展望了雷达隐身材料的发展趋势。
论述了纳米隐身材料的一些特殊性质;
The special properties of stealthy nano-materials are described.
利用该特性制得了碳团簇型微波隐身材料。
According to this traits, we made carbon cluster-like microwave stealth material.
本文探讨了红外隐身材料的比辐射率及其微波兼容性。
This article deals with the compatibility of both radiant emittance and microwave of infrared materials.
在此基础上建立了涂层隐身材料的辐射计天线温度模型。
Then the radiometer antenna temperature of coating stealth material was modeled.
已被人们公认为21世纪最具发展潜力的新型隐身材料。
Nanoscale materials have been regard as the most potential camouflage materials in 21st century.
雷达与红外兼容隐身材料在军事领域具有广阔的应用前景。
Rradar absorbing materials with infrared camouflage will have broad application prospect in many military fields.
对纳米隐身材料进行了较为详细的描述,简述了其吸收机理。
Nano stealth materials is described in detail, and its absorbing mechanism is also mentioned.
该文论述了纳米吸波材料的一些特殊性质,并介绍国内外纳米隐身材料的研究概况。
Also, the general situation of stealthy nano-materials research in home and abroad were introduced.
本文介绍了纳米隐身材料的作用机理和制备方法,以及国内外纳米隐身材料的研究进展。
The mechanism and manufacturing methods of stealth nano-materials are explained in this paper, and the development of stealth nano-materials at home and abroad is introduced.
分别对大气、空间目标材料金属涂层及隐身材料的布里渊散射特性进行了计算和对比分析。
The properties of Brillouin scattering of atmosphere, metal coat of spatial object and concealed material are calculated, analyzed and compared.
简要分析了纳米复合材料的技术特征,叙述了纳米复合材料在隐身技术中的应用和国外纳米隐身材料的研究进展情况。
The technology characters of nano-particle composites are analyzed in brief, the application of nanostructure composites in the stealth technology and its developments status abroad are presented.
分析了激光隐身性能的一系列影响因素,探讨了一些材料作为激光隐身功能元的可能性,及其在多功能隐身材料方面的发展趋势。
The second, it expounded their laser stealth principle and the status of application. The third, it analyzed a series of influencing factor on laser stealth …
碳团簇型微波隐身材料,是我所从理论上根据对分子振转频率与结构之间的关系,通过计算而设计与研制的一种新型微波隐身材料。
Carbon cluster-like radar absorbing material is a new material designed and developed based on the relationship between structure and vibration-rotation motion levels of planar cyclocarbon cluster.
通过微波隐身材料结构设计,采用密度较小的碳团簇型原料,制备得到了具有良好吸波性能的双层结构碳团簇型微波隐身涂层材料。
The bi layer structural carbon cluster like microwave stealthy material coating was designed and prepared by making use of low density carbon cluster like material.
通过微波隐身材料结构设计,采用密度较小的碳团簇型原料,制备得到了具有良好吸波性能的双层结构碳团簇型微波隐身涂层材料。
Based on the structure design of microwave stealth material, the absorbing properties of bi-layer carbon cluster-like microwave stealthy materials with different thickness have been studied.
通过微波隐身材料结构设计,采用密度较小的碳团簇型原料,制备得到了具有良好吸波性能的双层结构碳团簇型微波隐身涂层材料。
Based on the structure design of microwave stealth material, the absorbing properties of bi-layer carbon cluster-like microwave stealthy materials with different thickness have been studied.
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