米级口径经纬仪保护窗口镜面变形分析 -

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米级口径经纬仪保护窗口镜面变形分析

doi:10.3788/CO.20181104.0654

赵晓东^{1, 2,},
王晶^1,,

1.
中国科学院长春光学精密机械与物理研究所, 吉林长春 130033
2.
中国科学院大学, 北京 100049

基金项目:

国家自然科学基金资助项目No.11403064

详细信息

作者简介:
赵晓东(1991-), 男, 山东滕州人, 硕士研究生, 主要从事光电测量设备结构设计方面的研究。E-mail:zxdsdu@163.com
王晶(1966-), 女, 吉林九台人, 研究员, 博士生导师, 主要从事光学技术与测量技术方面的研究。E-mail:wangjing@ciomp.an.cn

中图分类号:TH74
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- 被引次数:0
出版历程
- 收稿日期:2017-12-26
- 修回日期:2018-02-05
- 刊出日期:2018-08-01

Analysis of the mirror deformation of one-meter theodolite protective window

ZHAO Xiao-dong^{1, 2,},
WANG Jing^1,,

1.
Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences, Changchun 130033, China
2.
University of Chinese Academy of Sciences, Beijing 100049, China

Funds:

National Nature Science Foundation of ChinaNo.11403064

More Information

Corresponding author:WANG Jing, E-mail:wangjing@ciomp.an.cn

摘要

摘要:为了精确分析外载荷作用下米级口径经纬仪保护窗口镜面变形，本文基于接触有限元理论建立了米级口径经纬仪保护窗口带摩擦接触的有限元分析模型，对比了线性刚性连接和非线性摩擦接触方法的差异。采用齐次坐标变换法去除刚体位移，得到米级口径经纬仪保护窗口镜面畸变数据，使用Zernike多项式作为光机集成分析的接口工具，并将Zernike多项式系数导入ZEMAX中，以波前像差RMS值衡量镜面变形对成像质量的影响，并与干涉仪检测结果进行比较。考虑摩擦接触条件得到的保护窗口镜面波前像差RMS值为38.095 nm、PV为205.027 nm，使用干涉仪检测得到的保护窗口镜面波前像差RMS值为40.626 nm、PV值为235.654 nm。实验结果表明，考虑摩擦接触条件的仿真实验与干涉仪检测实验的镜面波前像差RMS值偏差为6.23%，能更准确地反映米级口径保护窗口镜面变形。
- 经纬仪/
- 有限元理论/
- 齐次坐标变换/
- Zernike多项式
Abstract:In order to accurately analyze the mirror deformation of the one-meter theodolite protective window under exterior loads, the model of one-meter theodolite protective window is built on the base of frictional contact finite element theory, the differences between linear rigid joint and nonlinear frictional contact simulation methods are compared. Homogeneous coordinate transformation method is used to remove the rigid body displacement, and the mirror distortion data of the protection window of the meter-caliber theodolite is obtained. The Zernike polynomial is used as an interface tool for the integrated optomechanical analysis, and Zernike polynomial coefficients are introduced into ZEMAX. The effect of mirror distortion on image quality is measured by the RMS value of wavefront aberration, and is compared with the results of the interferometer test. The RMS value of the mirror wavefront aberration is 38.095 nm and the PV is 205.027 nm. The RMS value of the wavefront aberration is 40.626 nm and the PV is 235.654 nm. The experimental results show that the deviation of the RMS value of the specular wavefront aberration between the simulation experiment and the interferometer detection experiment considering the frictional contact condition is 6.23%, thus more accurately reflect the mirror deformation of the meter-level aperture protection window.
- theodolite/
- finite element theory/
- homogeneous coordinate transformation/
- Zernike polynomial

HTML全文

图 1保护窗口结构

Figure 1.Protective window structure

下载: 全尺寸图片幻灯片

图 2保护窗口有限元模型

Figure 2.Finite element model of protective window

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图 3刚性连接面形及应力图

Figure 3.Contour and stress diagram of rigid joint surface

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图 4摩擦接触面形及应力图

Figure 4.Contour and stress diagrams of frictional contact surface

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图 5保护窗口面形的干涉仪检测结果

Figure 5.Interferometer test results of contour diagram of protective window surface

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图 6刚性连接镜面波前图

Figure 6.Wave front map of rigid joint mirror

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图 7摩擦接触镜面波前图

Figure 7.Wavefront map of frictional contact mirror

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表 1材料属性参数

Table 1.Material property parameters

Material	Density/ (kg·m^-3)	Young′s Modulus/Gpa	Poisson′s Ratio
45	7 890	209	0.27
HT250	7 280	138	0.156
Fused silica	2 205	73	0.17
Rubber	1 150	0.006 1	0.49

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表 2Zernike前五项表达式及意义

Table 2.The first five polynomials of Zernike and their meanings

NO	Polynomial	Meaning
1	1	piston
2	2x	xtilt
3	2y	ytilt
4	(2x²+2y²-1)	defocus
5	2 xy	astigmatism

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