1)  ultrafine particle
超细微化
2)  ultra-fine
超细
1.
Preparation and application of ultra-fine synergistic flame-retardant;
超细协同阻燃剂的制备及应用
2.
Study on synthesis of ultra-fine ZnO By direct precipitation method;
直接沉淀法合成超细氧化锌的研究
3.
The initial powder particle sizes of the main hard phase components [Ti(C, N), TiC and TiN] were nano/submicron-sized, in order to achieve an ultra-fine grain sizes microstructure.
为了得到超细晶粒的显微结构,主要硬质相[Ti(C,N),TiC和TiN]的初始粉末粒度为纳米、亚微米级。
3)  ultra fine
超细
1.
Study of ultra fine grinding for fly ash and its properties;
粉煤灰的超细粉磨及其性能的研究
2.
The paper has summarized structure and performance features of ultra fine-cemented carbides WC-Co.
综述了超细WC-Co硬质合金的组织与性能特征。
3.
The fabrication of ultra fine layered materials and the intercalation of nanocomposites are emphasized.
着重强调了超细层状材料的制备方法,层状材料的改性思路及最新研究热点,并对该类新型材料在光催化领域的研究和应用提出了一些展望。
4)  superfine
超细
1.
Preparation and modification of highly dispersed superfine silica;
超细二氧化硅的制备与改性
2.
Applied Study on the Surface Modification of the Superfine AlOOH in Poly (vinyl chloride ) Plastics;
超细改性AlOOH在PVC塑料中的应用研究
3.
Study on the chip and high-speed spinningfor superfine polypropylene fibers;
超细丙纶专用切片和高速纺丝工艺研究
5)  ultrafine
超细
1.
Preparation of ultrafine CeO_2 powder and its particle size control;
超细氧化铈粉体的合成及粒度控制
2.
The Key Technologies of Ultrafine Cement Mill Development;
超细水泥磨机开发关键技术探析
3.
Preparation of"ultrafine"white carbon black by impinging stream reaction-precipitation;
撞击流反应-沉淀法制备超细白炭黑
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.
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。
3.
New methods on the surface modification of superfine powder,such as coating modification,chemical modification,high energy modification,etc.
针对目前超细粉体的制备和应用中存在的问题,综述了近年来超细粉体的表面改性方法,如:包覆改性、化学改性、高能改性等。
参考词条
补充资料:公理化方法(见公理化和形式化)


公理化方法(见公理化和形式化)
axiomatical method

  gongllbuafangfa公理化方法化和形式化。(axiomatieal method)见公理
  
说明:补充资料仅用于学习参考,请勿用于其它任何用途。