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主动抛光盘磨制非球面的工艺与面形检测 被引量:5

Optical technology and testing method using stressed lap to polish asphere
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摘要 主动抛光盘技术特别适用于磨制焦比大的深度非球面,能够根据需要对抛光盘面实时地主动变形成偏轴非球面来磨制非球面镜面。它具有较高的磨削速率和较大范围内的自然平滑(无切带)。用计算机控制磨制,可以像加工球面一样来加工一个深度的非球面。介绍了用国内首次研制成功的主动抛光盘对加工直径910mm、焦比F/2的抛物面镜的工艺方法的初步探讨,并给出了抛物面镜的检验方案和检测结果。 Stressed lap polishing technology is applied to deep aspheric mirror. It can active deform the lap surface to become an off-axis asphere according different lap position on mirror surface and different angle of lap. Because the curvature is difference not only on different position on aspherical surface, but also on different direction, so the classical large polishing lap can't keep the lap surface as same as the aspherical mirror surface when it moves and spins on the mirror surface. Comparing with traditional polishing methods, it has high polishing speed and natural smooth. It is computer-control polishing technology, using it optician can polish a deep aspherical mirror just as to polish a spherical mirror. How to use stressed lap was introduced to polish φ 910 mm, F/2 paraboloidal mirror and explore the optical technology on the basis of stressed lap. The testing method and testing result were given.
作者 朱政 高必烈 李新南 刘鸣
机构地区 中国科学院国家天文台南京天文光学技术研究所
出处 《光学技术》 EI CAS CSCD 北大核心 2005年第3期341-343,共3页 Optical Technique
关键词 光学工艺 非球面磨制 主动抛光盘 光学检验 optical technology aspherical grind and polish stressed lap optical test
分类号 TG580.613 [金属学及工艺—金属切削加工及机床]
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参考文献2

  • 1Martin H M,et al.Fabrication of mirrors for the Magellan telescopes and large binocular telescope[J].SPIE,2002,4837:609-618.
  • 2Walker D D et al.The production of highly aspheric secondary mirrors using active laps[J].Applied Optics,1995,34(7):215—218.

同被引文献36

  • 1陈红,高劲松,宋琦,王彤彤,申振峰,王笑夷,郑宣鸣,范镝.离子辅助制备碳化硅改性薄膜[J].光学精密工程,2008,16(3):381-385. 被引量:21
  • 2徐清兰,伍凡,吴时彬,王家金.轻质碳化硅平面反射镜超光滑表面加工[J].光电工程,2004,31(9):22-25. 被引量:31
  • 3段存丽,田爱玲,陈志超.光学非球面器件检测新方法探究[J].应用光学,2004,25(5):62-66. 被引量:4
  • 4程灏波,冯之敬,王英伟.磁流变抛光光学非球面元件表面误差的评价[J].清华大学学报(自然科学版),2004,44(11):1497-1500. 被引量:5
  • 5刘耀彬,宋学锋.城市化与生态环境的耦合度及其预测模型研究[J].中国矿业大学学报,2005,34(1):91-96. 被引量:170
  • 6KIM S W , WALKERB D, BROOKSB D. Active profiling and polishing for efficient control of material removal from large precision surfaces with moderate asphericity[J]. Mechatronics, 2003, 13(4): 295-312.
  • 7WEST S C, MARTIN H M, NAGEL R H et al. Practical design and performance of the stressed-lap polishing tool[J]. Applied Optics, 1994, 33 (34) 8094-8100.
  • 8LI Y, WANG D X. Study on distortion control technology of the active stressed lap polishing deeper aspherical mirror [ C ] // Proceedings of SPIE-The International Society for Optical Engineering, August 21-26, 2007, Changchun, China. Changchun, China, [s. n], 2007: 60242G. 1-60242G. 10.
  • 9WANG L, ZHU Y T, ZHANG Q F. Mechanical design of the stressed lap polishing tool [ C] // Proceedings of SPIE-The International Society for Optical Engineering, August 21-26, 2005,Chuangchun, China. Changchun, China, [s. n. ], 2005: 60241Y. 1 60241Y. 7.
  • 10ZHENG Y, LI Y, WANG L, et al. Method of stressed lap shape control for large mirror fabrication[C]// Proceedings of SPIE-The International Society for Optical Engineering, May 24-31, 2006, Orlando, FL, United states. Orlando, FL, United states, [s. n. ], 2006: 62730D.

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光学技术
2005年 第3期

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