空间相机柔性减振支撑结构的优化设计
李林, 王栋, 杨洪波, 谭陆洋, 孙战磊. 空间相机柔性减振支撑结构的优化设计[J]. 光学 精密工程, 2016, 24(7): 1677.
LI Lin, WAND Dong, YANG Hong-bo, TAN Lu-yang, SUN Zhan-lei. Optimization design of flexible and damping support structure of space camera[J]. Optics and Precision Engineering, 2016, 24(7): 1677.
[1] 刘强.超宽覆盖空间遥感器底部支撑结构研究[D].北京: 中国科学院大学, 2013.
LIU Q. Research on the bottom support structure of the extra-wide coverage remote senor [D].Beijing: University of Chinese Academy of Sciences, 2013.(in Chinese)
[2] 薛闯, 颜昌翔.空间相机主支撑结构设计与分析[J].科学技术与工程, 2011, 11(35): 8894-8897.
XUE CH, YAN CH X.Primary structural design and mechanical analysis of space camera [J]. Science Technology and Engineering, 2011, 11(35): 8894-8897.(in Chinese)
[3] 郭权锋.同轴三反空间相机结构稳定性研究[D].北京: 中国科学院研究生院, 2012.
GUO Q F. Research on Structure Stability of Three-Mirror Casse grain Space Camera [D]. Beijing: Graduate University of Chinese Academy of Sciences, 2012.(in Chinese)
[4] 周子云, 高云国, 邵帅, 等.采用柔性铰链的快速反射镜设计[J].光学 精密工程, 2014, 22(6): 1547-1554.
[5] PAROS J M, WEISBORO L. How to design flexure hinges [J]. Machine Design, 1965, 37(27): 151-157.
[6] 柯受权.卫星环境工程和模拟试验(下)[M]. 北京: 中国宇航出版社, 2005: 23-31.
KE SH Q.Satellite environment engineering and simulation experiment(2) [M]. Beijing: China Astronautic Publishing House, 2005: 23-31.(in Chinese)
[7] 左孔天.连续体结构拓扑优化原理与应用研究[D].武汉: 华中科技大学, 2004.
ZUO K T. Research of theory and application about topology optimization of continuum structure [D]. Wuhan: Hua Zhong University of Science and Technology, 2004.(in Chinese)
[8] 郭中泽, 张卫红, 陈欲泽.结构拓扑优化综述[J].机械设计, 2007, 24(8): 1-4.
GUO ZH Z, ZHANG W H, CHEN Y Z. Review of topology optimization design [J]. Journal of Machine Design, 2007, 24(8): 1-4.(in Chinese)
[9] 洪清泉, 赵康, 张攀, 等.OptiStruct & HyperStudy·理论基础与工程应用[M].北京: 机械工业出版社, 2012: 25-30.
HONG Q Q, ZHAO K, ZHANG P, et al..Opti Struct & HyperStudy ·The theoretical basis and engineering application [M]. Beijing: China Machine Press. 2012: 25-30.(in Chinese)
[10] CHOI K B, LEE J J, KIM M Y. Cartwheel flexure-based compliant stage for large displacement driven by a stack-type piezoelectric element [C].International Conference on Control, Automation and Systems, Seoul, 2007: 2754-2758.
[11] HOWELL L L.Compliant Mechanisms[M]. New York: Wiley, 2001.
[12] 鲁亚飞, 范大鹏, 范世珣, 等.快速反射镜两轴柔性支承设计[J].光学 精密工程, 2010, 18(12): 2574-2582.
[13] 辛宏伟, 关英俊, 李景林, 等.大孔径长条反射镜支撑结构的设计[J].光学 精密工程, 2011, 19(7): 1560-1568.
XIN H W, GUAN Y J, LI J L, et al..Design of support for large aperture rectangular mirror [J].Opt.Precision Eng., 2011, 19(7): 1560-1568.(in Chinese)
[14] HOWELL L L. Compliant Mechanisms[M].New York: Wiley, 2001.
[15] OGUAMANAM D C D, HANSEN J S, HEPPLER G R.Dynamics of a three-dimensional overhead crane system[J]. Journal of Sound and Vibration, 2001, 242(3): 411-426.
[16] 宋学峰, 魏晓平.运筹学[M].南京: 东南大学出版社, 2003: 10-20.
SONG X F, WEI X P. Operations Research[M].Nanjing: Southeast University Press, 2003: 10-20.(in Chinese)
[17] 杨宝宁.随机振动条件下设计载荷的确定[J].航天器工程, 2006, 15(3): 89-96.
Yang B N. Engineering methods for determining quasi-static limit load for structures under random vibration[J]. Spacecraft Engineering, 2006, 15(3): 89-96.(in Chinese)
李林, 王栋, 杨洪波, 谭陆洋, 孙战磊. 空间相机柔性减振支撑结构的优化设计[J]. 光学 精密工程, 2016, 24(7): 1677. LI Lin, WAND Dong, YANG Hong-bo, TAN Lu-yang, SUN Zhan-lei. Optimization design of flexible and damping support structure of space camera[J]. Optics and Precision Engineering, 2016, 24(7): 1677.