低地球轨道上的原子氧,一个回顾性的回顾研究

Pub Date : 2023-04-28 DOI:10.15407/knit2023.02.032
W. M. Mahmoud, D. Elfiky, S. Robaa, M. Elnawawy, S. M. Yousef
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引用次数: 0

摘要

本文综述了近地轨道原子氧(AO)的研究进展。低轨道空间环境是所有卫星通过的屏障。它的几个组成部分对卫星材料和子系统构成极大的危险。这样的轨道便于遥感卫星和实验卫星使用。为了保持航天器的运行水平,有必要对近地轨道环境及其组成部分进行深入的研究。AO是一种过度活跃的氧气状态,被认为是低轨道环境中最危险的成分之一。它可以与许多材料发生反应,从而改变影响卫星功能的物理、光学和机械性能。为了使卫星在一定的可靠度范围内保持在轨道上,有必要减少低轨道环境成分对卫星的积极影响。预测AO对将在太空中使用的材料的影响可以确保它们的正确选择。这项工作为建立AO设施以测试受空间环境剧烈影响的材料提供了一些建议。
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ATOMIC OXYGEN IN LOW EARTH ORBITS, A RETROSPECTIVE REVIEW STUDY
The article presents a retrospective review of atomic oxygen (AO) research in low Earth orbit (LEO).The space environment of LEO is a barrier to all satellites passing through it. Several of its constituent parts pose a great danger to satellite materials and subsystems. Such orbits are convenient for remote sensing and experimental satellites. In order to maintain the operational level of spacecraft, it is necessary to carry out thorough studies of the LEO environment and its components. AO, which is a hyperactive state of oxygen, is considered one of the most dangerous components of the LEO environment. It can react with many materials and thereby change the physical, optical and mechanical properties that affect the functionality of the satellite. To maintain the satellite in its orbit with a certain margin of reliability, it is necessary to reduce the aggressive influence on it of the environmental components of LEO. Predicting the impact of AO on materials that will be used in space ensures their correct selection. The work provides some recommendations for the creation of AO facilities for testing materials exposed to the aggressive influence of the space environment.
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