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1)  powder [英]['paʊdə(r)]  [美]['paudɚ]
粉体
1.
Study on hydrothermal synthesis of strontium barium niobate powders;
水热法制备铌酸锶钡粉体初探
2.
Preparing ultramicro molybdenum nitride powders by high-energy mechanochemistry method;
高能机械化学法制备超微氮化钼粉体
3.
Synthesis and characterization of La_2Mo_2O_9 powder;
La_2Mo_2O_9粉体的制备及表征
2)  powders [英]['paudə]  [美]['paʊdɚ]
粉体
1.
Research development on combustion synthesis of barium titanate powders;
燃烧合成钛酸钡粉体的研究进展
2.
Synthesis of BaTiO_3 powders by Sol-gel;
溶胶-凝胶法合成钛酸钡超细粉体工艺研究
3.
Synthesis Technology of Lithium Niobate Powders via Wet Chemical Routes;
铌酸锂粉体的湿化学法制备工艺
3)  particle [英]['pɑ:tɪkl]  [美]['pɑrtɪkḷ]
粉体
1.
Preparation and Catalytic Activity of CuO/Bi_2O_3 Nano-particles;
纳米CuO/Bi_2O_3粉体的制备及催化性能
2.
The evaluation methods of uniformity of particle mixing is compared.
比较了粉体混合均匀度的常用评价方法,认为离差系数法最适合应用于催化裂化催化剂粉体的混兑,用电导率法测定混合粉体中某一组分的含量是一种简单、高效、低成本的有效方法。
3.
Urea used as precipitant agent reacted with soluble Cu2+ and Bi3+ salt to prepare CuO-Bi2O3 particles by homogeneous precipitation method.
采用均匀沉淀法,以尿素与硝酸铜、硝酸铋反应制得CuO-Bi2O3粉体,研究了其对炔醛法合成1,4-丁炔二醇的催化性能。
4)  Liquid/Powder
液体/粉体
5)  Nanometer Powder
纳米粉体
1.
Application of supercritical fluids drying technology in the preparation of nanometer powder;
超临界流体干燥技术在纳米粉体制备中的应用
2.
Agglomerate mechanism of nanometer powders in atmosphere and methods of preparation of nan-agglomerate nanometer powders;
纳米粉体大气环境团聚机理及无团聚纳米粉体的制备
3.
The study of preparing Y2O3 stabilized ZrO2 nanometer powder in stearic acid sol by microwave heating;
溶胶凝胶-微波加热技术制备Y_2O_3稳定ZrO_2纳米粉体的研究
6)  superfine powder
超细粉体
1.
Application of superfine powder technology in TCM;
超细粉体技术在中药行业中的应用
2.
Rheological behavior of PET blend-modified with TiO_2/ZnO superfine powder
TiO_2/ZnO超细粉体共混改性PET的流变性能
3.
The sub-micro superfine powder of codonopsis pilosula(Franch) Nannf are produced by pulverizer of turbulence,and several elements affecting the diameters of superfine powder are researched at the same time,such as the speed of impeller,the quality of reinforced material and the working time.
利用湍流超细粉碎机制取了党参的亚微米级超细粉体,研究了叶轮转速、加料质量、粉碎时间对粉体粒径的影响,对党参的超细粉碎工艺参数进行了优化;分析了造成粉体团聚的原因,结果表明,叶轮转速的提高是引起粉体团聚的主要因素。
补充资料:粉体技术
分子式:
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性质:又称粉体工程,亦称颗粒工程。是研究颗粒性质和行为、颗粒形成、制备及颗粒处理技术的综合性技术科学。

说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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