采用聚碳硅烷前驱体转化法制备了SiC/CNTs纳米复合材料, 采用扫描电子显微镜、透射电子显微镜、高分辨电子显微镜对样品进行了微观结构分析, 并测试了材料在2~18GHz频率范围内的电磁参数. 结果表明, 当初始聚碳硅烷/二甲苯溶液浓度为10%~15%时, 聚碳硅烷前驱体转化法在CNTs表面可以制备SiC包覆层均匀致密的复合一维纳米材料. SiC包覆CNTs一维纳米材料的电磁参数测试表明, 其损耗机制以介电损耗为主, 当聚碳硅烷含量为15%时, SiC/CNTs纳米复合材料具有最高的介电常数和损耗角, 较好的电磁波吸收特性, 并表现出复合效应.
SiC coated CNTs nano-composites were prepared by the conversion of the precursor polycarbosilane (PCS) and their microstructures were observed and analyzed by SEM, TEM and HRTEM. The electromagnetic parameters of the nano-composites were measured under the frequency from 2 to 18GHZ. Results
showed that uniform and compact SiC coatings on the surfaces of CNTs could be synthesized in the initial PCS/xylene concentration section of 10%~15%. The measurement of the electromagnetic parameters of SiC coated CNTs one-dimensional nano-composites indicated that the main electromagnetic loss mechanism was dielectric loss. When the initial PCS concentration was 15%, the SiC coated CNTs nano-composites had the highest dielectric coefficient and loss angle and the best electromagnetic wave absorption properties as well as the composite effects.
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