Optical Response of Metakaolin after Ultraviolet and High Energy Electron Exposure

B. T. Cesul, S. Mall, L. Matson
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引用次数: 1

Abstract

Metakaolin, which is part of a class of inorganic polymers called geopolymers, is being tested currently for its use as a lightweight mirror material in spacecraft applications. Metakaolin, as with most geopolymers, has the advantages of low initial coefficient of thermal expansion, easy preparation at room temperature and pressure, and high specific strength. Even though metakaolin has been known as a structural material for millennia, it has not been properly vetted for use as a material in spacecraft applications, especially with respect to exposure to its environments. This research highlights one particular aspect of response to the space environment; that is, how do the optical properties of metakaolin change after subjugation to bombardment by ultraviolet and high energy electron radiation? These two radiation sources are common in low earth orbit and a primary cause of degradation of organic polymers in space. Photospectroscopic analysis showed that ultraviolet in combination with high energy electrons causes changes in the metakaolin which need to be accounted for due to their potential impacts on the thermal management of a spacecraft and during application in composite mirror structures.
偏高岭土在紫外线和高能电子暴露后的光学响应
偏高岭土是一种被称为地聚合物的无机聚合物,目前正在测试其在航天器上作为轻质反射材料的用途。偏高岭土与大多数地聚合物一样,具有初始热膨胀系数低、常温常压下制备方便、比强度高等优点。虽然偏高岭土作为一种结构材料已经有几千年的历史了,但它还没有经过适当的审查,是否可以作为一种材料应用于航天器,特别是在暴露于其环境方面。这项研究突出了对空间环境作出反应的一个特殊方面;即偏高岭土在受到紫外线和高能电子辐射轰击后,其光学性质发生了怎样的变化?这两种辐射源在近地轨道上很常见,也是空间中有机聚合物降解的主要原因。光谱学分析表明,紫外线与高能电子的结合导致偏高岭土的变化,由于它们对航天器的热管理和复合镜结构应用的潜在影响,需要对其进行解释。
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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