Synthesis of ultra-fine and controllable size distribution nanocrystalline MgAl2O4 powders and ascertainment of aluminum loss by introducing inert atmosphere pre-calcination during combustion

著录项

• 来源
  《Journal of Sol-Gel Science and Technology》 |2015年第2期|336-344|共9页
• 作者

  Lei Hu; Xiumin Xie; Jianqi Qi; Qiwu Shi; Wei Liu; Yida Zhou; Maureen Willis; Nian Wei; Tiecheng Lu;

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• 作者单位

  College of Physical Science and Technology Sichuan University">(1);

  College of Physical Science and Technology Sichuan University">(1);

  Key Laboratory of Radiation Physics and Technology of Ministry of Education Sichuan University">(2);

  College of Physical Science and Technology Sichuan University">(1);

  Key Laboratory of Radiation Physics and Technology of Ministry of Education Sichuan University">(2);

  College of Physical Science and Technology Sichuan University">(1);

  School of Physical Electronics University of Electronic Science and Technology of China">(4);

  College of Physical Science and Technology Sichuan University">(1);

  College of Physical Science and Technology Sichuan University">(1);

  Key Laboratory of High Energy Density Physics of Ministry of Education Sichuan University">(3);

  College of Physical Science and Technology Sichuan University">(1);

  Key Laboratory of Radiation Physics and Technology of Ministry of Education Sichuan University">(2);

  College of Physical Science and Technology Sichuan University">(1);

  Key Laboratory of High Energy Density Physics of Ministry of Education Sichuan University">(3);

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• 原文格式 PDF
• 正文语种 eng
• 中图分类
• 关键词

  MgAl2O4 nanopowder; Modified combustion method; Inert atmosphere pre-calcination; Controllable crystallite size;

  机译：MgAl2O4纳米粉;改进的燃烧方法;惰性气氛预煅烧;可控制的微晶尺寸;