红外增透膜实验室加速模拟自然环境试验方法研究
Test Method for Accelerated Simulation of Natural Environment of Infrared Anti-reflection Membrane in Laboratory
王冲文 1彭廷海 2刘剑 1赵远荣 1董力 3张友良 3严庭瑜 4王世锦 4肖建军 1李叶涵 1杨品杰1
作者信息
- 1. 云南北方光电仪器有限公司,昆明 650114;云南西双版纳大气环境材料腐蚀国家野外科学观测研究站,昆明 650114
- 2. 云南北方光电仪器有限公司,昆明 650114
- 3. 云南北方光学科技有限公司,昆明 650217
- 4. 陆军装备部驻重庆地区军事代表局驻昆明地区第一军事代表室,昆明 650032
- 折叠
摘要
目的 针对锗镀红外增透膜材料提出一种模拟其热带海洋环境自然暴露试验的实验室加速试验方法.方法 根据锗镀红外增透膜在热带海洋环境的自然暴露试验结果,从环境因素、损伤模式、腐蚀机理等方面进行分析,设计一种模拟热带海洋环境的实验室加速试验方法,并开展实验室验证试验,对实验室加速试验的模拟性和加速性与自然环境暴露试验进行对比分析研究.结果 所设计的实验室加速试验方法在环境条件、损伤模式、作用机理等方面均与自然暴露试验一致,具有较好的模拟性和加速性.结论 本文设计的试验方法能有效加速模拟锗镀红外增透膜材料的热带海洋环境暴露试验结果,对提高锗镀红外增透膜在热带海洋环境中的可靠性研究具有一定参考和应用价值.
Abstract
The work aims to propose an accelerated laboratory test method for germanium plated infrared anti-reflection membrane material to simulate its natural exposure test in tropical marine environment.According to the natural exposure test results of germanium plated infrared anti-reflection membrane in tropical marine environment,an accelerated laboratory test method was designed to simulate tropical marine environment from the aspects of environmental factors,damage mode and corrosion mechanism,and laboratory verification test was carried out to compare the simulation and acceleration of laboratory accelerated test and natural environmental exposure test.The laboratory accelerated test was consistent with the natural exposure test in environmental conditions,damage mode and action mechanism,with good simulation and acceleration performance.The test method designed can effectively accelerate the simulation of the exposure test results of germanium plated infrared anti-reflection membrane material in tropical marine environment,and has certain reference and application value for improving the reliability of germanium plated infrared anti-reflection membrane in tropical marine environment.
关键词
锗/红外/增透膜/热带海洋/模拟加速试验/相关性Key words
germanium/infrared/anti-reflection membrane/tropical marine/simulated accelerated test/correlation引用本文复制引用
基金项目
国防科技工业技术基础科研项目(JSHS2020208C001)
出版年
2024
NETL
NSTL
万方数据