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.
江等人利用遗传算法来进行多层复合吸波结构的优化设计工作。
Work by Jiang et al details the use of genetic algorithms for the optimal design of complex multilayer absorber structures.
研究了在雷达吸波结构中应用电路模拟技术改进其在TE极化平面波入射下的反射特性的方法。
How to apply the circuit analog to radar structural absorbers to improve their reflection characteristics under te polarization plane wave incidence is studied.
介绍雷达吸波材料与吸波结构,以及电磁波吸收层的电性能设计方法,并探讨了单层和双层吸收层的设计。
Radar absorbing materials and structures and the electrical design method of the electromagnetic wave absorbing sheets are introduced.
本文从理论计算入手,研究出一种结构独特的多层型吸波材料,得到优良的吸波性能与应用效果。
According to the basic principle of microwave transmission line, a multilayer type absorbing material XFT which has a particular structure and good absorbing properties has been developed.
通过分析EPS水泥的内部结构来研究其微波损耗机理,分析了EPS和炭黑填充率、EPS颗粒直径以及试样厚度对材料吸波性能的影响。
The electromagnetic loss mechanism was analyzed and influences of EPS and CB filling ratios, EPS diameter and sample thickness were also analyzed in the paper.
采用空间回路网法计算得到填充吸波泡沫的碳纤维复合材料格栅结构的电磁散射性能。
The spatial network method is used to calculate the electromagnetic wave scattering characteristic of carbon fiber composite grid structures filled with Absorbing foams.
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.
结构型雷达吸波材料(RAM)是一种兼具吸波与承载功能的材料,一般由吸波剂与基体树脂复合而成。
Structural radar absorbing materials (SRAMs) can not only absorb microwave but also bear loading, which are usually made up of matrix resin and microwave-absorber.
泡沫混凝土耗能层能够明显减小结构的动力响应,可以用来构筑较理想的结构消波吸能型式。
The dynamic response of tunnels can largely be reduced by the foamed concrete backfill layers, which can be used to construct a sort of ideal energy absorption support structure.
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.
文中就结构吸波材料的种类和结构型式设计进行了讨论,并提出结构吸波材料的研究趋势。
Various kinds of structural microwave absorbing materials and structural model designs are presented in this paper.
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.
夹芯结构吸波复合材料因其质轻、强度高,又能较好地吸收电磁波而广泛应用于飞机的机翼、尾翼和机身等部位。
Microwave-absorbing composite sandwich structures have been widely used because of its light weight, high strength as well as perfect property of electromagnetic wave absorption.
阐述了雷达吸波材料工作原理及结构吸波材料、纳米吸波材料和吸波纤维的研究现状,并对其他吸波材料的研究情况作了简要的概述。
In the paper, the mechanism of radar absorbing material (RAM) and the development of structure RAM, nano-RAM and absorbing fibres are depicted, and other species are also summarized.
稀土元素的掺杂可以改变它们的微观结构,从而使其电磁参数有较大变化,有望提高其吸波性能。
Rare earth doping can change their microstructure and electromagnetic parameters so that their microwave absorption capability could be advanced.
文中就结构吸波材料的种类和结构型式设计进行了讨论,并提出结构吸波材料的研究趋势。
Various kinds of structural microwave absorbing materials and structural model designs are presented in this paper. The future research tendency regarding these materials is pointed out.
本文从介绍纳米吸波材料的结构特征和吸波特点出发,说明了纳米吸波材料的独特吸波性能,同时对几种纳米吸波材料进行了介绍。
In this paper, with the beginning of introducing the structure characteristic and wave-absorbing characteristic, the particular capability was explained.
结果表明产物的手征性和形貌是影响聚苯胺低维纳米结构电磁参数和吸波性能的主要因素。
Whether or not the PANI structures belong to the chiral nature, as well as their morphologies, were found to be the key factors to affect such electromagnetic loss and absorbing properties.
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...
研究了单一结构和复合结构吸波材料电磁特性的计算方法。
The method of calculating effective permittivity and permeability of single and complex structure absorbent materials were given.
通过理论设计及CAD辅助计算得到了一种“陷阱”式的宽频带层板型结构吸波材料和一种宽频带蜂窝夹层型结构吸波材料。
By theoretical design and CAD, a kind of wide frequency-width Radar Absorbent Structure Plate named "trap" and a kind of wide frequency-width Radar Absorbent Honeycomb Sandwich Material are obtained.
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.
通过对比发现,磁性吸波材料研究的主要趋势为尺度纳米化、结构复合化以及形貌纤维化。
By comparison, the main trends of magnetic microwave absorbents were forward to nano-scale, composite structure and fibrous morphology.
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。
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.
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