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Thermal Conductivity and High-Frequency Dielectric Properties of Pressureless Sintered SiC-AlN Multiphase Ceramics

机译：无压烧结SiC-AlN多相陶瓷的导热系数和高频介电性能

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SiC-AlN multiphase ceramics with 10 wt. %Y2O3-BaO-SiO2 additives were fabricated by pressureless sintering in a nitrogen atmosphere. The effects of SiC contents and sintering temperatures on the sinterability, microstructure, thermal conductivity and high-frequency dielectric properties were characterized. In addition to 6H-SiC and AlN, the samples also contained Y3Al5O12 and Y4Al2O9. SiC-AlN ceramics sintered with 50 wt. % SiC at 2173 K exhibited the best thermal diffusivity and thermal conductivity (26.21 mm²·s⁻¹ and 61.02 W·m⁻¹·K⁻¹, respectively). The dielectric constant and dielectric loss of the sample sintered with 50 wt. % SiC and 2123 K were 33–37 and 0.4–0.5 at 12.4–18 GHz. The dielectric constant and dielectric loss of the samples decreased as the frequency of electromagnetic waves increased from 12.4–18 GHz. The dielectric thermal conductivity properties of the SiC-AlN samples are discussed.

机译：SiC-AlN多相陶瓷的重量百分比为10。通过在氮气氛中进行无压烧结来制备％Y 2 O 3 -BaO-SiO 2添加剂。表征了SiC含量和烧结温度对烧结性，微观结构，导热性和高频介电性能的影响。除了6H-SiC和AlN，样品还包含Y3Al5O12和Y4Al2O9。 SiC-AlN陶瓷以50 wt。 SiC在2173 K时的％SiC表现出最佳的热扩散率和导热率（26.21 mm ^{2 ·s ^{-1 和61.02 W·m ^{-1 ·分别为K ^{−1 ）。用50wt。％烧结的样品的介电常数和介电损耗。 SiC和2123 K的百分比在12.4-18 GHz下分别为33-37和0.4-0.5。样品的介电常数和介电损耗随电磁波频率从12.4–18 GHz增加而降低。讨论了SiC-AlN样品的介电导热性能。}}}}

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期刊名称 Materials
作者
Jialin Gu; Lingling Sang; Bo Pan; Yongbao Feng; Jian Yang; Xiaoyun Li;
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作者单位

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年(卷),期 2018(11),6
年度 2018
页码 969
总页数 10
原文格式 PDF
正文语种
中图分类外科学;
关键词
SiC-AlN pressureless sintering thermal conductivity dielectric properties;

机译：SiC-AlN;无压烧结;导热系数;介电性能;
入库时间 2022-08-17 11:42:54

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专利

1. Mechanical, thermal, and electrical properties of pressureless sintered SiC-AlN ceramics [J] . CERAMICS INTERNATIONAL . 2020,第11aPta2期

机译：无压烧结SiC-ALN陶瓷的机械，热和电性能
2. Mechanical, dielectric and thermal properties of porous boron nitride/silicon oxynitride ceramic composites prepared by pressureless sintering [J] . Sun Yangshan, Yang Zhihua, Cai Delong, CERAMICS INTERNATIONAL . 2017,第11期

机译：通过无压烧结制备多孔硼氮化物/硅氧氮化硅陶瓷复合材料的机械，电介质和热性能
3. Electrical and thermal properties of SiC-AlN ceramics without sintering additives [J] . Kim Kwang Joo, Kim Young-Wook, Lim Kwang-Young, Journal of the European Ceramic Society . 2015,第10期

机译：不含烧结添加剂的SiC-AlN陶瓷的电和热性能
4. Microstructure and Dielectric Properties of Heat-treated SiC-AlN Multiphase Ceramics [C] . Xiaomei Shi, Jianhua Yang, Yubai Pan China Cross-Strait Conference on Composite Materials . 2006

机译：热处理SiC-AlN多相陶瓷的组织和介电性能
5. Microstructure-mechanical properties relations in pressureless sintered silicon carbide-titanium diboride composite ceramics. [D] . Bucevac, Dusan. 2010

机译：无压烧结碳化硅-二硼化钛复合陶瓷的微观力学性能关系。
6. Effect of Sintering Temperature on Structural Dielectric and Magnetic Properties of Multiferroic YFeO3 Ceramics Fabricated by Spark Plasma Sintering [O] . Meng Wang, Ting Wang, Shenhua Song, 2017

机译：烧结温度对火花等离子体烧结制备多铁性YFeO3陶瓷的结构介电和磁性能的影响
7. Low-temperature Sintering Mechanism, Dielectric, and Thermal Properties of CuO-TiO₂-Nb₂O₅-containing Al₂O₃ Ceramics Featuring Superior Thermal Conductivity [O] . Koichi Shigeno, Tadashi Asakawa, Yuto Kuraoka, 2019

机译：CuO-TiO _{2 _{-nb _{2 o _{5 _{-2 _{2 _{2 _{2 _{2 _{2 _{2 _{2 _{2 < / sub> O _{3 陶瓷，具有卓越的导热率}}}}}}}}}}}}}}
8. Sintering, Thermal Conductivity, Optical and Lasing Properties of Doped-Lu2O3 Fiberous Transparent Ceramics. [R] . Speyer, R. F. 2016

机译：掺杂Lu2O3纤维透明陶瓷的烧结，导热系数，光学和激光性能。

Thermal Conductivity and High-Frequency Dielectric Properties of Pressureless Sintered SiC-AlN Multiphase Ceramics

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