1) Gas grinding
气流研磨
2) magnetic fluid grinding
磁流研磨
1.
The general magnetic fluid grinding methods and magnetic fluids used home and abroad have been reviewed.
回顾了国内外常用的磁流研磨方法和采用的研磨流体,简述了磁流研磨领域的国内外研究概况及其发展前
2.
Discusses a magnetic fluid grinding dynamic analysis for circular elements and its number solution based on theories of magnetic fluid dynamics and tribology.
以流体力学、摩擦学理论为基础,对圆形工件在磁流研磨过程中的动力学问题进行了分析并采用计算机对其进行数值解,其结论对圆形或半球形工件表面磁流研磨质量的控制提供了理论依据。
3) Hydro-abrasion
液流研磨
4) jet mill
气流磨
1.
Application of the frequency conversion and speed regulation in the production line of jet mill;
变频调速在气流磨微粉生产线中的应用
2.
The effect of the technical parameters on the particle size of the tourmaline powder product from the jet mill is investigated by the QLM-Ⅳ fluidized bed opposed jet mill.
研究利用QLM-Ⅳ型流化床式气流磨生产电气石粉体时各种工艺条件对产品细度的影响。
3.
The key equipment of a pilot plant to produce ultra-fine tourmaline powder with jet mill and stirred ball mill is described.
本文主要利用以气流磨和搅拌磨为主体的超细粉碎中试线,对电气石超细粉体的制备工艺进行了探讨。
5) Jet milling
气流磨
1.
The characteristics of jet milling used steam-gas as medium were analyzed.
讨论了加工重钙超细粉的方法 ,分析了以过热蒸汽为介质的气流磨的特性 ,理论与实验证明 ,过热蒸汽气流磨可以大规模、低成本、干法地超细加工重钙粉。
2.
The powders produced by jet milling and ball milling were compared.
本研究对气流磨和滚动球磨两种工艺所制备的粉末进行比较,通过粒度分析及显微镜观察,研究了粉末的粒径与形状对材料性能的影响。
3.
The effects of process parameters of strip casting, jet milling and rubber isostatic pressing techniques on the microstructure and magnetic properties of sintered NdFeB magnets have been emphatically overviewed.
介绍了烧结钕铁硼磁体的研究与生产现状、钕铁硼永磁合金的有关理论、烧结钕铁硼磁体的先进生产工艺,重点分析了片铸(SC)、气流磨、橡皮模等静压等工艺的参数对烧结钕铁硼磁体微结构和磁性能的影响。
6) airflow mill
气流磨
1.
The operation principle,collocation of mechanism and electrical,detection device and process control of Germany OHLMANN airflow mill has been detailedly introduced.
详细介绍从德国引进的OHLMANN气流磨的工作原理、机电配置、检测和过程控制的情况。
补充资料:Anglelapping角度研磨
angle lapping 的目的是为了测量junction的深度,所作的芯片前处理,这种采用光线干涉测量的方法就称之angle lapping。公式为xj=λ/2 nf即junction深度等于入射光波长的一半与干涉条纹数之乘积。但渐渐的随着vlsi组件的缩小,准确度及精密度都无法因应。如srp(spreading resistance prqbing)也是应用angle lapping的方法作前处理,采用的方法是以表面植入浓度与阻值的对应关系求出junction的深度,精确度远超过入射光干涉法。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条