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- alumina nanopowder 纳米氧化铝
- A new type of alumina ceramic passed this test. 一种新型氧化铝管通过了这个测试。
- Zibo Asahi Glass Alumina Materials Co., Ltd. 淄博旭硝子刚玉材料有限公司。
- Containing or yielding aluminum, alumina, or alum. 含铝的;产铝的含有或出产铝、氧化铝或明矾的
- The dryer contains activated alumina used as a moisture absorbent. 干燥器中含有活化凡作为吸湿剂。
- Namiyanghuaxin, nanometer alumina processing, and marketing. 纳米氧化锌、纳米氧化铝加工、销售。
- However, the alumina layers spall as the temperature increases. 但是,氧化铝层剥落的温度升高。
- The alumina ceramics is of good properties and widely used. 氧化铝陶瓷具有良好的性能,故应用广泛。
- INDUSTRIAL PREPARATION OF ALUMINA POWDER AND ITS DEVELOPMENT IN CHINA. 氧化铝粉末的工业制备及国内发展现状。
- Analyse the phase structure of composite nanopowder of Fe-TiC by X-ray diffractometer. 透射电子显微镜分析粉体的形貌和粒度分布;
- Celite,alumina,XAD-7,Kiselgel and Florisil were selected to absorb HRP. 不同载体对酶的影响不同。 Celite,alumina,XAD-7,Kiselgel和Florisil为载体,分别以吸附法制备固定化酶。
- TiO_2 nanopowder was prepared from titanium tetrachloride and n-octanol by liquid phase hydrolysis methods. 以四氯化钛和正辛醇为原料,通过液相水解法制备纳米二氧化钛粉体。
- Zn, Al, Cu, Mo, Pb, carbon steel, stainless steel, Alumina, Babbitt and so on. 锌、铝、铜、钼、铅、碳钢、不锈钢、氧化铝、巴氏合金等。
- Fig. 1 Influence of dopants on the conductivity of mesoporous alumina. 图1掺杂物对介孔氧化铝导电性的影响。
- Iron ore, alumina, crude petroleum, coal and aluminum top this list. 铁矿、矾土、原油、煤、铝都是最高的。
- The problem of Sb high content doped in ATO nanopowder was successfully solved by liquid phase co-deposition, and its content can reach 40-50%(mol). 采用液相共沉淀法制备ATO纳米粉体可以实现Sb在ATO中40-50%25(mol)掺杂量,解决了溶胶-凝胶方法中Sb达不到高浓度掺杂的问题;
- Thermal conductiuity of grif and alumina powder was measured by the system. 用实验装置测量了沙子和氧化铝粉末的导热系数。
- The government has delayed approvals of new alumina refinery projects. 政府延迟批准建立新的氧化铝精炼厂计划。
- The results certificated that the main influence factors in the synthesis process of Y2O3 nanopowder are the kinds of precipitation,the con... 研究结果表明:沉淀剂种类、表面活性剂浓度、合成反应温度是影响纳米Y2O3粒度和形貌的主要因素。
- Composite W-Cu oxide nanopowder was prepared by spray-drying and milling of ammonium metatungstate(AMT) and cupric nitrate. 采用偏钨酸铵、硝酸铜通过喷雾干燥、焙烧、球磨工艺制备纳米氧化钨铜复合粉末。
