1) Thermal IR stealth coating
热红外隐身涂料
2) infrared camouflage coating
红外隐身涂料
1.
The research present situation and development of the infrared camouflage coatings are reviewed.
简单介绍了红外隐身涂料的主要组成,综述了红外隐身涂料的研究及发展现状,提出了红外隐身涂料的发展方向。
3) thermal infrared stealth
热红外隐身
1.
The microencapsulated phase change material and its application in thermal infrared stealth were reviewed in this paper and the prospect was predicted.
综述了微胶囊相变材料及其在热红外隐身上的应用,展望了其在热红外隐身上的应用前景。
4) thermal infrared stealthy
热红外隐身
1.
With the development of stealth and anti-stealth, traditional thermal infrared stealthy coatings based on emissivity can not already to confront dual-band thermal imaging.
随着隐身与反隐身技术的发展,以控制发射率为根本的传统热红外隐身涂层已不能对抗双波段热红外成像系统的侦查,红外融合才是符合当今军事要求的最佳解决方案。
5) infrared stealth coatings
红外隐身涂层
1.
According to the coating life time estimate method by Arrhenius formula, the evaluation criteria of the infrared stealth coatings degradation was built in the point of emissivity by testing the emissivity change of EPDM/Cu based infrared stealth coatings under different temperature by using IR-2 infrared emissometer.
从发射率变化的角度建立了红外隐身涂层失效的评价标准。
6) infrared stealthy materials
红外隐身材料
1.
The research current status of radar stealthy materials, infrared stealthy materials, multi spectral stealthy materials and stealthy concretes are reviewed.
讨论了隐身材料的隐身机理,论述了雷达隐身材料、红外隐身材料、多频谱兼容的多功能隐身材料及隐身混凝土的研究状况,并提出了这几种隐身材料的发展趋势。
2.
Development of infrared stealthy materials overseas is summarized here.
综述了国内外红外隐身材料的发展历程。
3.
In this essay, formation way of the Schiff base is introduced,the research and development are recommended in microwave absorbing materials and infrared stealthy materials, and some ideas have been given to improve their properties.
本文主要介绍了席夫碱的合成和性能及其在吸波材料和红外隐身材料中的研究现状与发展前景。
补充资料:红外线辐射涂料
分子式:
CAS号:
性质: 在受热状态下能发射红外线以提供热源的涂料。由黏结剂如水玻璃、硅溶胶、有机硅酸盐、磷酸盐等无机材料等和能发射红外线的填料(如碳化硅、碳化硼、氧化铁、氧化铬等)组成。制造、涂覆工艺简单,既可涂覆在金属上,也可涂覆在非金属材料像陶瓷上;品种较多,可满足各种加热的应用要求,价格低廉。
CAS号:
性质: 在受热状态下能发射红外线以提供热源的涂料。由黏结剂如水玻璃、硅溶胶、有机硅酸盐、磷酸盐等无机材料等和能发射红外线的填料(如碳化硅、碳化硼、氧化铁、氧化铬等)组成。制造、涂覆工艺简单,既可涂覆在金属上,也可涂覆在非金属材料像陶瓷上;品种较多,可满足各种加热的应用要求,价格低廉。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条