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)。
The conditions which have an important influence on metal cutting are work material, cutting tool material, cutting tool geometry, cutting speed, feed rate, depth of cut and cutting fluid used.
对金属切削有重要影响的条件有工件材料、刀具材料、刀具几何形状、切削速度、进给率、切削深度和所用的切削液。
The results show that the effects on surface roughness are feed speed, depth of cutting , tool rake angle and parts hardness in turn.
结果表明:工件进给速度对表面粗糙度的影响最大,切削深度和刀具前角次之,工件硬度影响最小。
The influence of different cutting speed and feed rate on the roughness of vane's finished surface was investigated and analyzed.
研究分析了不同的切削速度及进给量对叶轮叶片加工的表面粗糙度的影响。
The influence of cutting speed and feed rate on the surface roughness of machined blade was investigated.
研究了切削速度和进给量对加工表面粗糙度的影响。
The experiment showed that the high quality surface roughness was easy to obtain by increasing the cutting speed and decreasing the feed engagement.
高速切削试验表明:切削速度的提高和每齿进给量的减少有利于改善加工表面粗糙度。
The effects of cutting speed and feed on residual stress of workpiece machined should be studied to improve surface quality in machining.
在切削加工中,为了提高已加工工件的表面质量,需要研究切削速度和进给量对已加工工件残余应力的影响规律。
In single factor test, the influencing factor of tools wear was discussed, such as tool material, cooling conditions, cutting depth and feed speed.
以单因素实验法分别考察了刀具材料、冷却条件、切削深度、进给速度等对刀具磨损的影响规律。
High productive machining i. e. machining with faster production cycle is a comprehensive technology, in which increasing cutting speed and feed rate are merely two components.
高速加工即以较快生产节拍进行加工,提高切削和进刀速度是其系统技术中的一个环节。
The primary and secondary factors influence on the efficiency of coarse machinery, which are cutting depth, cutting speed and feed, were studied by applying orthogonal experiment.
将正交试验应用到机械加工中,研究了背吃刀量、切削速度和进给量对粗车工效影响的主次顺序。
Please increase cutting speed and decrease feed ratio.
提高切削速度,降低进给量。
Acording to elastoplasticity FEM, cutting models are created and the residual stress of workpieces machined with different cutting speed and feed are obtained in this article.
根据弹塑性有限元理论,利用有限元软件建立了切削模型,得到了不同切削速度和进给量下已加工工件的残余应力。
In the whole machining process, make the objective optimization function reaches its minimum to solve a series of best cutting speed and feed value.
在整个加工过程中,追求目标优化函数达到极小值,来求解整个过程中一系列最佳的切削速度值与进给量值。
Especially for cutting the material in high speed and feed rate.
尤其是切割速度和进料速度比较高。
Using Taguchi method to optimize the operation about the depth of cut, the spindle speed and the feed rate. Then the optimal cutting parameters can be drawn after analysis.
应用田口法分析主轴转速、背吃刀量和每齿进给量三个可控因素对表面粗糙度的影响,经过分析可以得出最优的参数组合。
Choice of cutting tool, cooling manner and feed path in high speed milling S-136 hardened stainless tool steel were analyzed, based on a S-136 die production.
结合生产,对s- 136淬硬钢高速铣削工艺的刀具选择、冷却方式、进给路线进行了分析。
This paper presents the information of the effect, measured with a tele-strain-meter, of work material, feed, cutting speed, depth of cut, number of teeth and helix Angle etc.
本文在高速滚齿机上,利用遥测应变仪,测定了工件材料,进给量,切削深度,切削速度,齿轮齿数及螺旋角等对力矩的影响,并得出径节为8时的力矩公式。
The feed speed and depth of blade carrier is adjustable, for electrical equipment, adopt PLC as the core, and the feeding, positioning, clamping and cutting (chamfering) can be finished in turns.
刀架的进给速度和深度可调,电器部分采用可编程序控制器“PLC”为核心,送料、定位、卡紧、切断(倒角)可依次完成。
High speed cutting and finish milling with high feed rate.
高速切削且能以高迸给率精铣。
Unequally partitioned flute design prevents vibration and reduces cutting force at slotting. This has led to the high speed and high feed machining.
由于设计了刀刃纵向槽的不等分割,降低了振动和铣槽时可降低切削抵抗。
Thread cutting. When performing thread cutting, the axial feed must be kept at a constant rate, which is dependent upon the rotational speed (RPM) of the workpiece.
在螺纹切削作业时,轴向进给必须保持恒定速率,这取决于工件的转速(rpm)。
Thread cutting. When performing thread cutting, the axial feed must be kept at a constant rate, which is dependent upon the rotational speed (RPM) of the workpiece.
在螺纹切削作业时,轴向进给必须保持恒定速率,这取决于工件的转速(rpm)。
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