杜雪林, 张瑞翔, 张康, 夏杰. 静电成形薄膜反射面天线的裁剪设计[J]. 工程力学. DOI: 10.6052/j.issn.1000-4750.2022.05.0473
引用本文: 杜雪林, 张瑞翔, 张康, 夏杰. 静电成形薄膜反射面天线的裁剪设计[J]. 工程力学. DOI: 10.6052/j.issn.1000-4750.2022.05.0473
DU Xue-lin, ZHANG Rui-xiang, ZHANG Kang, XIA Jie. CUTTING DESIGN OF ELECTROSTATICALLY FORMED THIN MEMBRANE REFLECTOR ANTENNA[J]. Engineering Mechanics. DOI: 10.6052/j.issn.1000-4750.2022.05.0473
Citation: DU Xue-lin, ZHANG Rui-xiang, ZHANG Kang, XIA Jie. CUTTING DESIGN OF ELECTROSTATICALLY FORMED THIN MEMBRANE REFLECTOR ANTENNA[J]. Engineering Mechanics. DOI: 10.6052/j.issn.1000-4750.2022.05.0473

静电成形薄膜反射面天线的裁剪设计

CUTTING DESIGN OF ELECTROSTATICALLY FORMED THIN MEMBRANE REFLECTOR ANTENNA

  • 摘要: 该文通过裁剪和拼接平面薄膜片来对静电成形薄膜反射面天线的表面进行设计制作。由于抛物面型薄膜反射面是一个不可展开表面,通常由许多平面薄膜片制作而成,将不可避免地降低反射面表面的精度。因此,需要详细地分析裁剪和拼接过程对反射面表面精度的影响,从而获得设计需要的表面精度。该文基于旋转抛物面的无矩理论建立了工作状态的反射面模型,采用常应变三角形单元离散反射面,建立了反射面的展平和拼接有限元模型。将同口径反射面沿经线划分若干组不同数量子曲面,通过子曲面进行展平和拼接数值仿真分析,对薄膜反射面进行裁剪设计。最后,制作了0.55 m口径的薄膜反射器,并进行了摄影测量实验。验证了该方法的有效性,并讨论了制造误差的影响。

     

    Abstract: This paper addresses the surface generation of electrostatically formed paraboloid membrane reflectors by cutting and seaming planar membrane gores. Since the paraboloid reflector is an undevelopable surface, it is usually manufactured with many planar gores, which inevitably decreases the precision of the reflector surface. Therefore, the effect of the cutting pattern and seaming process on the reflector surface precision must be carefully analyzed to achieve the desired surface precision. Based on the membrane theory of rotating paraboloid, the reflector model in its working state is established. Then, the reflector is discretized by a constant strain triangular element, and the finite element model of flattening and seaming of a reflector is established. The reflector is divided into several groups with different numbers of subsurfaces, and the influence of design errors is analyzed by a numerical simulation of the whole process. Finally, a 0.55 m aperture membrane reflector is manufactured, and photogrammetric experiments are carried out. The effectiveness of the method is thusly verified, and the influence of manufacturing error is discussed.

     

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