The optimum thickness of ceramics samples for electromagnetic wave absorption was calculated.
对先驱体陶瓷样品的吸收厚度进行了优化计算。
The electromagnetic wave absorption of FRP structure panel is a important property in scanner technology and hiding technology.
玻璃钢夹层结构板对电磁波的吸收在天线罩技术和隐身技术中都是一项重要性能。
Strong absorption properties of the composites indicate its potentially application as electromagnetic wave absorption material.
复合材料的强吸收特性预示了其作为电磁波吸收材料的潜在应用前景。
Resultant Ni flakes might have potentials in the fields of catalysis, magnetic storage, shielding of electromagnetic interference and electromagnetic wave absorption.
得到的片状镍粉在催化、磁存储材料以及电磁屏蔽和电磁波吸收等领域具有潜在的应用价值。
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.
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。
The prospect in developing the new generation of electromagnetic wave absorption textiles by nano-technology was also predicted, and finally the approach in developing electromagne…
文章对利用新型材料和纳米技术开发吸波型纺织品的前景进行了展望,并提出了利用复合技术开发吸波纺织品的途径。
In forward modeling, the scatter and absorption of electromagnetic wave in medium are considered, which brings realer synthetic section.
在正演过程中,考虑了电磁波在介质中的散射和吸收,使合成剖面更真实化。
Based on the stealthy mechanism of wave-absorbed materials, the character of electromagnetic wave-absorption has been discussed in this paper at first.
本文首先从吸波材料的隐身机理出发阐述了碳纳米管的电磁波吸收特性。
Nonlinear absorption and attenuation of electromagnetic plane wave in plasma are investigated.
研究平面电磁波在等离子体中的非线性吸收衰减。
The basic absorption mechanism of the microwave - absorbing material was studied, and its interaction on the electromagnetic wave was also studied.
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。
In this paper, the effects of critical electron density of plasma and the plasma frequency of electron on the refraction, absorption and reflection of the electromagnetic wave are studied.
着重研究了等离子体临界电子密度、电子等离子体频率等参数对电磁波的折射、吸收、反射的影响。
The important parameters for the wave absorption effects are electromagnetic loss factor, complex dielectric constant, complex magnetic conductivity.
评价吸波效能的主要参数是损耗因子、复介电常数、复磁导率。
The important parameters for the wave absorption effects are electromagnetic loss factor, complex dielectric constant, complex magnetic conductivity.
评价吸波效能的主要参数是损耗因子、复介电常数、复磁导率。
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