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- TiO2 nanopowder TiO2粉体
- TiO2, CaCO3, Paints, Printing ink, Pigments, Dyes, etc. 钛白粉,碳酸钙,油漆,油墨,颜料,染料等。
- Colloidal TiO2 was prepared by hydrolyzing tetra-n-butyl titanate. 水解钛酸四丁酯制备了二氧化钛胶体;
- TiO2 nanopowders 纳米TiO2粉体
- mesoporous TiO2 nanopowders 介孔TiO2
- A systematic study of TiO2 ceramic boundary layer capacitor (BLC) ismade. 本文对TiO_2陶瓷晶界层电容器进行了较为系统的研究。
- Loss-weight rate of TiO2 powder reaches 38% in heat-treatment course. 在热处理过程中,TiO2纳米粉体的失重率达到38%25。
- TiO2 nanoparticles have great value in the market and bright prospect. 纳米TiO2具有极大的市场价值和光明的发展前景。
- To control the dosage of TiO2 can improve the degradation rate of Rogor. 控制催化剂TiO_2的用量能提高对乐果的降解率。
- Ingredients: VE, houndfish alkyl, aloe extract, silicon-treated TIO2. 主要成分:维生素E、角鲨烷、芦荟精华、硅处理TIO2。
- 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;
- 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。
- 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;
- 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。
- A foam ceramics of Al2TiO5?TiO2?SiO2 doped with CeO2 and Er2O3 was prepared by organic foam soaking. 用有机先驱体浸渍法制备了CeO2和Er2O3等稀土掺杂的Al2TiO5?TiO2?SiO2多相泡沫陶瓷。
- According to the growth unit model of anion coordination polyhedron, the effects of KOH concentrations on the phase, particle size and morphology of nanopowder were investigated. 结合负离子配位多面体生长基元模型,研究了KOH浓度对粉体物相、粒径和形貌的影响。
- The primary material was prepared in stearic acid medium or was from ultrafme TiO2 powder treated with acetic acid. 该起始性物质可在硬脂酸介质中制备,或将超细TiO-2粉体经醋酸处理。
- Keywords: CO2, greenhouse effect, rock weathering, photocatalytic reduction, TiO2. 关键词:二氧化碳、温室效应、岩石风化、光催化还原、二氧化钛。
