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Computer-aided NC programming system for large scale and off-axis aspheric optics in parallel grinding
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Paper Abstract

For the purpose of ultra-precision grinding large scale and complex off-axis aspheric optics effectively and automatically, computer-aided NC programming system was developed in this article. First the mathematical model of aspheric parallel grinding was analyzed, and the manufacture process of aspheric grinding is designed. Then the system architecture was established, which included initial grinding module, on-machine measuring module and error compensation grinding module. After inputting process and aspheric parameters, the system could calculate the grinding wheel X/Z/Y coordinates precisely and simulate the grinding pathway automatically, and then create grinding CNC program, which could control the grinding wheel to move along the aspheric surface. And the on-machine measurement CNC program was created to acquire the form error by displacement sensor. By combining the form error with the aspheric surface coordinates, the grinding wheel coordinates could be calculated and compensation machining CNC program was created. Using this system to manufacturing one large scale and off-axis aspheric optics, the PV of final form error was below 3.0μm, and the RMS was below 0.5μm.

Paper Details

Date Published: 6 February 2019
PDF: 9 pages
Proc. SPIE 10842, 9th International Symposium on Advanced Optical Manufacturing and Testing Technologies: Subdiffraction-limited Plasmonic Lithography and Innovative Manufacturing Technology, 108420V (6 February 2019); doi: 10.1117/12.2504960
Show Author Affiliations
L. Zhou, Research Ctr. of Laser Fusion (China)
Q. C. Wei, Research Ctr. of Laser Fusion (China)
S. J. Zhao, Research Ctr. of Laser Fusion (China)
Q. H. Zhang, Research Ctr. of Laser Fusion (China)
J. Wang, Research Ctr. of Laser Fusion (China)
Q. Xu, Research Ctr. of Laser Fusion (China)


Published in SPIE Proceedings Vol. 10842:
9th International Symposium on Advanced Optical Manufacturing and Testing Technologies: Subdiffraction-limited Plasmonic Lithography and Innovative Manufacturing Technology
Mingbo Pu; Xiong Li; Xiaoliang Ma; Rui Zhou; Xuanming Duan; Xiangang Luo, Editor(s)

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