低成本模拟太空微型碎片发射装置的设计

Aerospace Pub Date : 2024-07-15 DOI:10.3390/aerospace11070577

Renjie Yang, Kai Tang, Xuqiang Lang, Cheng He, Yu Liu, Yue Liu

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摘要

微粒子发射器成本高、发射频率低，导致空间微碎片探测器的研制周期很长。本文利用高速气流的气体膨胀和激波推进原理，设计了两个低成本、高发射频率、小尺寸、毫米级的微粒发射器。利用静电探测来确定微珠的发射速度及其偏离飞行轨迹上特定位置的情况。实验评估了这两种方法的发射速度和准确性，以及检测系统的偏差。两种装置都发射微珠来模拟微碎片，为开发空间碎片探测器提供了实验数据，并为研究微碎片的影响创造了研究条件。

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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Design of Low-Cost Simulation Space Micro Debris Launch Device

The high cost and low emission frequency of microparticle launchers have resulted in a long lead time for the development of detectors for micro-debris in space. In this paper, two low-cost, high-emission-frequency, small-size, millimeter-sized particle launchers are designed using the principles of gas expansion and surge propulsion by a high-speed air stream. Electrostatic detection is utilized to determine the emission velocity of the microbeads and their deviation from a specific position on the flight trajectory. The emission rate and accuracy of both methods were experimentally evaluated, along with the deviation of the detection system. Both devices emitted microbeads to simulate micro-debris, providing experimental data for the development of a space debris detector and establishing research conditions for studying the impact of micro-debris.

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Aerospace

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