Exact size and high cutting speed.
尺寸精准,切割速度高。
The software adopts continuous curve method to get faster cutting speed.
软件采用连续曲线算法,切割速度更快。
Thee three factors of cutting include cutting speed, feed and the depth of cut.
切削用量三要素包括切削速度、进给量和(或叫吃刀量)。
Cutting speed only in the surface roughness not required when it is not important.
切削速度只有在对表面粗糙度不做要求的时候才不重要。
By optimizing cutting parameters, high quality can be obtained at high cutting speed.
通过切割参数的适当控制,可以在高的切割速度下得到高质量切割面。
Blade performance is a combination of the material being cut, cutting speed and blade life.
刀片的性能是被切断的材料组合,切割速度和刀片的生活。
Increase of cutting ability or slowing down of cutting speed can reduce the kind of lag error.
增加切割能力或减缓切割速度即可减少这种滞后误差。
On the premise of cutting quality guarantee, should as far as possible the cutting speed increase.
在保证切割质量的前提下,应尽可能的提高切割速度。
The results show that there is a critical cutting speed to decided the cutting forces information.
实验结果表明切削速度对切削力的作用存在一个临界值。
The relationships between the cutting speed and a incised workpiece of intension, thickness are analyzed.
通过试验,分析了被切割工件强度和厚度与切割速度之间的关系。
If not suitable cutting speed, its effect instead, and will make the viscous slag, cutting quality decreased.
若切割速度不合适,其效果相反,而且会使粘渣增加,切割质量下降。
And that cutting speed and material hardness are two main influential factors that determine chip deformation.
切削速度和材料硬度是决定切屑变形的两个主要影响因素。
In addition, too much cutting speed and big nozzle height can cause and the increase of the poor incision width.
另外,过大的切割速度和过大的喷嘴高度都会引起切口上下宽度差的增加。
The selection of the correct cutting speed has an important bearing on the economics of all metal cutting operations.
正确的选择切削速度对所有金属的切割操作成本都有有很大的影响。
The selection of the correct cutting speed has an important bearing on the economics of all metal cutting operations.
选择正确的切削速度对所有金属的切削操作有着重要的经济上的影响。
The research indicates it is impossible that cutting speed is improved decuple in accordance with present cutting theory.
多年研究表明,利用现有的切削理论,已经无法再成十倍的提高切削速度。
As the cutting speed increases, the ribbon chips transform into the sawtooth chips when a critical cutting speed is reached.
随着切削速度的提高,当切削速度达到某一临界切削速度时,带状屑转变为锯齿形切屑。
The article studies the influence of cutting speed to the cutting force in the foundation of high speed cutting experimentation.
本文在高速车削的试验基础上,研究高速车削时切削速度对切削力的影响。
This allows the user to adjust the cutting speed optimally for the working conditions and material for less waste and more control.
这就使得用户可根据工作条件优化地调整切割速度,浪费很少的物料达到更好的控制。
Under the conditions of permission of glass processing quality, the high cutting speed and suitable external load should be selected.
在玻璃加工质量允许的条件下,玻璃制品孔加工宜选择高的切削速度、适当的外加载荷。
In order to guarantee the machining surface quality, numerical control lathe generally has constant surface cutting speed control function.
为了保证加工表面质量,数控车床一般都具有恒表面切削速度控制功能。
The minimum cutting force appears in a cutting speed range, the cutting speed is better in this range for the cutting performance improvement.
在较高切削速度时,存在一段使切削力最小的范围,切削时切削速度应尽量选在这段范围内,改善切削效果。
The results show that continuous chip is formed under relatively lower cutting speed, while serrated chip is formed under higher cutting speed.
结果表明,较低切削速度下形成连续带状切屑,而高速切削时形成锯齿形切屑。
If in the enthalpy increases, reduce the diameter of the jet and increase the gas flow, can often gain faster cutting speed and better cutting quality.
如果在焓值提高的同时,减小射流的直径并加大气体的流速,往往可以获得更快的切割速度和更好的切割质量。
Therefore, cutting the purity of oxygen, volume, velocity, and oxygen flow shape on the gas cutting quality and cutting speed has important implications.
因此,切割氧的纯度、流量、流速和氧流形状对气割质量和切割速度有重要的影响。
The clamping claw with high hardness, and intermittent cutting, so that when the cutting depth and cutting amount is small, the cutting speed is not too high.
因卡爪硬度较高,又系断续切削,所以修正时切削深度和走刀量要小,切削速度也不宜太高。
It is shown that the diamonds with coatings can enhance the service life of the sawblade and obtain a maximum cutting speed at lower concentration of diamonds.
结果表明:金刚石镀膜不仅能够提高锯片的切割寿命,而且可以在降低金刚石浓度的情况下达到最大切割速度。
Theoretical analysis and experimental results all indicate that cutting depth is increasing with the decreasing of cutting speed and increasing of laser power.
理论分析和试验结果表明切割深度随着切割速度的减小而增加,随着激光功率的增加而增大。
Theoretical analysis and experimental results all indicate that cutting depth is increasing with the decreasing of cutting speed and increasing of laser power.
理论分析和试验结果表明切割深度随着切割速度的减小而增加,随着激光功率的增加而增大。
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