光子学报, 2017, 46 (12): 1222001, 网络出版: 2017-11-23   

Φ210 mm超薄超轻SiC反射镜多目标集成优化设计

Multi-objective Integrated Optimization Design of Φ210 mm Ultra-light SiC Mirror
张雷 1,2,*柯善良 1,3李林 1,3贾学志 1,2杜一民 1,3
作者单位
1 中国科学院长春光学精密机械与物理研究所, 长春 130033
2 长光卫星技术有限公司, 长春 130031
3 中国科学院大学, 北京 100049
摘要
为了提高轻小型碳化硅反射镜的面形精度并减轻其加工成本, 针对某空间相机的Φ210 mm SiC反射镜进行超轻量化设计.采用背部三点支撑并优化支撑点的位置, 通过拓扑优化, 得到反射镜背部需保留和可去除材料的分布情况.结合背部开放式、三角形孔的轻量化方案, 确定反射镜轻量化结构的初始模型.应用多目标集成优化方法, 建立以反射镜重量和X向自重工况面形为目标, Z向自重工况面形值为约束的优化模型, 对该反射镜进行了优化设计.优化后反射镜的X向自重工况下RMS值仅为0.18 nm, Z向自重工况下RMS值为2.38 nm, 重量仅为0.568 kg, 面密度达到16.9 kg/m2, X、Y、Z三向基频都在500 Hz以上.本文设计的反射镜结构有良好的力学性能, 本文优化设计方法是合理有效性.
Abstract
This paper has proposed ultra-lightweight design and optimization for a primary mirror of a space camera with Φ210 mm aperture to improve surface quality and reduce its launching cost. Three-point support on mirror back is selected as the support method and the locations of the supports are carefully studied. Through the topology optimization, the mass distribution of the back of the mirror and the distribution of the removable part are obtained. The initial structure of mirror is light weighted on its back applying triangular hole light-weighting method. Multiple-object optimization which combines mass and surface figure error along X-axis(detection direction) as optimization object under constraint of surface figure error along Z-axis(machine direction) is carried out on the initial structure of mirror. Finally, a mirror with RMS(Root Mean Square) as lowas 0.18 m with X-axis straight down and 2.38 mm with Z-axis straight down is achieved. The mirror weights 0.568 kg, surface density of it is as low as 16.9 kg/m2. And the primary frequency of X,Y,Z are more than 500 Hz. Through the FEM analysis and vibration test, verify the good mechanical properties of the mirror structure. The results show that the optimal design method of this paper is reasonable for the lightweight mirror.

张雷, 柯善良, 李林, 贾学志, 杜一民. Φ210 mm超薄超轻SiC反射镜多目标集成优化设计[J]. 光子学报, 2017, 46(12): 1222001. ZHANG Lei, KE Shan-liang, LI Lin, JIA Xue-zhi, DU Yi-min. Multi-objective Integrated Optimization Design of Φ210 mm Ultra-light SiC Mirror[J]. ACTA PHOTONICA SINICA, 2017, 46(12): 1222001.

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