Optimizing design of CFRP based main backbone with high stiffness ratio for space camera

[1] [1] WU CH D,FU D Y,YI X S.Demands of advanced composite materials on developing space optical remote sensors ［J］. Aerospace Materials & Technology,1999,(4):11-15.(in Chinese)

[2] [2] ZHANG J Q, YAN CH X. Application of carbon/epoxy composites to support structures of space payloads ［J］. Chinese Journal of Optics and Applied Optics, 2009,2(2):79-84.(in Chinese)

[3] [3] LI W, LIU H W. Structure stability of precision component made of carbon fiber composite in space optical remote sensor ［J］. Opt. Precision Eng.,2008 ,16 (11):2173-2179.(in Chinese)

[4] [4] CHEN SH P. Design and Test of Space Camera［M］. Beijing:Yu-hang Publishing Company,2003. (in Chinese)

[5] [5] STUTE T, WULZ G, SCHEULEN D. Recent developments of advanced structures for space optics at astrium ［J］. SPIE,5179:292-302.

[6] [6] LIN Z W, LIU Y Q, LIANG Y, et al.. Application of carbon fiber reinforced composite to space optical structure［J］. Opt. Precision Eng., 2007,15(8):1181-1185.(in Chinese)

[7] [7] WANG W, YANG W,CHANG N, et al.. Topological optimization system of variable density method based on finite element software［J］. Journal of Machine Design,2008,25(5):5-8.(in Chinese)

[8] [8] YUANG J J. Design and Analysis of Satellite Structure ［M］. Beijing:Yu-hang Publishing Company,2004. (in Chinese)

[9] [9] JESSEN N C, HANSULRIK N N, SCHROLL J. Carbon fibre reinforced plastic structures for instruments for very large and extremely large telescopes ［J］. SPIE,58770: 1-12.

[10] [10] Chinese Aviation Academe. Design Handbook of Composites Constructure ［M］. Beijing:Aviation Industry Press,2001.(in Chinese)

[11] [11] MARTIN R N, ROMEO R C. Lightweight optical telescope structures fabricated from CFRP composites［J］. SPIE, 6665(66650A): 1-7.

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AN Yuan, JIA Xue-zhi, ZHANG Lei, JIN Guang. Optimizing design of CFRP based main backbone with high stiffness ratio for space camera[J]. Optics and Precision Engineering, 2013, 21(2): 416

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