SiC/BN Composites by Spark Plasma Sintering (SPS) of Precursor-Derived SiBNC Powders

IF 0.5 4区 材料科学 Q4 MATERIALS SCIENCE, CERAMICS Journal of Ceramic Science and Technology Pub Date : 2010-07-26 DOI:10.4416/JCST2010-00012
Jakob Wilfert, K. Meier, K. Hahn, Y. Grin, Martin Jansen
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引用次数: 8

Abstract

Preceramic polyborocarbosilazane was pyrolysed at 900 °C and 1400 °C, respectively, yielding amorphous SiBNC. The as-obtained powders were subsequently spark plasma sintered (SPS) at temperatures in a range between 1400 °C and 1800 °C for 10 minutes under uniaxial pressure of 50 MPa. The samples have been characterized by SEM, TEM, XRD, helium pycnometry and Vickers hardness measurements. Independent of the pyrolysis temperature of the starting materials, the most compact samples were obtained by SPS at 1800 °C. In SPS conditions the onset of crystallization and phase separation of the amorphous SiBNC ceramic is substantially reduced as compared to conventional heating. A composite microstructure is obtained, which consists of SiC crystallites with diameters smaller than 500 nm, embedded in a matrix of turbostratic BN. Hardness values increase to 3 GPa when the SPS temperature is raised. TGA in O2 shows a high resistance against oxidation of the SPS compacts.
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前驱体衍生SiBNC粉末的放电等离子烧结SiC/BN复合材料
预陶瓷型聚硼碳硅氮烷分别在900℃和1400℃热解得到无定形SiBNC。随后,在单轴压力50 MPa下,在1400 ~ 1800℃的温度下进行放电等离子体烧结(SPS) 10分钟。采用SEM、TEM、XRD、氦比测定和维氏硬度测定对样品进行了表征。与起始物料的热解温度无关,SPS在1800℃时得到的样品最致密。在SPS条件下,与传统加热相比,非晶SiBNC陶瓷的结晶和相分离的发生大大减少。得到了一种由直径小于500 nm的碳化硅晶体嵌套在涡层氮化硼基体中的复合结构。当SPS温度升高时,硬度值增加到3gpa。在O2中的TGA表明SPS压坯具有较高的抗氧化性。
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Journal of Ceramic Science and Technology
Journal of Ceramic Science and Technology MATERIALS SCIENCE, CERAMICS-
CiteScore
0.80
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0.00%
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期刊介绍: The Journal of Ceramic Science and Technology publishes original scientific articles on all topics of ceramic science and technology from all ceramic branches. The focus is on the scientific exploration of the relationships between processing, microstructure and properties of sintered ceramic materials as well as on new processing routes for innovative ceramic materials. The papers may have either theoretical or experimental background. A high quality of publications will be guaranteed by a thorough double blind peer review process.
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