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Surface Oxidation of Al_2O_3/SiC Nanocomposite: Phase Transformation and Microstructure 被引量:4

Surface Oxidation of Al_2O_3/SiC Nanocomposite: Phase Transformation and Microstructure
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摘要 The surface oxidation behavior of pressureless sintered Al2O3/SiC nanocomposite was studied from 1000 to 1400 ℃ for more than 10 h in air. Weight gain during the process of heat treatment was measured by TG analysis. Phase transformation and microstructure changes of these specimens due to oxidation were investigated with X-ray diffraction (XRD), SEM and EDX technology. Thermogravimetric analysis show that the weight gain as a result of oxidation of SiC become significant above 1200 ℃. In the range of 1000 - 1300 ℃, the SiC grits are usually coated with a layer of amorphous silica after oxidation. Above 1300 ℃, the amorphous silica reacted with alumina matrix and formed mullite or crystallized into cristobalite. The rate of oxidation depends on the formation of dense cristobalite film. Large amount of needle-like mullite and alumina crystals are formed on the surface after oxidation at 1400℃. The surface oxidation behavior of pressureless sintered Al2O3/SiC nanocomposite was studied from 1000 to 1400 ℃ for more than 10 h in air. Weight gain during the process of heat treatment was measured by TG analysis. Phase transformation and microstructure changes of these specimens due to oxidation were investigated with X-ray diffraction (XRD), SEM and EDX technology. Thermogravimetric analysis show that the weight gain as a result of oxidation of SiC become significant above 1200 ℃. In the range of 1000 - 1300 ℃, the SiC grits are usually coated with a layer of amorphous silica after oxidation. Above 1300 ℃, the amorphous silica reacted with alumina matrix and formed mullite or crystallized into cristobalite. The rate of oxidation depends on the formation of dense cristobalite film. Large amount of needle-like mullite and alumina crystals are formed on the surface after oxidation at 1400℃.
作者 蔡舒 彭珍珍 冯杰 鲁枫
机构地区 School of Material Science and Engineering
出处 《Journal of Rare Earths》 SCIE EI CAS CSCD 2005年第4期429-432,共4页 稀土学报(英文版)
基金 Project supported bythe Ministry of Science and Technology via‘863’High Technology Projects (2002AA332080)
关键词 NANOCOMPOSITES surface OXIDATION heat treatment rare earths nanocomposites surface oxidation heat treatment rare earths
分类号 TQ174.75 [化学工程—陶瓷工业]
作者简介 Cai Shu (1965-), Female, Doctor, Professor. Corresponding author (E-mail: caishu@tju.edu.cn)
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参考文献11

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同被引文献21

  • 1蔡舒,彭珍珍,冯杰,鲁枫,李鸿祥,陈玉如.常压烧结制备Al_2O_3/SiC纳米复合陶瓷及其显微结构的研究[J].兵器材料科学与工程,2004,27(5):10-13. 被引量:6
  • 2矫义来,韩亚苓,王双,孙泰礼.ZrO_2粉料在Al_2O_3-SiC纳米复合陶瓷中的作用[J].沈阳工业大学学报,2005,27(4):389-392. 被引量:3
  • 3陈小伟,陈裕泽.脆性陶瓷靶高速侵彻/穿甲动力学的研究进展[J].力学进展,2006,36(1):85-102. 被引量:27
  • 4韩亚苓,矫义来,李伟,孙泰礼.Al_2O_3/SiC纳米复合陶瓷中SiC粉料的氧化现象[J].沈阳工业大学学报,2007,29(2):130-134. 被引量:2
  • 5EUGEGE M. Alumina ceramics for ballistic protection part I [J]. American Ceramic Society Bulletin, 2006, 85 (3) : 62- 65.
  • 6SCITI D, VICENS J, BELLOSI A. Microstructure and proper ties of alumina-SiC nanocomposites prepared from ultrafine pow ders[J]. Journal of Materials Science, 2002, 37 : 3747-3758.
  • 7BARON B,KUMAR C S, GONIDEC L. Comparison of different alumina powders for the aqueous processing and pressureless sintering of Al2O3-SiC nanocomposites[J]. Journal of the European Ceramic Society, 2002, 22 : 1543- 1552.
  • 8GALUSEK D, SEDLACEK J, RIEDEL R. Al2O3 SiC composites prepared by warm pressing and sintering of an organosilicon polymer-coated alumina powder[J]. Journal of the European Ceramic Society, 2007, 27 : 2385- 2392.
  • 9SCITI D, BELLOSI A. Oxidation behaviour of alumina-silicon carbide nanocomposites[J]. Journal of Material Science, i998, 33: 3823-3830.
  • 10HUE F, JORAND Y, DUBOIS J, et al. Analysis of the weight loss during sintering of silicowcarbide whisker-reinforced alumina composltes[J]. Journal of the European Ceramic Society, 1997, 17: 557-563.

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Journal of Rare Earths
2005年 第4期

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