve the motion and compensate the error along the three axes $x-, y$- and $z$- so as to cater for the rigorous requirements and the increasingly extensive demands of the optical elements with microstructure surfaces. Matrix-based compliance modeling (MCM) method and the theory of vibration are adopted for the static modeling and the dynamic modeling of the device, respectively. Then, the established models are validated by finite element analysis (FEA) via software. The evaluated results show the satisfactory performance of the proposed 3-DOF FTS device, demonstrating its great potential to achieve microstructure surface machining with better accuracy.

机译：本文提出了一种压电驱动的弯曲引导的三次自由度（3-DOF）快速工具伺服（FTS）装置，一种微观结构表面加工装置，旨在实现运动并补偿误差三轴 $ x - ， y $ - 和 $ z $ - 以满足严格的要求和具有微观结构表面的光学元件的日益广泛的需求。基于矩阵的合规性建模（MCM）方法和振动理论分别用于静态建模和设备的动态建模。然后，通过软件通过有限元分析（FEA）验证所建立的模型。评估结果表明提出的3-DOF FTS装置的令人满意的性能，表明其具有更好的精度实现微观结构表面加工的巨大潜力。

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来源
《IEEE Annual International Conference on CYBER Technology in Automation, Control, and Intelligent Systems》|2019年|825p|共6页
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Xiaohui Guo; Hui Tang; Hongcheng Li; Haoyu Pan; Dingtao Yu; Xin Chen; Jian Gao; Ziqiang Yin;
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中图分类计算技术、计算机技术;
关键词
Microstructure; Fasteners; Tools; Machining; Force; Adaptive optics; Performance evaluation;

机译：微观结构;紧固件;工具;加工;力;自适应光学;绩效评估;

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1. System design of Maxwell force driving fast tool servos based on model analysis [J] . Y. H. Nie, F. Z. Fang, X. D. Zhang The International Journal of Advanced Manufacturing Technology . 2014,第1a4期

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2. Fabrication of anti-reflective surfaces by 3-DOF fast tool servo diamond turning [J] . Liu Qiang, Li Qiang, Zhou Xiaoqin, The International Journal of Advanced Manufacturing Technology . 2018,第5a8期

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3. Design, Analysis, and Test of a Novel Self-Sensing Fast Tool Servo [J] . Yang Xu, Zhu Wu-Le IEEE transactions on industrial informatics . 2020,第7期

机译：新颖自感快速工具伺服的设计，分析和测试
4. Design, Modeling and Analysis of a Novel Flexure-guided 3-DOF Fast Tool Servo Device [C] . Xiaohui Guo, Hui Tang, Hongcheng Li, IEEE Annual International Conference on CYBER Technology in Automation, Control, and Intelligent Systems . 2019

机译：新型挠曲导向三自由度快速工具伺服装置的设计，建模和分析
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Design, Modeling and Analysis of a Novel Flexure-guided 3-DOF Fast Tool Servo Device

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