基于正交实验的主反射镜轻量化设计
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摘要
采用正交实验的方法对主反射镜的轻量化结构进行优化设计,以Patran&Nastran作为有限元分析平台。按照主反射镜结构优化参数制定正交实验表,根据正交实验表使用SolidWorks软件进行三维参数化建模,使用Patran&Nastran对主反射镜在1G重力释放下进行热力学分析,对节点变形前后坐标位置进行矢高位移计算,得出各组合的RMS值及主反射镜的轻量化比。根据正交实验表分析各因素各水平均值情况,确定各参数的敏感程度并对结果进行优化。结果表明:在主反射镜背面筋厚度为2mm;主反射镜轻量化孔内切圆大小为33mm;反射面厚度为2mm;主反射镜支撑点径向位置圆大小为176mm条件下。主反射镜的RMS值为2.976nm,质量为1.4962kg,轻量化比为75.029%。
The orthogonal design method was used to optimize the lightweight structure of primary mirror, and Patran&Nastran were used as the platform for finite element analysis. According to the optimization parameters of the primary mirror structure,an orthogonal experiment table was established,and the SolidWorks software was used to model according to the orthogonal experiment table. The thermodynamic analysis of the primary mirror under the working condition was performed by Patran&Nastran;and the vector height displacement calculation was performed on the coordinate position before and after the deformation of the node. The RMS value of each combination and the lightening ratio of the primary mirror was obtained. According to the orthogonal experimental table,the average value of each factor was analyzed;and the sensitivity of each parameter was determined and the results were optimized. The result is that the thickness of the back-side brace of the primary mirror was 2 mm;the size of the inner circle of lightweight hole was 33 mm;the thickness of the reflecting surface was 2 mm;the radial position of the primary mirror was 176 mm.The RMS was 2.976 nm;the quality of primary mirror was 1.4962 kg;and the weight reduction ratio was 75.029%.
The orthogonal design method was used to optimize the lightweight structure of primary mirror, and Patran&Nastran were used as the platform for finite element analysis. According to the optimization parameters of the primary mirror structure,an orthogonal experiment table was established,and the SolidWorks software was used to model according to the orthogonal experiment table. The thermodynamic analysis of the primary mirror under the working condition was performed by Patran&Nastran;and the vector height displacement calculation was performed on the coordinate position before and after the deformation of the node. The RMS value of each combination and the lightening ratio of the primary mirror was obtained. According to the orthogonal experimental table,the average value of each factor was analyzed;and the sensitivity of each parameter was determined and the results were optimized. The result is that the thickness of the back-side brace of the primary mirror was 2 mm;the size of the inner circle of lightweight hole was 33 mm;the thickness of the reflecting surface was 2 mm;the radial position of the primary mirror was 176 mm.The RMS was 2.976 nm;the quality of primary mirror was 1.4962 kg;and the weight reduction ratio was 75.029%.
引文
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[2]姜会林,江伦,宋延嵩,等.一点对多点同时空间激光通信光学跟瞄技术研究[J].中国激光,2015,42(04):150-158.
[3]杨佳文,黄巧林.大口径反射镜结构参数优化设计[J].中国空间科学技术,2011,31(04):77-83.
[4]于跃,李威.空间光学遥感器次镜参数化设计[J].应用光学,2015,36(06):836-840.
[5]包奇红,沙巍,陈长征,等.中心支撑Φ610mm圆形主镜的超轻量化设计[J].光子学报,2016,45(09):128-134.
[6]谢杰,潘风明,刘近超,等.基于有限元法的主镜轻量化结构设计及性能分析[J].光电子技术,2017,37(03):211-215.
[7]王富国,杨洪波,赵文兴,等.1.2m SiC主镜轻量化设计与分析[J].光学精密工程,2009,17(01):85-91.
[8]董吉洪,王克军,李延春,等.空间遥感器中大口径SiC主镜的轻量化设计[J].中国光学,2011,4(02):118-123.
[9]韩旭,焦海丽.大口径红外变焦投影系统环境适应性研究[J].长春理工大学学报:自然科学版,2015,38(06):16-20.
[10]李畅,何欣.大口径反射镜轻量化及其支撑结构设计[J].激光技术,2015,39(03):337-340.
[11]后建敏,卓仁善,孙宁.基于有限元法的光电经纬仪主镜轻量化设计[J].长春理工大学学报:自然科学版,2008,31(04):77-80.
[12] Lindley P B,Engineering design with natural rubber,natural rubber technical bulletin,3rd edition[M].National Rubber Producers Research Association,1970.
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