机译:燃烧过程中引入惰性气氛预煅烧法合成尺寸可控的超细纳米MgAl2O4纳米粉体并确定铝的损失
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);
MgAl2O4 nanopowder; Modified combustion method; Inert atmosphere pre-calcination; Controllable crystallite size;
机译:燃烧过程中引入惰性气氛预煅烧法合成尺寸可控的超细纳米MgAl2O4纳米粉体并确定铝的损失
机译:低压N_2气氛下燃烧合成超细SiC粉末
机译:硝酸镁和硝酸铝氧化制备燃烧法制备纳米和微米级MgAl2O4尖晶石的技术方面
机译:具有优异烧结性的合成纳米MgAl2O4尖晶石粉
机译:通过对镍和铝的机械合金化粉末进行冲击固结合成的纳米晶镍铝的机械性能和氧化行为。
机译:通过高压和合成混合纳米晶体粉末的高压和高温烧结体系氮化钛(锡)氮化物(Aln)中的复合氮化物纳米陶瓷
机译:通过纳米氧化ZrO2和纳米型石墨粉末混合物通过碳热还原法容易合成高度分散的超细ZRC粉末
机译:使用甘氨酸 - 硝酸盐燃烧合成的超细粉末。