Extends tool life, reducing tool sharpening and downtime.
延长刀具寿命,减少停机时间和锐化工具。
The coating is now recognized as one of the key technologies to lengthen tool life.
目前涂层被认为是延长刀具寿命最重要的工艺方法之一。
When cooling by emulsion, tool life is greatly improved, about 3 times of dry cutting.
乳化液冷却下,刀具寿命有很大提高,约为干切条件下的3倍。
To improve a tool life in this case, therefore, the flank notch wear must be depressed to generate.
为了提高刀具耐用度,就必须减小后刀面边界磨损。
The RCI of tool life is obtained by the power signal, the Taylor formula, the database of cutting parameters and cutting time.
刀具寿命相对消耗量是利用功率信号、泰勒公式、切削工艺参数库以及在线获取的实际切削时间来获取的。
Understanding in-depth morphology of carbide and doing good transformation and change are very useful to improve the tool life.
深入了解碳化物的形态,做好转化和转变,对提高刀具寿命非常有益。
In the traditional titanium alloy processing, because both cutting speed and tool life are lower, the cutting efficiency is lower.
在传统的钛合金加工中,由于切削速度低、刀具耐用度低,导致加工效率低。
The breaking rate of improved carbide tool reduced from 15 % to 1.5 % and carbide tool life increased from 60 pieces to 100 pieces.
改进后刀具的折断率由使用初期的15%降低到1.5%,刀具寿命由原来的60件提高到100件。
Enlarging the clearance of gear shaping cutter can improve efficiently its cutting condition, the gear surface quality and tool life.
加大插齿刀后角可以有效改善插齿刀的切削条件,提高齿表面加工质量和延长刀具使用寿命。
Cutting temperature has direct effects on not only tool wear and tool life but also machining accuracy and quality of machined surfaces.
切削温度不仅直接影响刀具的磨损和耐用度,而且也影响工件的加工精度和已加工表面质量。
The cutting experiments show that in cutting of quenched steel the tool life of this cutter is longer than that of uncoated cutting tool.
将氮化碳涂层刀具应用于干切削领域,通过对淬火钢的干式切削试验,研究氮化碳涂层刀具的切削加工性能。
Overall responsible to all Tooling matters to ensure continuous improvement in tool life, scrap, machine capability and good piece uptime.
负责所有模具事项以确保模具寿命,废品率,机加能力以及机床利用率方面的持续改进。
Increasing the diamond concentration by providing more cutting points will make the bond act harder while also increasing diamond tool life.
金刚石浓度增加将提供更多的切入点,同时也使债券的行为越来越难钻石工具生活。
An analysis of the effect of tooth path and optimum clearance Angle on tool life in the up milling and down milling processes is presented.
本文分析了铣削轨迹及合理后角对顺铣与逆铣中刀齿耐用度的影响。
Cutting with magnetic field is enable to make cutting force shrinking, longer tool life, lower cost and machining quality improved obviously.
带磁切削能有效减小切削力,提高刀具耐用度,改善表面加工质量。
Since only a few of the cutting edges are engaged with the workpiece at a time, heavy cuts can be taken without adversely affecting the tool life.
由于同一时间只有部分切削刃切削工件,因此可以在对刀具寿命没有不利影响的情况下承担重型切削。
The Paper Presents a feasible study of modeling on tool life for the failure modes of tool wear and fracture based on methods of catastrophe theory.
介绍了基于突变论的方法建立刀具磨损与破损失效寿命模型的可行性的研究结果。
Instead of sulfide cutting oil, all kinds of metal processing, can reduce the workpiece roughness, extend tool life, cutting efficiency is improved by more than 60%.
可代替硫化切削油,对各种金属加工,可降低工件粗糙度,延长刀具寿命,切削效率提高60%以上。
In the traditional titanium alloy process the cutting efficiency is lower, this is because both cutting speed and tool life are lower and machine power is not enough.
传统的钛合金加工工艺因其切削速度低、刀具耐用度低、机床功率不足的缺陷,导致了加工效率低。
The concept of cutting tool life-cycle management was put forward, and divided it into four phases: planning period, input time, serviceable life and discarding period.
提出了刀具全生命周期管理的概念,将刀具全寿命周期管理划分为计划期、投入期、使用期、报废期四个阶段。
CBN is an ideal tool material for finish and semi_finish turning powder superalloy. It not only ensures the high machining accuracy, but also can obtain longer tool life.
对精车和半精车而言,CBN是车削粉末高温合金的一种理想刀具材料,它不仅可保证高的加工精度,而且可获得长的刀具寿命。
In the traditional titanium alloy process turning efficiency is lower, this because both cutting speed and tool life are lower and process quality controlled is very difficult.
传统的钛合金车削加工因其切削速度低,刀具耐用度低,加工质量难于控制,导致加工效率低。
The experimental results have shown that the modern vibration-free face-milling cutter can not only reduce vibration and noise but also increase the surface finish quality and tool life.
试验结果表明,这种新型减振端铣刀不仅可以减少振动和噪声,而且还可以提高表面加工质量和刀具寿命。
Fortunately, the correct cutting speed can estimated with reasonable accuracy from tool-life graphs or form the Taylor tool life Relationship, provided that necessary data are obtainable.
幸运的是,合适的切削速度可以从刀具寿命表或泰勒刀具寿命关系中以合理的精度评估,证明了必然的数据是可以获得的。
C. unique intelligent processing speed control: can control the processing speed, and truly improve the processing efficiency, director of tool life, improve the rate of finished products.
特有智能加工速度控制:可分别控制加工速度,真正提高加工效率,处长刀具寿命、提高成品率。
High speed, heavy cutting and difficult processing materials in the best assistants, can significantly improve the processing quality, prolong tool life, improve the production efficiency.
是高速、重切削以及难加工材料的最佳助手,可明显提高加工质量,延长刀具寿命,提高生产效率。
By developing an expert system for optimizing high speed hard-milling process, the hard-milling parameters are experimentally investigated for the purpose of enhancing tool life, improvin.
虽然高速硬铣削技术具有很多优点,但刀具寿命仍是主要制约因素之一。
By developing an expert system for optimizing high speed hard-milling process, the hard-milling parameters are experimentally investigated for the purpose of enhancing tool life, improvin.
虽然高速硬铣削技术具有很多优点,但刀具寿命仍是主要制约因素之一。
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