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热处理温度对机械合金化合成Ti3AlC2粉体纯度的影响 被引量:6

Effect of heat treatment temperature on purity of Ti_3AlC_2 powders synthesized by MA
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摘要 采用放电等离子烧结(SPS)系统对含有TiC等杂质相的机械合金化(MA)合成的Ti3AlC2粉体进行热处理,研究了热处理温度对粉体中Ti3AlC2纯度的影响。结果表明:SPS无压加热处理可以显著提高机械合金化合成粉体中Ti3AlC2的含量。经SPS热处理的粉体中Ti3AlC2的含量在600~1000℃范围内随热处理温度的提高而增加,温度不高于900℃时处理后的粉体还基本保持粉体特征。当温度为1000℃时,得到产物中Ti3AlC2纯度可达到93%。通过对点阵常数测定可知随着热处理温度的提高Ti3AlC2点阵常数逐渐接近理论值。 Ti3AlC2 powder contained TiC and other unwanted impurities were sintered by spark plasma sintering (SPS). Effect of heat treatment temperature on amount of impurity in the Ti3AlC2 powder was studied. The results show that SPS pressureless sintering can apparently increase Ti3AlC2 content in the mechanical alloyed powder. Ti3AlC2 content in the powder increases with rising heat treatment temperature at 600℃ ~ 1000℃. The powder still keep powder state when the heat treatment temperature below 900 ℃ . Ti3AlC2 content in the product can reach 93wt% at 1000℃. Through the lattice constant determination can be seen, along with heat treatment temperature gradually raising Ti3AlC2 lattice constants close to the theoretical value.
作者 金松哲 王蕾 吴化 孙世成 任露泉 杨晨
机构地区 长春工业大学材料科学与工程学院 吉林大学地面机械仿生技术教育部重点实验室 吉林大学教育部汽车材料重点实验室
出处 《材料热处理学报》 EI CAS CSCD 北大核心 2008年第3期35-38,共4页 Transactions of Materials and Heat Treatment
基金 吉林省科技发展项目(20070511) 博士点基金(20060183058)
关键词 TI3ALC2 脉冲放电等离子烧结 热处理 Ti3AlC2 spark plasma sintering (SPS) heat treatment
分类号 TG146.23 [金属学及工艺—金属材料] TG156 [金属学及工艺—热处理]
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参考文献10

  • 1Barsoum M W. The MN +1 AXIN phases : a new class of solids : Thermodynamically Stable Nanolaminates[ J]. Prong Solid St Chem, 2000,28 : 201 - 281.
  • 2Tzenov N V, Barsoum M W. Synthesis and characterization of Ti3 AlC2 [ J]. J Am C eram Soc, 2000,83(4):825- 832.
  • 3Myhra S, Crossley J A A, Barsoum M W. Crystal-chemistry of the Ti3 AlC2 and Ti4 AlN3 layered carbide/nitride phases characterization by XPS[ J]. Journal of Phase and Chemistry of Solid,2001,62:811 -817.
  • 4ZHANC Y, SUN Z M, ZHOU Y C. Cu/Ti3SiC2 composite: a new eleetrofriction material[J]. Mater Res lnnovat, 1999, (3):80.
  • 5WANG X H, ZHOU Y C. Mierostrueture and properties of Ti3 AlC2 prepared by the solid-liquid reaction synthesis and simultaneous insitu hot pressing process [J]. Acta Marerialia,2000,50:3141 - 3149.
  • 6LI S B, ZHA1 H X, BE1 G P, et al. Formation of Ti3AlC2 by mechanically inducedself-propagating reaction in Ti-Al-C system at room temperature[J]. Materials Science and Technology, 2006, 22 (6) :667 - 772.
  • 7LI Shi-bo, ZHAI Hong-xiang, BEI Guo-ping, et al. Synthesis and microstructure of Ti3AlC2 by mechanically activated sintering of elemental powders[J]. Ceramics International, 2007,33 : 169 - 173.
  • 8LI Jing-feng, Toshiro Matsukl, Ryuzo Watanabe. Mechanical-alloying-assisted synthesis of Ti3 SiC2 powder[ J]. Journal of the American Ceramic Society, 2002, (4) : 1004 - 1006.
  • 9PENG Chun-qing, WANG Chang-an, SONG Yang, et al. A novel simple method to stably synthesize Ti3 AlC2 powder with high purity[J]. Materials Science and Engineering,2006,428( 1 - 2) :54 - 58.
  • 10Pietzka M A, Schuster J C. Summary of constitutional data on the Al-C-Ti system[J]. Phase Equilib, 1994,15(4) :392.

同被引文献81

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二级引证文献14

材料热处理学报
2008年 第3期

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