利用系留网捕获空间碎片云的动态模拟

IF 0.5 4区工程技术 Q4 ENGINEERING, AEROSPACE

中国空间科学技术 Pub Date : 2021-01-01 DOI:10.34133/2021/9810375

Qingtao Wang, D. Jin, X. Rui

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引用次数: 11

摘要

空间碎片，特别是空间碎片云，严重威胁着未来空间任务的安全。在多体系统动力学的框架下，本文提出了一种计算方法来研究空间碎片云在大整体运动和大变形条件下的网展开和捕获动力学。为了获得较高的空间碎片云捕获仿真保真度，采用绝对节点坐标公式(ANCF)中的梯度亏缺光束单元对织网线进行离散化。采用惩罚法计算网与碎片云之间以及碎片颗粒之间的法向接触力。通过若干展开实例，研究了子弹射击速度和微重力以及网的运动方向与微重力方向夹角对系绳网展开特性的影响。给出其他捕获实例是为了阐明网在开始与碎片云接触时部署区域对捕获率的影响，并证明在微重力条件下使用网捕获空间碎片云的拟议方法的有效性。

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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Dynamic Simulation of Space Debris Cloud Capture Using the Tethered Net

Space debris, especially the space debris cloud, has threatened severely the safety of future space missions. In the framework of multibody system dynamics, a computational approach is proposed in this study to investigate the dynamics of net deployment and capture of space debris cloud using this net subject to large overall motions and large deformations. To obtain high simulation fidelity of capturing space debris cloud, the gradient deficient beam element of the absolute nodal coordinate formulation (ANCF) is employed to discretize threads which are woven into the net. The normal contact force between the net and the debris cloud and among debris particles is computed by using the penalty method. Some deployment examples are presented to investigate the influences of shooting velocity of bullets and microgravity as well as the angle between the traveling direction of the net and the microgravity direction on the deployment characteristics of the tethered net. Other capturing examples are given to clarify the effect of the deployment area of the net at the moment it starts to contact with the debris cloud on the capture rate and to demonstrate the effectiveness of the proposed approach for capturing space debris cloud using the net in microgravity conditions.

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来源期刊

中国空间科学技术 ENGINEERING, AEROSPACE-

CiteScore

1.80

自引率

66.70%

发文量

3141

期刊介绍： "China Space Science and Technology" is sponsored by the China Academy of Space Technology. It is an academic and technical journal that comprehensively and systematically reflects China's spacecraft engineering technology. The purpose of this journal is to "exchange scientific research results, explore cutting-edge technologies, activate academic research, promote talent growth, and serve the space industry", and strive to make "China Space Science and Technology" a first-class academic and technical journal in China. This journal follows the principle of "let a hundred flowers bloom and a hundred schools of thought contend", promotes academic democracy, and actively carries out academic discussions, making this journal an important platform for Chinese space science and technology personnel to publish research results, conduct academic exchanges, and explore cutting-edge technologies; it has become an important window for promoting and displaying China's academic achievements in space technology.