Preparation and microwave permittivity of SiC-Al2O3 nanocomposite powder

Xiaokui Liu; Wancheng Zhou; Fa Luo; Dongmei Zhu

Preparation and microwave permittivity of SiC-Al₂O₃ nanocomposite powder

Xiaokui Liu, Wancheng Zhou, Fa Luo, Dongmei Zhu

材料学院

Northwestern Polytechnical University Xian

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

To the best of our knowledge, there is no paper in the open literature dealing with the preparation of SiC-Al₂O₃ nanocomposite powder with the method of sol-gel and carbonthermal reduction. We aim to explore preparing such nanocomposite powder with the above-mentioned procedure and then investigate the variation of its microwave permittivity with aluminum content in the frequency range of 8.2-12.4 GHz. The powder synthesized at 1700°C in the atmosphere of argon consists of globose particles 300-400 nm in diameter, which, in their turn, consist of SiC and AlAl₂O₃ microcrystals approximately 45 nm in diameter. The atom of aluminum cannot resolve in the lattice of SiC; this induces both ε′, the real part of complex permittivity, and the dissipation factor tgδ to decrease with increasing aluminum content, tgδ denotes ε″/ε′, where ε″ is the imaginary part of permittivity.

源语言	英语
页（从-至）	128-131
页数	4
期刊	Xibei Gongye Daxue Xuebao/Journal of Northwestern Polytechnical University
卷	24
期	1
出版状态	已出版 - 2月 2006

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title = "Preparation and microwave permittivity of SiC-Al2O3 nanocomposite powder",

abstract = "To the best of our knowledge, there is no paper in the open literature dealing with the preparation of SiC-Al2O3 nanocomposite powder with the method of sol-gel and carbonthermal reduction. We aim to explore preparing such nanocomposite powder with the above-mentioned procedure and then investigate the variation of its microwave permittivity with aluminum content in the frequency range of 8.2-12.4 GHz. The powder synthesized at 1700°C in the atmosphere of argon consists of globose particles 300-400 nm in diameter, which, in their turn, consist of SiC and AlAl2O3 microcrystals approximately 45 nm in diameter. The atom of aluminum cannot resolve in the lattice of SiC; this induces both ε′, the real part of complex permittivity, and the dissipation factor tgδ to decrease with increasing aluminum content, tgδ denotes ε″/ε′, where ε″ is the imaginary part of permittivity.",

keywords = "Carbothermal reduction, Microwave permittivity, SiC-AlAlO nanocomposite powder",

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T1 - Preparation and microwave permittivity of SiC-Al2O3 nanocomposite powder

AU - Liu, Xiaokui

AU - Zhou, Wancheng

AU - Luo, Fa

AU - Zhu, Dongmei

PY - 2006/2

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N2 - To the best of our knowledge, there is no paper in the open literature dealing with the preparation of SiC-Al2O3 nanocomposite powder with the method of sol-gel and carbonthermal reduction. We aim to explore preparing such nanocomposite powder with the above-mentioned procedure and then investigate the variation of its microwave permittivity with aluminum content in the frequency range of 8.2-12.4 GHz. The powder synthesized at 1700°C in the atmosphere of argon consists of globose particles 300-400 nm in diameter, which, in their turn, consist of SiC and AlAl2O3 microcrystals approximately 45 nm in diameter. The atom of aluminum cannot resolve in the lattice of SiC; this induces both ε′, the real part of complex permittivity, and the dissipation factor tgδ to decrease with increasing aluminum content, tgδ denotes ε″/ε′, where ε″ is the imaginary part of permittivity.

AB - To the best of our knowledge, there is no paper in the open literature dealing with the preparation of SiC-Al2O3 nanocomposite powder with the method of sol-gel and carbonthermal reduction. We aim to explore preparing such nanocomposite powder with the above-mentioned procedure and then investigate the variation of its microwave permittivity with aluminum content in the frequency range of 8.2-12.4 GHz. The powder synthesized at 1700°C in the atmosphere of argon consists of globose particles 300-400 nm in diameter, which, in their turn, consist of SiC and AlAl2O3 microcrystals approximately 45 nm in diameter. The atom of aluminum cannot resolve in the lattice of SiC; this induces both ε′, the real part of complex permittivity, and the dissipation factor tgδ to decrease with increasing aluminum content, tgδ denotes ε″/ε′, where ε″ is the imaginary part of permittivity.

KW - Carbothermal reduction

KW - Microwave permittivity

KW - SiC-AlAlO nanocomposite powder

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Preparation and microwave permittivity of SiC-Al2O3 nanocomposite powder

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Preparation and microwave permittivity of SiC-Al₂O₃ nanocomposite powder