This article researched the relationship between balance precision of the grinding wheel and the ground surface roughness.
通过实验,对砂轮平衡精度与磨削加工工件表面粗糙度之间关系作了深入的研究。
In this paper the influence of wheel unbalance on the ground surface roughness is investigated in consideration of the disadvantages of dynamic pressure bearing.
本文从分析动压轴承的弱点出发,着重就砂轮不平衡量对磨削表面粗糙度的影响作了探讨。
Most of the theoretic formulas to calculate the ground surface roughness are based on the geometrically generating interaction between grits and workpiece surface.
大多数计算磨削表面粗糙度的理论公式都是基于砂轮表面磨粒与工件表面的几何创成机理建立的。
Experimental investigations on the influence of both grinding process parameter and turning and dressing on the surface roughness of the ground workpiece are conducted.
本文对磨削工艺参数与砂轮修整轨迹对成形磨削表面粗糙度的影响进行实验研究。
The Influence of three grinding fluids on grinding force, metal material removal rate, surface roughness of ground workpiece, and the extent of grinding bum were investigated in this paper.
本文研究了三种磨削液对磨削力、金属磨除率、表面粗糙度和烧伤程度的影响。
According to the research on wheel structure, the random distribution of grains of wheel is an important factor producing better roughness on ground surface.
在研究砂轮结构的基础上得出砂轮磨粒分布的随机性是磨削加工能产生表面低粗糙度值的重要因素。
Workpiece surface roughness is an important technical index in evaluating the ground quality of belt grinding.
砂带磨削中,表面粗糙度是被磨工件表面质量的一个重要的技术指标。
Workpiece surface roughness is an important technical index in evaluating the ground quality of belt grinding.
砂带磨削中,表面粗糙度是被磨工件表面质量的一个重要的技术指标。
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