Space Station Rotational Stability

arXiv - PHYS - Popular Physics Pub Date : 2024-07-31 DOI:arxiv-2408.00155
David W. Jensen
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Abstract

Designing for rotational stability can dramatically affect the geometry of a space station. If improperly designed, the rotating station could end up catastrophically tumbling end-over-end. Active stabilization can address this problem; however, designing the station with passive rotation stability provides a lower-cost solution. This paper presents passive rotational stability guidelines for four space station geometries. Station stability is first analyzed with thin-shell and thick-shell models. Stability is also analyzed with models of the station's major constituent parts, including outer shells, spokes, floors, air, and shuttle bays.
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空间站旋转稳定性
设计旋转稳定性会极大地影响空间站的几何形状。如果设计不当,旋转站最终可能会发生端部翻滚的灾难性后果。主动稳定可以解决这个问题;然而,设计具有被动旋转稳定性的空间站可以提供成本更低的解决方案。本文介绍了四种空间站几何结构的被动旋转稳定性指南。首先使用薄壳和厚壳模型分析了空间站的稳定性。同时还分析了空间站主要组成部件模型的稳定性,包括外壳、辐条、地板、空气和航天飞机舱。
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arXiv - PHYS - Popular Physics
arXiv - PHYS - Popular Physics
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