空间材料的原子氧侵蚀理论和预测模型

材料研究学报

2003, Vol. 17

Issue (2): 113-121

论文

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空间材料的原子氧侵蚀理论和预测模型

多树旺; 李美栓; 张亚明

中国科学院金属研究所沈阳材料科学国家（联合）实验室

引用本文:

多树旺; 李美栓; 张亚明 . 空间材料的原子氧侵蚀理论和预测模型[J]. 材料研究学报, 2003, 17(2): 113-121.

全文: PDF(1942 KB)

摘要: 低地轨道环境中的原子氧对航天器材料的侵蚀导致材料性能变坏甚至失效，原子氧的侵蚀机理和防护技术是当前空间环境效应研究的热点. 在对原子氧效应机理已有的理解的基础上, 准确预测空间材料在低地轨道环境中由于原子氧暴露引起的侵蚀效应，可对设计者在工程选材和飞行器设计提供帮助。本文综述了近年来发展的原子氧与空间材料相互作用的理论模型和侵蚀速率预测模型，并对各种模型进行了分析, 也指出了关于原子氧效应的研究重点。

关键词 ：材料失效与保护, 预测模型, 评述, 原子氧

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收稿日期: 1900-01-01

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