采用自蔓延高温合成工艺,原位合成了ZrC/Cu复合材料.利用DTA、XRD、FE-SEM等手段,研究了自蔓延高温合成ZrC/Cu复合材料的反应行为.实验结果表明,随着Cu含量的增加,Cu-Zr-C体系的燃烧温度逐渐降低,且合成产物中ZrC颗粒尺寸亦随之减小,其形貌从不含Cu时的无规则的大块状转变为含30%(质量分数)Cu时的纳米级的小球状.ZrC/Cu复合材料中只有ZrC颗粒和Cu两相存在,并无Cu-Zr中间相形成.DTA热分析的结果显示反应起始于912℃时生成的Cu10Zr7中间亚稳相,然后在987℃生成CuZr2中间相,当温度达到1022℃,将会生成部分的ZrC,继续加热到1098℃,Cu开始熔化,最后温度为1232℃时,Zr与C发生剧烈反应从而合成大量的ZrC.
参考文献
| [1] | Khanra A K;Godkhindi M M;Pathak L C .[J].Materials Science and Engineering A,2007,454-455:281-287. |
| [2] | Shen Ping;Zou Binglin .[J].Materials Science and Engineering A,2007,454-455:300-309. |
| [3] | 陈大军,权旺林,安占军,孟庆森.电场激活压力辅助SHS法合成TiC-Ni-Fe复合材料[J].功能材料,2006(03):456-458. |
| [4] | P. Mossino .Some aspects in self-propagating high-temperature synthesis[J].Ceramics International,2004(3):311-332. |
| [5] | C.L. Yeli;C.C. Yeh .Preparation of CoAl intermetallic compound by combustion synthesis in self-propagating mode[J].Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics,2005(2):241-249. |
| [6] | E. Taheri-Nassaj;S. H. Mirhosseini .An in situ WC-Ni composite fabricated by the SHS method[J].Journal of Materials Processing Technology,2003(2):422-426. |
| [7] | Song Guiming;Wang Yujin;Zhou Yu .[J].Materials Science and Engineering A,2002,334(1-2):269-272. |
| [8] | 雷毅,刘志义,李海.低碳型钢中添加ZrC粒子获得超细晶粒的研究[J].钢铁,2002(08):58-60. |
| [9] | Karabi D;Bandyopadhyay T K .[J].Materials Science and Engineering A,2004,379(1-2):83-91. |
| [10] | 吴胜琴,朱心昆,罗毅,赖华,张修庆.机械合金化合成(ZrC+TiC)/Cu复合材料的研究[J].材料科学与工程学报,2004(02):272-275. |
| [11] | Choi Y;Rhee S .[J].Journal of Materials Science,1993,28(24):6669-6775. |
| [12] | Yucel B .[J].Journal of Materials Science,1999,34(07):1653-1657. |
| [13] | Jiang Qichuang;Wang Huiyuan et al.[J].Materials Letters,2003,57(16-17):2508-2583. |
| [14] | Tsuchida T;Yamamoto S .[J].Journal of the European Ceramic Society,2004,24(01):45-51. |
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