共查询到19条相似文献,搜索用时 62 毫秒
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碳纤维结构吸波材料及其吸波碳纤维的制备 总被引:19,自引:0,他引:19
碳纤维结构吸波材料是一类多功能复合材料,具有承载和减小雷达反射截面的双重功能,是一种非常有发展前途的吸波材料。碳纤维结构吸波材料以其优异的力学性能和隐身特性已大量应用于隐身技术。本文讨论了碳纤维结构吸波的应用,碳纤维结构吸波材料的类型及其结构型式设计,探讨了吸波波对碳纤维进行掺杂改性,制备出吸波性能优良的碳纤维、改变碳纤维的截面形状和大小,对碳纤维进行表面改性以及对碳纤维进行掺杂改性,制备出吸波性 相似文献
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炭黑-矿棉基双层吸波材料的微波吸收性能 总被引:1,自引:0,他引:1
单层结构吸波材料只在较窄的频率范围内具有较好的吸波性能,采用多层结构可以有效改善吸波性能。根据阻抗匹配原理以及电磁波传输规律,设计制备了具有阻抗渐变特性的双层结构吸波矿棉板,并采用弓形反射法测试了在2~18 GHz范围的吸波性能。结果表明:阻抗匹配设计是吸波材料设计中的重要环节;双层结构吸波矿棉板的吸波性能随匹配层中炭黑含量的增加而降低,随吸收层中炭黑含量的增加而增强;当匹配层中炭黑含量为1%,吸收层炭黑含量为5%时,样品的反射率在2~18GHz范围内全部小于-10dB;当匹配层中炭黑含量为1%,吸收层炭黑含量为4%时,最小反射率可以达到-41.5dB。该吸波矿棉板具有一定的工程应用价值。 相似文献
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Sukanta Das S. K. Sahu P. C. Routray A. K. Roy H. Baskey 《Polymer-Plastics Technology and Engineering》2015,54(14):1483-1493
A novel core–shell-structured nanocomposite material based on titanium dioxide-coated magnetite and Ni-ferrite has been prepared for RADAR absorbing application in a X-band region. The coating of magnetic particles with TiO2 was carried out by in situ hydrolysis of titanium tetrabutoxide, and the composite absorber sheets were prepared with epoxy resin. The morphological characterization of the magnetic particles was studied with field emission scanning electron microscope, transmission electron microscope, X-ray diffraction, and vibrating sample magnetometer analysis techniques. The measurement results confirmed the coating of magnetic particles with TiO2 and reduction of the magnetization of magnetite and Ni-ferrite nanoparticles compared with the uncoated ferrite nanoparticles. Distribution of particle inside the matrix was studied with scanning electron microscope. Microwave absorption study in X-band (8–12 GHz) region was carried out with vector network analyzer. Results showed reflection loss values of ?26.5 db at 9.08 GHz for the magnetite coated with titanium dioxide/conducting carbon black containing sample which increased to ?45.7 db at 9.13 GHz for the Ni-ferrite coated with TiO2/conducting carbon black formulation. It was observed that coating of magnetic particles resulted in the improvement in the microwave absorption. 相似文献
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