氮化处理三元纳米纤维以实现出色的电磁波吸收性能

IF 12.7 1区 材料科学 Q1 ENGINEERING, MULTIDISCIPLINARY
Xiangwei Meng , Shuting Zhang , Meijie Yu , Chengguo Wang
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引用次数: 0

摘要

过渡金属氮化物具有高导电性和出色的化学稳定性,因此在电磁波吸收领域受到广泛关注。为此,我们采用电纺丝、碳化和氮化工艺,成功制备出了Fe4N/二氧化锆/碳纳米纤维复合吸波材料。经过氮化处理后,具有优异电磁特性的 Fe4N 的紧急加入、更多缺陷和官能团的引入以及各组分之间的协同效应将显著强化多种损耗机制、优化阻抗匹配并改善吸波特性。最终,三元纤维纳米复合材料在 12.5 GHz 频率下实现了-63.7 dB 的最小反射损耗,相应的匹配厚度为 2.2 mm,超宽带宽可达 7.0 GHz。因此,这项工作证实了 Fe4N 在微波吸收实际应用中的巨大潜力,并为开发新一代基于金属氮化物的吸波材料提供了启示。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The nitriding treatment of ternary nanofibers toward outstanding electromagnetic wave absorption performance

The nitriding treatment of ternary nanofibers toward outstanding electromagnetic wave absorption performance
Beneficial from the high electrical conductivity and remarkable chemical stability, transition metal nitrides have attracted widespread attention in the employment of electromagnetic wave absorption. Toward this end, Fe4N/zirconium dioxide/carbon nanofibers composited absorber was triumphantly prepared by the combination of electrospinning, carbonization, and subsequent nitridation. After undergoing the nitriding treatment, the emergency of Fe4N with superior electromagnetic properties, the introduction of more defects and functional groups, and the synergistic effect between each component would dramatically intensify multiple loss mechanisms, optimize the impedance matching, and improve the wave absorbing properties. Ultimately, the ternary fibrous nanocomposite realized the minimum reflection loss of −63.7 dB at 12.5 GHz with corresponding matching thickness of 2.2 mm, and an ultrabroad bandwidth up to 7.0 GHz. Therefore, this work substantiated the promising potential of Fe4N in the practical application of microwave absorption, and shed light on the exploitation of a new generation metal nitrides-based wave absorbents.
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来源期刊
Composites Part B: Engineering
Composites Part B: Engineering 工程技术-材料科学:复合
CiteScore
24.40
自引率
11.50%
发文量
784
审稿时长
21 days
期刊介绍: Composites Part B: Engineering is a journal that publishes impactful research of high quality on composite materials. This research is supported by fundamental mechanics and materials science and engineering approaches. The targeted research can cover a wide range of length scales, ranging from nano to micro and meso, and even to the full product and structure level. The journal specifically focuses on engineering applications that involve high performance composites. These applications can range from low volume and high cost to high volume and low cost composite development. The main goal of the journal is to provide a platform for the prompt publication of original and high quality research. The emphasis is on design, development, modeling, validation, and manufacturing of engineering details and concepts. The journal welcomes both basic research papers and proposals for review articles. Authors are encouraged to address challenges across various application areas. These areas include, but are not limited to, aerospace, automotive, and other surface transportation. The journal also covers energy-related applications, with a focus on renewable energy. Other application areas include infrastructure, off-shore and maritime projects, health care technology, and recreational products.
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