radar stealth technology 雷达隐身技术
Survey of radar stealth technology 雷达隐身技术概述
anti-radar stealth 反雷达隐身
radar stealth material 雷达隐身材料
radar stealth materials 雷达隐身材料
radar stealth composites 雷达隐身复合材料
Stealth Radar Shield 电磁波辐射防护片 ; 雷达波辐射防护片
Radar beam stealth 雷达波束隐身
stealth radar 隐身雷达
Theory prediction includes study on electromagnetic computing methods and electromagnetic scattering computation of radar stealth targets.
理论预估包括电磁散射计算方法研究和雷达隐身目标电磁散射计算两部分内容。
参考来源 - 雷达隐身目标电磁散射计算与实验研究The essence of radar stealth technology is to reduce the radar cross section (RCS) of the object as far as possible. Therefore, precision calculation and prediction of RCS is the extremely important content of aircraft stealth design.
雷达隐身技术的本质是尽可能降低目标的雷达散射截面(RCS),从而减小被雷达探测到的机会。
参考来源 - 结构吸波材料的隐身性能研究·2,447,543篇论文数据,部分数据来源于NoteExpress
The plasma has great potential for radar stealth of military objects.
在目标的雷达隐身方面,等离子体具有巨大的应用潜力。
Radar scattering section is very important concept in the field of radar stealth and radar anti-stealth.
雷达散射截面是反雷达隐身与雷达反隐身领域中的一个极其重要的概念。
The necessity for passive MMW stealth at the same time of radar stealth research, that is MMW radiation characteristics control, was pointed out.
指出在进行雷达隐身的同时,必须进行针对被动探测的毫米波被动隐身技术研究,即毫米波辐射特性的控制。
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