Optical Technique, Volume. 50, Issue 1, 1(2024)
Design of Ultra-lightweight structure SiC mirror assembly for multi-objective iintegrated optimization and ssecondary sintering process
References(15)
[1] [1] Xu Hong, Guan Yingjun. Structural design of large aperture SiC mirror subassembly[J]. Infrared and Laser Engineering,2014,43(S1):83—88.
[2] [2] Zhao Yu, Su Zhicheng, Zhao Guijun, et al. Structural optimization for the design of an ultra-lightweight SiC mirror with a diameter of 500mm[J]. Chinese Optics,2020,13(06):1352—1361.
[3] [3] Huang H, Zheng X, Li W. Design and feedforward control of large-rotation two-axis scan mirror assembly with MEMS sensor integration[J].Chinese Journal of Aeronautics,2019,32(08):1912—1922.
[4] [4] Robichaud J L, Schwartz J, Landry D, et al. Recent advances in reaction bonded silicon carbide optics and optical systems[J]. Proceedings of SPIE,2005,5868:586802.
[5] [5] Li Yanwei, Zhang Jingguo, Xie Xinwang, et al. Design of Large-Aperture rectangular SiC scanning mirror assembly[J]. Laser& Optoelectronics Progress,2022,3(1):052201.
[6] [6] Liu Xiaohan, Li Shuangcheng, Li Meixuan, et al. Supporting structure design for primary and tertiary mirror of off-axis TMA system[J]. Infrared and Laser Engineering,2021,50(08):251—259.
[7] [7] Wang Zhenzhong, Hu Zhongwen, Chen Yi, et al. Structural design optimization of space gravitational wave telescope primary mirror system[J]. Infrared and Laser Engineering,2020,49(07):220—229.
[8] [8] Guo Jiang, Zhu Lei, Zhao Ji, et al. Design and optimize of high tolerance support structurefor large aperture space mirror[J]. Optics and Precision Engineering,2019,27(05):1138—1147.
[9] [9] Kihm H, Yang H. Design optimization of a 1-m lightweight mirror for a space telescope. Journal[J] Optical Engineering,2013,52(9):091806—091806.
[10] [10] Park K S, Chang S Y,Youn S K. Topology optimization of the primary miror of a multispectral cameral[J].Structural and Multidisciplinary Optimization,2003,25(1):46—53.
[11] [11] Wang Kejun, Dong Jihong, Xuan Ming, et al. Compound support structure for large aperturemirror of space remote sensor[J]. Optics and Precision Engineering,2016,24(07):1719—1730.
[12] [12] Hadaway J B, Eng R, Stahl H P, et al. Cryogenic performance of lightweight SiC and C/SiC mirrors[J]. Proceedings of SPIE,2004,5487:1018—1029.
[13] [13] Ding Kaicheng, Lian Huadong, Lin Yuhui. Research on optimization design of stacked-core mirrorbased on equivalent modeling methods[J]. Opticaltechnique,2019,45(01):16—20.
[14] [14] Li Yanwei, Yang Hongbo, Geng Linxian, et al. Large-aperture lightweight primary mirror designmethod using topology optimization[J]. Optical Technique,2008,190(02):236—238.
[15] [15] Chanda A, Dwivedy S K. A study of nonlinear behavior of flexible tool and workpiece in turning operation with regenerative effect under internal and primary resonance conditions[J]. Journal of Computational and Nonlinear Dynamics,2020,15:358—378.
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XIE Xinwang, YIN Longhai, LI Yanwei, LI Junchi, ZHANG Xiaohui, LI Jianjie. Design of Ultra-lightweight structure SiC mirror assembly for multi-objective iintegrated optimization and ssecondary sintering process[J]. Optical Technique, 2024, 50(1): 1
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