A Framework of a Model-based Simulation System for the Prediction of Surface Generation in Fast Tool Servo Machining of Optical Microstructures

机译：基于模型的模型仿真系统的框架，用于预测光学微结构快速工具伺服加工中的表面产生

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摘要

The fabrication of high-quality optical microstructural surfaces is based on fast tool servo (FTS) machining. It makes use of auxiliary piezo-electric driven servos to rapidly actuate the diamond tool with a fine resolution and a sufficiently high bandwidth for machining optical microstructures with submicrometer form accuracy and a nanometric surface finish without the need for any subsequent post processing. However, the achievement of a superior mirror finish and form accuracy still depends largely on the experience and skills of the machine operators, acquired through an expensive trial-and-error approach to using new materials, new mircostructural surface designs, or new machine tools. As a result, this paper, a model-based simulation system is presented for the optimization of surface quality in the FTS machining of optical microstructures. Preliminary experimental work and the results are also presented.

机译：高质量光学微观结构表面的制造基于快速工具伺服（FTS）加工。它利用辅助压电驱动伺服伺服伺服迅速致动金刚石工具，具有精细的分辨率和具有足够高的带宽，用于用亚微米的凹部精度和纳米表面光洁度加工光学微观结构，而无需任何后续的后处理。然而，实现优越的镜面饰面和形式精度仍然在很大程度上取决于机器运营商的经验和技能，通过昂贵的试验和误差方法获得使用新材料，新的芯片结构表面设计或新机床。结果，本文介绍了一种基于模型的仿真系统，用于优化光学微结构的FTS加工中的表面质量。还提出了初步实验工作和结果。

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《International Conference on Precision Engineering and Micro/Nano Technology in Asia》|2005年||共5页
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作者
C.F. Cheung; W.B. Lee; S. To; H.F. Li; S.J. Wang; Chinese Mechanical Engineering Society; Japan Society for Precision Engineering; Korean Society for Precision Engineering;
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中图分类机械加工精度理论;
关键词
fast tool servo machining; optical microstructures; surface generation; model-based simulation; optimization;

机译：快速工具伺服加工;光学微观结构;表面生成;基于模型的仿真;优化;

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1. BK7光学玻璃超声振动磨削加工表面粗糙度预测模型 [J] . 赵培轶, 周明, 张元晶, 中南大学学报（英文版） . 2018,第002期
2. A Framework of a Model-based Simulation System for Prediction of Surface Generation in Fast Tool Servo Machining of Optical Microstructures [J] . C.F. Cheung, W.B. Lee, S. To, Key Engineering Materials . 2007,第期

机译：用于光学微结构快速刀具伺服加工中的表面生成预测的基于模型的仿真系统框架
3. A Framework of a Surface Generation Model in the Fast Tool Servo (FTS) Machining of Optical Microstructures [J] . T.C. Kwok, C.F. Cheung, S. To, Key Engineering Materials . 2008,第pa2期

机译：光学微结构快速工具伺服（FTS）加工中的表面生成模型框架
4. Measurement and Characterization of Surface Quality in Fast Tool Servo Machining of Optical Microstructures [J] . C.F. Cheung, T.C. Kwok, S. To, Key Engineering Materials . 2008,第期

机译：光学微结构快速刀具伺服加工中表面质量的测量和表征
5. A Framework of a Model-based Simulation System for Prediction of Surface Generation in Fast Tool Servo Machining of Optical Microstructures [C] . C.F. Cheung, W.B. Lee, S. To International Conference on Precision Engineering and Micro/Nano Technology in Asia . 2007

机译：基于模型的模拟仿真系统的框架，用于光学微结构快速工具伺服加工中表面产生的预测
6. Identification and Control of a Fast Tool Servo for Machining Non-Cylinder Holes. [D] . Beach, Ryan. 2014

机译：识别和控制用于加工非圆柱孔的快速工具伺服系统。
7. Theoretical and Experimental Investigation of Surface Topography Generation in Slow Tool Servo Ultra-Precision Machining of Freeform Surfaces [O] . Duo Li, Zheng Qiao, Karl Walton, 2018

机译：自由曲面慢刀伺服超精密加工中表面形貌产生的理论和实验研究
8. A framework of a model-based simulation system for prediction of surface generation in fast tool servo machining of optical microstructures [O] . Cheung, CF, Lee, WB, To, S, 2007

机译：基于模型的仿真系统框架，用于预测光学微结构的快速刀具伺服加工中的表面生成

A Framework of a Model-based Simulation System for the Prediction of Surface Generation in Fast Tool Servo Machining of Optical Microstructures

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