[1] GUO X Q, WANG Y Y. Analysis of structural forms of lightweight hole for heavy-caliber mirror[J]. Opt. Precision Eng., 2000, 8(5): 518-521.(in Chinese)

[2] GUO SH W, WANG W Y, ZHANG G Y, et al.. Lightweight mirror technology for space optical systems[J].Optical Instruments, 2005, 27(4): 78-82.(in Chinese)

[3] HAN J C, YAO W, ZHANG Y M. Development in SiC optical mirror[J]. Astronavigation Material Technology, 2005,35(4):1-6.(in Chinese)

[4] ZHANG G, ZHAO W X. Analysis on structural parameters of light-weighted mirror[J]. Opt. Precision Eng., 2006,14(1): 48-53.(in Chiense)

[5] WU Q B, CHEN SH J, DONG SH. Optimization of parameters structural design of lightweight reflector[J]. Opt. Precision Eng., 2003,11(5):466-471.(in Chinese)

[6] YU T Y, JIA J J. Lightweight design of large diameter mirror[J]. Infrared, 2007,28(8):6-10.(in Chinese)

[7] GAO M H,LIU L,REN J Y. Characteristic test of SiC for space camera＇s mirror[J]. Opt. Precision Eng., 2007,15(8):1170-1174.(in Chinese)

[8] DU J F,ZHANG L B,REN G.. Mounting system design for 1.3 m primary mirror[J]. Opt. Precision Eng., 2007,15(10):1483-1488. (in Chinese)

[9] ZHANG G, ZHAO R CH, ZHAO W X. Novel reaction—formed joint technology for reaction bonded silicon carbide ceramics[J]. Opt. Precision Eng., 2008,16(6):1037-1041.(in Chinese)

[10] PRAVIN K M. Flexural rigidity characteristics of light-weighted mirrors[J]. SPIE, 1987, 748: 158-171