Rapidly sintering nanosized SiC particle reinforced TiC composites by the spark plasma sintering (SPS) technique

Lianjun Wang; Wan Jiang; Lidong Chen

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Rapidly sintering nanosized SiC particle reinforced TiC composites by the spark plasma sintering (SPS) technique

机译：火花等离子体烧结（SPS）技术快速烧结纳米SiC颗粒增强TiC复合材料

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Different content of nanosized SiC reinforced TiC matrix composites were fabricated at 1600°C by spark plasma sintering (SPS) without any aids. It was found that the materials could be sintered in a relatively short time (12 min) and low sintering temperature (1600°C) to satisfactory relative density (99%). The phase distribution and microstructure of composites have been investigated by optical microscopy and scanning electron microscope. Fracture toughness and Vickers hardness at room temperature were also measured by indentation tests. The results showed that nanosized SiC particles addition could inhibit the coalescence of TiC grains and increase fracture toughness of composites due to the crack deflections.

机译：在没有任何帮助的情况下，通过火花等离子体烧结（SPS）在1600°C下制备了不同含量的纳米SiC增强TiC基复合材料。发现可以在相对短的时间（12分钟）和低的烧结温度（1600℃）下将材料烧结至令人满意的相对密度（99％）。通过光学显微镜和扫描电子显微镜研究了复合材料的相分布和微观结构。还通过压痕测试来测量室温下的断裂韧性和维氏硬度。结果表明，纳米SiC颗粒的加入可抑制TiC晶粒的聚结并提高复合材料由于裂纹变形而产生的断裂韧性。

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《Journal of Materials Science 》 |2004年第14期| 4515-4519| 共5页
作者
Lianjun Wang; Wan Jiang; Lidong Chen;
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The State Key Laboratory of High Performance Ceramics and Superfine Microstructure Shanghai Institute of Ceramics Chinese Academy of Sciences;

The State Key Laboratory of High Performance Ceramics and Superfine Microstructure Shanghai Institute of Ceramics Chinese Academy of Sciences;

The State Key Laboratory of High Performance Ceramics and Superfine Microstructure Shanghai Institute of Ceramics Chinese Academy of Sciences;

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1. Rapidly sintering nanosized SiC particle reinforced TiC composites by the spark plasma sintering (SPS) technique [J] . Wang LJ, Jiang W Journal of Materials Science . 2004 ,第14期

机译：火花等离子体烧结（SPS）技术快速烧结纳米SiC颗粒增强TiC复合材料
2. Spark plasma sintering of TiC-based composites toughened by submicron SiC particles [J] . Lixia Cheng, Zhipeng Xie, Guanwei Liu CERAMICS INTERNATIONAL . 2013 ,第5期

机译：亚微米SiC颗粒增韧TiC基复合材料的火花等离子体烧结
3. Joining of CVD-SiC coated and uncoated fibre reinforced ceramic matrix composites with pre-sintered Ti3SiC2 MAX phase using Spark Plasma Sintering [J] . Tatarko Peter, Casalegno Valentina, Hu Chunfeng, Journal of the European Ceramic Society . 2016 ,第16期

机译：通过火花等离子烧结法将具有预烧结Ti3SiC2 MAX相的CVD-SiC涂层和未涂层的纤维增强陶瓷基复合材料连接起来
4. Microstructure and Mechanical Properties of Spark-Plasma-Sintered SiC-TiC Composites [C] . K. S. Cho, K. S. Lee International Symposium on New Frontier of Advanced Si-Based Ceramics and Composites . 2005

机译：火花等离子体烧结SiC-TIC复合材料的组织和力学性能
5. Tribological behavior of spark plasma sintered TiC/graphite/nickel composites and cobalt alloys. [D] . Kinkenon, Douglas. 2013

机译：火花等离子体烧结TiC /石墨/镍复合材料和钴合金的摩擦学行为。
6. Sintering Behavior of Spark Plasma Sintered SiC with Si-SiC Composite Nanoparticles Prepared by Thermal DC Plasma Process [O] . Yeon-Tae Yu, Gautam Kumar Naik, Young-Bin Lim, 2017

机译：直流等离子体技术制备的火花等离子体烧结SiC与Si-SiC复合纳米粒子的烧结行为
7. Nanocompósitos de Al2O3-SiC sinterizados por "spark plasma sintering" (SPS) Al2O3-SiC nanocomposites sintered by spark plasma sintering [O] . V. Trombini, E. M. J. A. Pallone, Z. A. Munir, 2008

机译：用放电等离子烧结烧结的“放电等离子烧结”（sps）al2O3-siC纳米复合材料的纳米复合材料al2O3-siC烧结材料
8. Reactive Spark Plasma Sintering (SPS) of Nitride Reinforced Titanium Alloy Composites (Postprint). [R] . Tiley, J. S., Borkar, T., Nag, S., 2014

机译：氮化物增强钛合金复合材料的反应放电等离子烧结（sps）（后印刷）。

Rapidly sintering nanosized SiC particle reinforced TiC composites by the spark plasma sintering (SPS) technique

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