1) wear medium
磨损介质
2) Grinding medium
磨矿介质
1.
The short cylindrical grinding medium is benefittal to the selective grinding of bauxite, but the increasing of the mass ratio of Al_2.
研究了球形、短圆柱形和短圆柱+球形3种磨矿介质对铝土矿选择性磨矿的作用。
2.
The effect of grinding medium on calamine and magnesite flotation using sodium oleate as collector was investigated.
采用钢球和氧化锆球两种球介质,研究了磨矿介质对菱锌矿和菱镁矿表面性质及油酸钠浮选体系中浮选回收率的影响。
3) grinding media
磨矿介质
1.
Effect of grinding media on the flotation of carbonate using sodium oleate as collector
磨矿介质对油酸钠浮选碳酸盐的影响
2.
Optimization of grinding media of regrinding mill in beneficiation plant
选矿再磨机磨矿介质的优化研究
3.
The effects of grinding media on surface properties and flotation performance of galena are investigated by means of SEM,XPS and flotation experiment.
利用SEM、XPS及浮选试验考察磨矿介质对方铅矿表面性质和浮选行为的影响。
4) grinding medium
研磨介质
1.
Also,the experiments had been carried out to study the effects of the high-pressured water jet power,the amount and composition of grinding medium and the impact time on the comminuting capability.
通过试验方法研究了高压水射流功率、研磨介质的填充量和配比、冲击时间等对该装置粉碎能力的影响。
5) Fine grinding media
细磨介质
1.
Comminuting effect in grinding process by using cast iron segment as fine grinding media is studied with comparison to steel ball.
采用普通钢球作为对比,研究磨矿过程中以铸铁段为细磨介质的破碎效果。
6) ball mediums
磨矿介质
1.
This paper studies that the ball mediums in the URSBM go through three steps: uniform circumference motion, motion on the surface of guidance arc plate and parabola motion, and researches on the kinematics regularity of the ball mediums.
针对超临速球磨机磨矿介质运动的三个阶段:圆周运动阶段、沿导向板滑落阶段、抛物线冲击矿石阶段,对超临速球磨机磨矿介质运动规律进行了研究,得出了超临速球磨机磨矿介质的运动轨迹方程、对矿石的冲击速度、冲击力公式和冲击次数等。
2.
Based on the industrialization design of URSBM,this paper studies shock characteristic of ball mediums in the URSBM.
在超临速球磨机工业化设计的基础上,对超临速球磨机的磨矿介质冲击特性进行了研究、分析,推导出超临速球磨机磨矿介质钢球的冲击速度和冲击力计算公式。
补充资料:表面磨损
分子式:
CAS号:
性质:两表面接触并作相对运动所产生的微弱摩擦导致了缓慢的材料消耗。根据相对运动的特点,分成滑动磨损,转动磨损,冲击磨损三种。通常认为接触压力较小,表面材料消耗不大的属表面磨损,相反的情况,可归入表面磨耗。
CAS号:
性质:两表面接触并作相对运动所产生的微弱摩擦导致了缓慢的材料消耗。根据相对运动的特点,分成滑动磨损,转动磨损,冲击磨损三种。通常认为接触压力较小,表面材料消耗不大的属表面磨损,相反的情况,可归入表面磨耗。
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