紧凑型伸缩变形格子吊杆

ASME 2019 Conference on Smart Materials, Adaptive Structures and Intelligent Systems Pub Date : 2019-12-05 DOI:10.1115/smasis2019-5620

C. McHale, R. Telford, P. Weaver

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引用次数: 4

摘要

本文报道了一种紧凑型伸缩变形点阵(CTML)空间臂架的设计与制造。该吊杆的体积为1U CubeSat，重量仅为0.475kg。一旦部署，CTML的总长度为2m，是装载高度的20倍。该装置由三个串联的多稳定圆柱形复合晶格组成。为了提高包装效率，这些晶格在储存配置中彼此嵌套。变形晶格是一种利用预应力和层状定向的结构，可以从短暂的装载状态无缝地转变为长期的展开状态。通过定制制造参数，臂架中的格子被设计为最大化展开力和自我展开。因此，html只需要一个小的、轻量级的机制来调节部署速度。部署速度调节器还可以将臂架收回到存放状态，便于重新配置。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Compact Telescopic Morphing Lattice Boom

This paper reports on the design and manufacture of a compact telescopic morphing lattice (CTML) space boom. This boom stows within a 1U CubeSat volume and weighs only 0.475kg. Once deployed, the CTML has a total length of 2m, 20 times the stowed height. The device consists of three multi-stable cylindrical composite lattices connected in series. To improve packaging efficiency, these lattices nest inside one another in the stowed configuration. The morphing lattice is a structure that uses prestress and lamina orientation to seamlessly morph from a short stowed state to a long deployed state. By tailoring the manufacturing parameters, the lattices in the boom have been designed to maximize the deployment force and to be self-deploying. Therefore, the CTML only requires a small, lightweight mechanism to regulate the deployment speed. The deployment speed regulator can also potentially retract the boom back to the stowed state, facilitating reconfigurability.

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ASME 2019 Conference on Smart Materials, Adaptive Structures and Intelligent Systems

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