1)  tool
搅拌摩擦头
1.
Under friction stir welding process of stainless steel,in this paper,tool wearing mechanism in friction stir welded stainless steel was investigated theoretically and experimentally.
搅拌摩擦头技术是搅拌摩擦焊工艺的关键技术。
2)  Agitation
搅拌
1.
Study of fluid mechanics in agitation fluidized-bed dryer;
搅拌流化床干燥器流体力学性能研究
2.
Problems Presented in Slurry Agitation;
矿浆搅拌中几个问题的论述
3)  agitate
搅拌
1.
The design scheme of agitated MR brake is presented in this paper,with the brake prototype, the experimentation of measuring brake torque is carried out on specially designed testing machine and brake performance of the MR fluids brake is further summarized and compared with the common brake.
本文提出了搅拌型制动器模型的设计,通过试验确定了该制动器搅拌磁流变体时产生制动力矩的制动特性,并与常用的剪切型,磁流变体制动器作了比较。
4)  stirring
搅拌
1.
Effect of Electromagnetic Stirring on CuCr Alloy Prepared by Combustion Synthesis;
电磁搅拌对燃烧合成CuCr合金组织的影响
2.
EHect of Strong Mechanical Stirring on the Crystallization of Al-Cu10% Alloy;
强烈机械搅拌对Al-Cu10%合金结晶方式的影响
3.
The Effects of Stirring and Dispersant on Properties of Suspensive PVC Grains;
搅拌和分散剂对悬浮聚氯乙烯颗粒特性的影响
5)  stir
搅拌
1.
Influences of the using amount of emulsifier and stirring condition on the particle size in heterogeneous polymerization system;
非均相聚合反应中乳化剂用量及搅拌状况对粒径大小的影响
2.
Research On Stirring Wind-heating System Applications;
搅拌式风力致热系统应用研究
3.
By metered the residence duration distribution of the liquid phase in two reactors in different feed flow with different kinds of blades,on the basis of application of the blades,to compare the stir effect of two kinds of blades.
通过测定精对苯二甲酸装置对二甲苯氧化反应器新旧两种搅拌桨在不同进料状态下的液相停留时间分布,并结合生产的实际应用,对两种搅拌桨的搅拌效果进行比较。
6)  mixing
搅拌
1.
Manufactur of market-oriented cements using high-performance mixing plants;
采用高性能搅拌设施生产适应市场的水泥
2.
Selection of the mixing scheme in largescale phosphoric acid tank;
大型磷酸贮槽搅拌方案的选择
3.
Effects of the Size of Zinc Powder and Mixing on the Property of Zn Cr Coating Paint;
锌粉粒度和搅拌对锌铬膜层质量影响的研究
参考词条
补充资料:摩擦学:滚动摩擦
滚动摩擦
两相互接触的物体有相对滚动或有相对滚动趋势时的摩擦。滚动摩擦的机理不同於滑动摩擦﹐它主要来源於滚动体在接触区域產生弹-塑性变形﹐在以接触点(或线)为中心的接触区内接触压力分布不对称﹐致使支承面的反力N 发生偏心﹐并產生摩擦力F (见图 滚动摩擦示意图 )。用表示法向反力N 到接触点的距离﹐根据力的平衡条件可得
        
        式中为滚动体半径﹔为滚动摩擦係数﹐它的量纲为长度﹐其值与接触面的材料﹑粗糙度﹑温度和湿度等因素有关。
  
说明:补充资料仅用于学习参考,请勿用于其它任何用途。