吸波材料本质上是一种能量转换材料。
Nature of the electromagnetic wave (EMW) absorbing materials is the energy conversion.
本文阐述了电路模拟吸波材料的原理。
The principles of the circuit analogy absorber were explained.
综述了高温吸波材料的研究及应用概况。
Development and applications of high temperature radar absorbing materials are also summarized.
研制吸波材料,必须进行介质参量的测量。
To research into and prepare absorbing materials, medium parameters must be measured.
提出了一种设计多层雷达吸波材料的方法。
In this paper, we present a method for designing multilayer-radar-absorbing material.
该测量方法特别适用于表面波吸波材料的研究。
This method is useful to surface wave absorbing material study.
吸波材料的理论设计是吸波材料研究的重要环节。
Theoretical design is an important part of the research in microwave absorbing materials.
雷达吸波材料是现代武器隐身技术的关键因素之一。
The radar absorption materials (RAM) are the key of stealth technique for modern weapons.
阳光通过收集器玻璃、塑料、金属或橡胶等吸波材料。
Sunlight through the collector glass, plastic, metal or rubber and other absorbing materials.
材料的等效电磁参数是计算设计吸波材料的重要数据。
The effective electromagnetic parameters are the imperative data to compute design absorbing materials.
另外,国产的吸波材料也将使其雷达反射截面得以降低。
The RCS will be reduced with Chinese-made signature-reduction paint.
就吸波材料与电磁波的相互作用及其损耗机理进行了阐述。
The basic absorption mechanism of the microwave - absorbing material was studied, and its interaction on the electromagnetic wave was also studied.
雷达吸波材料和吸波结构的使用是飞机隐身的一个重要措施。
The use of radar-absorbing material (RAM) and radar-absorbing structure (RAS) is an important measure for stealth aircraft.
本文综述了吸波材料的研究现状,提出了吸波材料的发展趋势。
This paper reviews the status of radar absorbing materials, and pointed out the direction of research in the future.
对电路模拟吸波材料优于普通雷达吸波材料的原因进行了说明。
And the reasons of the properties of the circuit analogy absorber exceeding the ordinary radar absorbing materials were expatiated.
由于多层吸波材料设计的复杂性,有必要设计专用的CAD工具。
Because of the complexity of designing for Multilayered microwave absorber, it requires special CAD tools.
共轭聚席夫碱因导电且电导率可调而具有制备吸波材料的潜在可能性。
Conjugated Schiff bases have a potential possibility in producing microwave absorbing materials because of its adjustable electrical conductivity.
这种纤维与环氧树脂复合制备的结构吸波材料具有良好的雷达吸波性能。
The structural radar absorbing materials composed of the fibers and epoxy resin have good radar absorbing properties.
这种纤维与环氧树脂复合制成的结构吸波材料对雷达波具有良好的吸收。
The radar absorbing structural materials composed of the SiC composite fibers and epoxy resin has good radar absorbing properties.
硫化时间、硫化剂含量以及硫化温度等因素影响着吸波材料的力学性能。
Mechanical characteristics are affected by some factors, for example, contents of sulfuration reagent and sulfuration time and temperature.
铁氧体是目前应用最广泛的一类吸波材料,具有典型的电磁波磁损耗机理。
Ferrite, a typical kind of magnetic absorbing materials, is one of the most important EMW absorbing materials.
雷达吸波材料的吸波性能通常以吸波材料对电磁波的功率反射系数来表示。
The absorbing property of radar absorbing material is usually expressed by the power reflection coefficient of the absorbing material toward the electromagnetic wave.
因此,研究水泥基复合吸波材料在军事和民用方面都具有非常重要的意义。
Therefore it would have great significant to study the cement-based absorbing composites materials both in military and civil utilization.
推导出了光滑凸体金属表面涂敷吸波材料时的后向雷达散射截面(RCS)公式。
A formulation of radar cross section (RCS) for smooth convex metal objects coated with radar absorbing material (RAM) is derived.
依据阻抗匹配原理与电磁波传播规律,设计了具有阻抗渐变结构的双层吸波材料。
According to the resistance matching principle and electromagnetic spreading regulation, double-layer absorbing materials with resistance gradual changing structure were designed.
它有着怪异的夹角(令人回忆起隐形轰炸机),以减小雷达横截面,并且涂抹了雷达吸波材料。
It has odd angles (reminiscent of a stealth bomber) to reduce its radar cross-section, and was coated in radar-absorbing material.
从电磁场理论出发,推导出了电磁波以任意角入射时雷达吸波材料的反射系数公式。
The formulae of reflecting coefficient are derived from the theory of electromagnetic field for arbitrary incident electromagnetic wave to radar absorbing material.
同时本文还结合广义匹配规律,推导出多层干涉型吸波材料的厚度公式和功率反射率公式。
Using the General Matching Law, the formulas of thickness and power reflectivity of multi-layer interference absorbing materials are developed.
同时本文还结合广义匹配规律,推导出多层干涉型吸波材料的厚度公式和功率反射率公式。
Using the General Matching Law, the formulas of thickness and power reflectivity of multi-layer interference absorbing materials are developed.
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