Acceleration of resource tests of spacecraft polymers for resistance to long-term influence of atomic oxygen in the Earth ionosphere

Pub Date : 2021-01-01 DOI:10.15407/knit2021.04.054
V. Shuvalov, S. N. Kulagin, D. Lazuchenkov
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Abstract

The procedure of accelerated resource tests of spacecraft polymers for their resistance to the long-term influence of atomic oxygen (AO) in the Earth's ionosphere at altitudes from 200 to 700 km has been developed. The procedure involves irradiation of polymers with high-energy ions of atomic oxygen and the use of a kapton-H polyimide as reference material. The condition of equivalence of the " atomic oxygen - polymer" interaction in the ionosphere and on the laboratory set is the equality of tested material mass loss. The basis for substantiating the procedure of accelerated tests is the result: when irradiating the kapton-H polymer with high-energy atomic oxygen ions in the energy range from 30 to 80 eV, the degradation of polyimide is determined by the process of chemical etching of the material. To substantiate the procedure of accelerating resource tests of polymeric structural materials of spacecraft for resistance to long-term action of atomic oxygen flows, the dependences of mass loss and volumetric mass loss factor (reactivity) of kapton-H polyimide and Teflon FEP-100A on fluence and energy of the atomic oxygen ions have been obtained. It is shown that when irradiating kapton-H polyimide with atomic oxygen ions with the energy of 30 to 80 eV, the material mass loss due to chemical etching is about an order of magnitude greater than the mass loss due to kinetic sputtering. When the kapton-H polymer is irradiated with high-energy atomic oxygen ions, the coefficient of acceleration of the resource tests and the fluence of atomic oxygen are about two orders of magnitude greater than the coefficient of acceleration obtained using atomic oxygen ions with an energy of 5 eV.
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加速航天器聚合物抗地球电离层原子氧长期影响的资源试验
已经制定了航天器聚合物抗地球电离层中200至700公里高度原子氧长期影响的加速资源试验程序。该过程包括用原子氧的高能离子照射聚合物,并使用卡普顿- h聚酰亚胺作为参考物质。在电离层和实验室装置上,“原子氧-聚合物”相互作用的等效条件是被测物质的质量损失相等。验证加速试验程序的依据是:当用能量在30 ~ 80 eV范围内的高能原子氧离子照射kapton-H聚合物时,聚酰亚胺的降解是由材料的化学蚀刻过程决定的。为了验证航天器高分子结构材料抗原子氧流长期作用的加速资源试验程序,得到了卡顿- h聚酰亚胺和特氟龙FEP-100A的质量损失和体积质量损失因子(反应性)与原子氧离子的影响和能量的关系。结果表明,当原子氧离子以30 ~ 80 eV的能量辐照kapton-H聚酰亚胺时,化学腐蚀造成的材料质量损失比动力学溅射造成的质量损失大一个数量级。当能量为5ev的原子氧离子辐照时,资源试验的加速系数和原子氧的影响比能量为5ev的原子氧离子辐照得到的加速系数大两个数量级。
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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