Stress compensation of flexible supporting structures for mirrors using NiTi shape memory alloy

[1] [1] WANG ZH Q,WANG Y J,ZHOU B.Study on the vibration properties of a shape memory alloy composite beam ［J］. Journal of Harbin Engineering University, 2011, 32(4)：434-438.(in Chinese)

[2] [2] WANG X H, ZHANG B M, DU SH Y, et al. Finite element analysis of corrugated sheets structure deforming initiatively with shape memory alloy actuators ［J］. Journal of mechanical engineering, 2009, 45(8)：287-291.(in Chinese)

[3] [3] ROGERS C A. Structural modification of simple-support laminated plates using embedded shape memory alloy fibers ［J］. Computer & structure, 1991, 38: 569-580.

[4] [4] JEFFREY S N PAINE, ROGERS C A, SMITH R A. Adaptive composite materials with shape memory alloy actuators for cylinder and pressure vessels ［J］. SPIE,1994, 2190: 390-401.

[5] [5] THAMBURAGA P, ANAND L. Super elastic behavior in tension torsion of an initially textured NiTi shape memory alloy ［J］. International Journal of Plasticity, 2002, 18: 1607-1617.

[6] [6] ZUO X B, LI A Q, NI L F. An experimental study on the mechanical behavior of superelastic NiTi shape memory alloy wires ［J］. China Civil Engineering Journal, 2000, 37(12)：10-16.(in Chinese)

[7] [7] COHEN L M, CERNOCK L, MATHEWS G, et al. Structural considerations for fabrication and mounting of the AXAF HRMA optics ［J］. SPIE,1990,1303: 162.

[8] [8] SHOLL M, LAMPTON M, ALDERING G, et al. SNAP telescope ［J］. SPIE,2004,5487: 1473-1483.

[9] [9] LI L, YANG Y. Design of flexure hinges with space curve notches［J］. Opt. Precision Eng., 2010, 18(10)：2192-2198.(in Chinese)

[10] [10] YAN Y, JIN G G, YANG H B. Design and analysis of large spaceborne light-weighted primary mirror and its support system ［J］. SPIE,2007,6721: 67210V-1-67210V-7.

[11] [11] RICHARD R M, VUKOBRATOVICH D, CHO M, et al.. The flexure assembly design for the SIRTF one-meter primary mirror ［C］. Conference on Cryogenic Optical Systems and Instruments III in Conjunction with SPIE's 32. Annual International Technical Symposium on Optical and Optoelectronic Applied Science and Engineering, 1989：79-85.

[12] [12] ZINN J W,JONES G W. Kepler primary mirror assembly: FEA surface figure analyses and comparison to metrology ［J］. SPIE,2007,6721: 667105-1-667105-11.

CLP Journals

[1] CAO Yu-yan, WANG Zhi-chen, ZHOU Chao, FAN Lei, HAN Xi-da, ZHANG Yao-zu. General modeling and optimal design of flexure supporting structure for optical components[J]. Optics and Precision Engineering, 2016, 24(11): 2792

[2] XIN Hong-wei, LIU Ju, LIU Lei, GUAN Ying-jun. Support structure of primary mirror for small optical remote sensor[J]. Optics and Precision Engineering, 2015, 23(4): 1027

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CAO Nai-liang, XU Hong, XIN Hong-wei, YUAN Ye, LI Zhi-lai, YANG Hui-sheng. Stress compensation of flexible supporting structures for mirrors using NiTi shape memory alloy[J]. Optics and Precision Engineering, 2012, 20(10): 2161

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