Microwave absorption and thermal properties of coral-like SiC aerogel composites prepared by water glass as a silicon source

IF 5.6 2区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY International Journal of Minerals, Metallurgy, and Materials Pub Date : 2023-05-13 DOI:10.1007/s12613-023-2605-x
Xinyuan Zhang, Chenkang Xia, Weihai Liu, Mingyuan Hao, Yang Miao, Feng Gao
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引用次数: 1

Abstract

As a heat-resistant wave-absorbing material, silicon carbide (SiC) aerogel has become a research hotspot at present. However, the most common silicon sources are organosilanes, which are costly and toxic. In this work, SiC aerogels were successfully prepared by using water glass as the silicon source. Specifically, the microstructure and chemical composition of SiC aerogels were controlled by adjusting the Si to C molar ratio during the sol–gel process, and the effect on SiC aerogel microwave absorption properties was investigated. The SiC aerogels prepared with Si:C molar ratio of 1:1 have an effective electromagnetic wave absorption capacity, with a minimum reflection loss value of −46.30 dB at 12.88 GHz and an effective frequency bandwidth of 4.02 GHz. They also have good physical properties, such as the density of 0.0444 g/cm3, the thermal conductivity of 0.0621 W/(m·K), and the specific surface area of 1099 m2/g. These lightweight composites with microwave-absorbing properties and low thermal conductivity can be used as thermal protection materials for space shuttles and reusable carriers.

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以水玻璃为硅源制备的珊瑚状碳化硅气凝胶复合材料的微波吸收和热性能
碳化硅(SiC)气凝胶作为一种耐热吸波材料,已成为目前的研究热点。然而,最常见的硅源是有机硅烷,这是昂贵的和有毒的。本文以水玻璃为硅源,成功制备了碳化硅气凝胶。具体而言,在溶胶-凝胶过程中通过调节硅碳摩尔比来控制SiC气凝胶的微观结构和化学成分,并研究了其对SiC气凝胶微波吸收性能的影响。Si:C摩尔比为1:1制备的SiC气凝胶具有有效的电磁波吸收能力,在12.88 GHz处反射损耗最小值为−46.30 dB,有效频率带宽为4.02 GHz。具有良好的物理性能,如密度为0.0444 g/cm3,导热系数为0.0621 W/(m·K),比表面积为1099 m2/g。这些轻质复合材料具有吸波性能和低导热性,可作为航天飞机和可重复使用载体的热防护材料。
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来源期刊
CiteScore
9.30
自引率
16.70%
发文量
205
审稿时长
2 months
期刊介绍: International Journal of Minerals, Metallurgy and Materials (Formerly known as Journal of University of Science and Technology Beijing, Mineral, Metallurgy, Material) provides an international medium for the publication of theoretical and experimental studies related to the fields of Minerals, Metallurgy and Materials. Papers dealing with minerals processing, mining, mine safety, environmental pollution and protection of mines, process metallurgy, metallurgical physical chemistry, structure and physical properties of materials, corrosion and resistance of materials, are viewed as suitable for publication.
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