吸波材料

综述了吸波材料（RAM）中常用损耗介质/吸收剂的种类、性能特点和吸收机理。

The classification , absorbing properties and mechanism of some loss substances in RAM are reviewed .

对一系列涂敷吸波材料的金属平板进行了RCS测试和理论计算。

RCS has been measured and calculated for a series of metal planes coated with RAM .

SiC包覆过渡金属纳米吸波材料的制备与研究

The Preparation and Research of SiC Coated Transition Metal Nano Absorbing Materials

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 .

利用箔条和Fe团簇吸波材料互补性对抗厘米波雷达

Counter-Centimeter Wave Radar Based on Mutual Offset of Fe Cluster Absorbing Material and Foil Cloud

导电PAN织物结构吸波材料的制备

Making radar wave absorbing structure with conductive pan fabric composites

SiC（N）/Si3N4吸波材料的制备与性能

Preparation and Properties of SiC ( N ) / Si_3N_4 Radar Wave-Absorbing Nanocomposites

雷达波吸波材料（RAM）在军事及民用领域具有广泛的应用前景。

Radar absorbing materials have been widely used in military and industry .

高性能中空截头角锥复合型EMC吸波材料设计

High Performance Open-top Hollow Pyramidal Hybrid EM Wave Absorber Design

涂覆雷达吸波材料复杂目标RCS可视化计算

The Visual RCS Computing of Complex Targets Covered with Radar Absorbing Material

金属平板涂敷吸波材料的RCS计算研究

Research on RCS Calculation of Metal Plate Coated with RAM

Fe3O4/锶铁氧体复合吸波材料的制备与性能

Preparation and Properties of Fe_3O_4-Strontium Ferrite Composite Microwave Absorbing Materials

研究结果表明：随铁纳米线体积分数的提高，随机分布的Fe纳米线/绝缘体复合吸波材料的电磁参数也随之增大；

The results show that the electromagnetic parameters of the absorbing materials increase with increase of the iron nanowires volume fraction .

吸波材料SiC对微波辐照下甲烷部分氧化制合成气的影响

The effects of microwave absorption material SiC on the results of partial oxidation of methane to syngas under microwave irradiation

通过仿真，从其RCS的性状观察了这种吸波材料对入射波的吸收情况。

By simulating , observes the absorbing ability of this structure from its RCS characteristics .

研制了一种由羰基铁粉和导电聚苯胺（PAn）复合而成的新型宽频带雷达吸波材料。

A new type of broadband radar absorbing material ( RAM ) was synthesized with carbonyl iron and conduction polyaniline ( PAn ) .

金属目标表面涂覆吸波材料可以有效地抑制雷达散射截面（RCS）。

Radar Cross Section ( RCS ) is efficiently controlled by coating material ( RAM ) for metal objects .

基于AMC结构的超薄吸波材料及其在微带天线RCS减缩中的应用

Ultra-thin Absorber Based on the AMC Structure and its Application on the RCS Reduction of Microstrip Antenna

雷达吸波材料（RAM）技术是隐身技术中的重要技术之一，并且在隐身武器，尤其是隐身飞行器系统设计中得到广泛应用。

Technology of radar absorbing materials ( RAM ) is one of the important stealth technologies , and widely applied in stealth weapons , especially stealth aircraft systems .

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 .

研究表明：优化计算结果与实测结果之间存在着一定差异，其中，εr、μr的频散效应和测量精确度对吸波材料电性能优化计算结果有明显影响。

The investigation shows that there is a certain difference between the calculated results and the measured results , among them , the dispersion effect and measuring accuracy influences significantly optimizing calculated results of electric properties .

复合介电吸波材料的规律性研究采用类似粉末冶金工艺合成了以PTFE为基复合精细陶瓷的微波性能优异的介质材料。

In present work , the PTFE based composite dielectric materials with fine ceramic powder have been prepared by using the technology similar to the powder metallurgy .

本文提出一种以聚丙烯阻燃空心板为锥体外壳，中间填充聚苯乙烯泡沫塑料（EPS）颗粒为载体的吸波材料。

An electromagnetic wave absorbing materials with fire retardant polypropylene hollow plates as its shell in which filled with carbon coated EPS is studied in the paper .

通过实验验证了一种金属平板涂敷吸波材料（RAM）的RCS计算方法。

A method is verified by examination , which calculates the RCS ( Radar Cross Section ) of metal plate coated with RAM ( Radar Absorption Material ) .

对频率选择表面（FSS）在复合吸波材料设计中的应用进行了研究。

Study on the application of frequency selective surface ( FSS ) to the design of composite microwave absorbers was presented .

设计了圆环单元频率选择表面（FSS），利用谱域法对包含有圆环单元FSS的吸波材料进行了仿真研究。

We design circular unit of FSS , and give a simulation research on the circular unit of FSS with the spectral domain approach .

论文对涂敷吸波材料和采用S弯对腔体RCS的影响采用IPO计算程序进行了分析计算，并分析了将两种技术结合的腔体RCS控制技术。

The effects of the absorber materials and S-shaping on the RCS of the cavities are studied by using the IPO program . The combination of both methods in RCS control is analyzed .

用磁控溅射方法制备了Fe/Si3N4复合多层膜，利用SEM分析了其微观形貌，测试了其电磁参数，然后与传统吸波材料羰基铁粉比较了低频下的电磁参数。

In this paper , Fe / Si_3N_4 multilayers are deposited by the magnetron sputtering method and characterized by the SEM technique . The electromagnetism parameters are performed and compared with that of traditional carbonyl iron dust under low frequency .

本文采用混合方法[1]对半球涂覆吸波材料的完纯导电球体目标的RCS特性进行了数值分析及计算。

In this paper , the RCS of perfectly Conducting sperical targets will partially coated absorbing material on the surface has been analysed and evaluated numerically , using the Hybrid Method [ 1 ] .

对2mm厚的单层吸波材料在3GHz达到最佳吸收效果所需的电磁参数进行了理论计算，并结合现有吸波材料的参数特点对计算结果进行了分析。

The theoretical analyses were made to determine the electro-magnetic parameters of a 2 mm-thickness layer required for optimum absorbing effectiveness at 3 GHz .