大口径SiC轻量化反射镜柔性带式支撑静摩擦影响

邵亮; 吴小霞; 明名; 陈宝刚; 李剑锋; 孙敬伟

doi:doi:10.3788/ope.20172509.2387

光学精密工程, 2017, 25 (9): 2387, 网络出版: 2017-10-30

大口径SiC轻量化反射镜柔性带式支撑静摩擦影响

Influence of static friction for large aperture SiC light-weight reflecting mirror with flexible strip support

论文大纲

邵亮吴小霞明名陈宝刚李剑锋孙敬伟

作者单位

中国科学院长春光学精密机械与物理研究所, 吉林长春 130033

摘要

采用柔性带式支撑方式的大口径光学反射镜与支撑带之间的静摩擦力对反射镜面形精度影响较大, 而且该影响难于直接定量测量。针对这一实际情况, 考虑到温度变化将引起静摩擦力状态变化这一规律, 建立了温度—静摩擦力间的关系表达式; 接着, 以反射镜所受静摩擦力与环境温度关系为基础, 通过测量不同温度下的反射镜面形精度, 间接推算出静摩擦力对反射镜面形精度的影响; 以1.2米SiC轻量化反射镜为研究对象, 利用干涉仪检测其柔性带式支撑机构在不同温度下的面形精度, 并利用实测数据推导出温度—静摩擦关系的相应系数; 最后借助ANSYS软件, 对带式支撑机构的受力情况进行仿真分析。实测结果与仿真分析结果一致性较好, 说明该研究方法可较为准确地推导出静摩擦力对大口径SiC轻量化反射镜面形影响。

Abstract

For the large aperture reflecting mirror with flexible strip support, static friction between large aperture optical reflecting mirror and support stripe has great influence on surface distortion of reflecting mirror. Moreover, the influence is hard to measure in quantity directly. In consideration of the fact that ambient temperature fluctuation would lead to state change of static friction, relational expression of temperature-static friction was established. On the basis of the relational expression, the influence of static friction on reflecting mirror surface distortion could be deduced though measuring reflecting mirror surface distortion at different temperatures. By taking a 1.2 m SiC light-weight reflecting mirror with flexible strip support mechanism as research object, the surface distortion measurement of flexible strip support mechanism was conducted at different temperatures with a interferometer, and corresponding coefficients of temperature-static friction relation were calculated with measured data; simulation analysis on force condition of stripe support mechanism was conducted with ANSYS software. The results indicate that measured result and simulation analysis result have good consistency, thus influence of static friction on mirror distortion of large-aperture SiC light-weight reflecting mirror can be deducted accurately in this proposed method.

参考文献

[1] 吴小霞, 杨洪波, 张景旭, 等. 钢带支撑轻量化椭圆镜的变形研究［J］. 光子学报, 2008, 37(10): 2080-2083.

WU X X, YANG H B, ZHANG J X, et al.. Strain of a lightweight elliptical mirror with steel strip support ［J］. Acta Photonica Sinica, 2008, 37(10): 2080-2083.(in Chinese)

[2] 王富国, 杨洪波, 赵文兴, 等. 1.2 m SiC主镜轻量化设计与分析［J］. 光学精密工程, 2009, 17(1): 85-91.

WANG F G, YANG H B, ZHAO W X, et al.. Lightweight design and analysis of a 1.2 m SiC primary mirror ［J］. Opt. Precision Eng., 2009, 17(1): 85-91.(in Chinese)

[3] IWONA A P, ISACC G. Developing SiC for optical system application ［J］. Novel Optical Systems Design and Optimization, 2004, 5524: 14-20.

[4] 吴小霞, 李剑锋, 宋淑梅, 等. 4 m SiC轻量化主镜的主动支撑系统［J］. 光学精密工程, 2014, 22(9): 2452-2457.

WU X X, LI J F, SONG SH M, et al.. Active support system for 4 m SiC lightweight primary mirror ［J］. Opt. Precision Eng., 2014, 22(9): 2452-2457.(in Chinese)

[5] WILSON R N. Reflecting Telescope Optics Ⅱ, Manufacture, Testing, Alignment, Modern Techniques ［M］. Berlin: Springer Press, 1999: 264-268.

[6] 董冰, 付跃刚, 刘智颖. 大口径光学离轴平行光管研究——主反镜结构及光学检测［J］. 应用光学, 2011, 32(4): 714-717.

DONG B, FU Y G, LIU ZH Y.Large aperture off-axis collimator: primary mirror structure and optical inspection ［J］. Journal of Applied Optics, 2011, 32(4): 714-717.(in Chinese)

[7] 高明辉, 李丽富, 徐敬礼, 等. 一种新型多波段大口径平行光管的设计［J］. 红外与激光工程, 2009, 38(4): 698-701.

GAO M H, LI L F, XU J L, et al.. Design of a new kind of multi-waveband large aperture parallel light pipe ［J］. Infrared and Laser Engineering, 2009, 38(4): 698-701.(in Chinese)

[8] 叶露, 王肇勋. 大口径长焦距平行光管主反射镜支撑与调整机构的研究［J］. 光学精密工程, 2000, 8(5): 462-465.

YE L, WANG ZH X.Supporting and adjusting for collimator primary mirror with large-aperture and long-focal length ［J］. Opt. Precision Eng., 2000, 8(5): 462-465.(in Chinese)

[9] 赵天骄,乔彦峰,孙宁,等.经纬仪主镜在支撑系统下的面形变化［J］.中国光学,2017,10(4):477-483.

ZHAO T J, QIAO Y F, SUN N, et al.. Surface deformation of theodolite primary mirror under the support system ［J］. Chinese Optics, 2017, 10(4): 477-483. (in Chinese)

[10] PAUL R Y. Opto-mechanical System Design ［M］. (3rd edition), Boca Raton: CRC Press, 2006: 471-474.

[11] 程景全. 天文望远镜原理和设计［M］. 北京: 中国科学技术出版社, 2003.

CHENG J Q. Principles of Astronomical Telescope Design ［M］. Beijing: China Science & Technology Press, 2003.(in Chinese)

[12] 杨利伟,李志来,薛栋林,等.应用方位反向技术提取反射镜零重力面形［J］.中国光学,2016,9(5):606-612.

YANG L W, LI ZH L, XUE D L, et al.. Extracting zero-gravity surface figure of mirror by orientation reversal ［J］. Chinese Optics, 2016,9(5): 606-612. (in Chinese)

邵亮, 吴小霞, 明名, 陈宝刚, 李剑锋, 孙敬伟. 大口径SiC轻量化反射镜柔性带式支撑静摩擦影响[J]. 光学精密工程, 2017, 25(9): 2387. SHAO Liang, WU Xiao-xia, MING Ming, CHEN Bao-gang, LI Jian-feng, SUN Jing-wei. Influence of static friction for large aperture SiC light-weight reflecting mirror with flexible strip support[J]. Optics and Precision Engineering, 2017, 25(9): 2387.

大口径SiC轻量化反射镜柔性带式支撑静摩擦影响

关于本站 Cookie 的使用提示

全站搜索

大口径SiC轻量化反射镜柔性带式支撑静摩擦影响

相关论文

相关资讯

关于本站 Cookie 的使用提示

全站搜索