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大口径光学元件超精密加工技术与应用 被引量:24

Technology and Application of Ultra-precision Machining for Large Size Optic
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摘要 大口径光学元件超精密加工技术是多种学科新技术成果的综合应用,促进了民用和国防等尖端技术领域的发展,在国家大光学工程的推动下,我国的超精密加工技术取得显著的成果。围绕大口径光学元件'高精度磨削+确定性抛光'超精密加工体系,介绍该领域研究进展及厦门大学微纳米加工与检测联合实验室取得的相关研究成果,主要针对光学元件磨削和抛光两个加工流程,详细分析磨削装备技术、磨削工艺技术、精密检测技术、可控气囊抛光技术、加工环境监控技术和中频误差评价技术等关键技术的研究应用情况。这些技术研究从超精密加工的需求出发,借鉴国内外的研究经验和成果,通过对装备、工艺、检测等各方面整合,形成具有自主知识产权的大口径光学元件磨抛超精密加工体系,从而实现大口径光学元件高精度、低缺陷加工。 The ultra-precision machining technology of large size optic is a comprehensive application of various sciences, which promotes the development for civil and national defense use. Under the processing of national optical project, our country makes great progress in this field. The development of ultra-precision machining technology for large size optic in micro/nano machining and measuring laboratory of Xiamen University is introduced, particularly in grinding equipment, grinding process, precise measuring, controlled bonnet polishing, environment monitoring, mid-spatial frequency error assessing and et al. From the requirement of the ultra-precision machining, the laboratory uses the experience of other countries for reference and integrates the above technology, then forms an intellectual property of grinding and polishing system independently for large size optic manufacture.
作者 郭隐彪 杨炜 王振忠 彭云峰 毕果 杨平
机构地区 厦门大学机电工程系
出处 《机械工程学报》 EI CAS CSCD 北大核心 2013年第19期171-178,共8页 Journal of Mechanical Engineering
基金 国家自然科学基金(51075343 51275433) 国家科技重大专项(2011ZX04004-061 2013ZX04001000-206)资助项目
关键词 超精密加工 磨削加工装备 磨削加工工艺 精密检测 气囊抛光 环境监控 中频误差评价 Ultra-precision machining Grinding equipment Grinding process Precise measuring Bonnet polishingEnvironment monitoring Mid-spatial frequency error assessing
分类号 TG58 [金属学及工艺—金属切削加工及机床]
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参考文献12

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机械工程学报
2013年 第19期

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