·测试分析：
卫星热控涂层地面模拟试验与在轨验证比对分析
刘刚王简2王惠芬
（1上海卫星装备研究所，上海空间环境模拟与验证工程技术研究中心，上海200240）
（(2华北电力大学，北京102206）
文摘卫星在轨运行期间，热控涂层要经受空间复杂环境效应的影响，其光学和热控性能逐渐下降，影响卫星可靠性和寿命。本文利用卫星搭载技术，完成热控涂层5年的在轨试验，验证空间多因素环境对热控涂层的影响。同时，利用地面模拟试验装置，模拟空间质子、电子、紫外等5年的辐照剂量对热控涂层的作用。对在轨试验结果进行解读和分析，并与地面模拟试验结果进行比对。结果显示，在搭载试验和地面试验前，热控涂层太阳吸收比（α,）为0.12，经5年在轨搭载试验后，α,退化为0.23。经地面模拟试验后，α,退化为0.22。搭载试验和地面试验的热控涂层性能均呈现线性退化规律，表明在确定的轨道环境和固定的剂量率条件下，热控涂层的退化与环境作用时间正相关，同时验证了地面试验的有效性。
关键词热控涂层，空间环境，搭载验证，性能演化规律
中图分类号：TQ63
D0I:10.12044/j.issn.10072330.2017.03.015
Comparative Analysis of Ground SimulationTestResultsand In-OrbitTest Resultsof SatelliteThermalControlCoatingUnderSpaceEnvironment
LIU Gang
WANG Jian?
WANGHuifen
(1Shanghai Institute of Satellite Equipment,Shanghai Engineering Research Center of Space
Environment Simulation and Verification, Shanghai 200240)(2 North China Electric Power University,Beijing 102206)
Abstract During in-orbit operation, the optical and thermal control performances of satellite thermal control coating will degrade due to integrated space environment effects and hence has a great impact on reliability and life time of satellites.In this paper, an in-orbit experiment of thermal control coatings is carried out for 5 years to investi-gate the influence of multi-factors environment. And the sensitive factor of coating performance is achieved and then the in-orbit property evolution law and life prediction model are built.Meanwhile, a ground simulation experiment with proton, electron and ultraviolet irradiation factors is carried out to study the influence of those factors on thermal con-trol coatings.The results demonstrate that the absorptance of thermal coatings increase from 0.12 to 0.23 after 5years in-orbit operation while this value increases to O.22 after the ground simulation test with the equivalent radiation dose The thermal control performance degradation and test time or irradiation dose are linear related and positive correlated both in orbit and on ground, which has also verified the effectiveness of ground test.
Key wordsThermal control coatings,Space environment,In-orbit experiment,Performance evolution law
0引言
作为卫星热控系统的重要组成部分，热控涂层在收稿日期：2016-10-27：修回日期：2017-04-06
空间复杂环境条件下的稳定性是卫星在轨运行安全的保证。随着卫星寿命的延长对热控涂层性能的要
第一作者简介：刘刚，1978年出生，博士研究生，主要从事航天器材料的空间环境效应研究。E=mail：elest@126.com
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万方数据
宇航材料工艺
http://www.yhclgy.com
2017年第3期