Theresult proved, abrasive water jet metal-cutting don't exit heat effect.
试验结果表明,磨料水射流切割无热影响区。
This course is an introduction to basic metal-cutting principles and their practical applications.
本课程介绍基本的金属切削原理及其实务应用。
Metal-cutting circular saw blades have the top-performance coating for metal-cutting circular saw blades .
顶级涂层的金属圆锯片(表面:彩虹色),经过最顶级的涂层处理,具有优异的耐磨性能。
Machining tool operators set up and operate or tend metal-cutting machines designed for repetitive machining work.
加工工具运营商安装和操作或照看专属于重复加工工作的金属切割者。
Physics of metal-cutting provide the theoretical framework by which we must examine all other elements of cutting tool design.
金属切割的物理学提供了理论框架,我们必须借助于这个框架检查切割刀具设计的其他所有要素。
If you can't unscrew the drain flange from the T-connector, use a reciprocating saw with a metal-cutting blade and cut the drain assembly away just above the T-connector.
如果你不能从T型三通处拆掉法兰,可用金属锯片将T型三通上方的部分锯掉。
These facts show the importance of metal cutting in general manufacturing.
这些事实说明了金属切削在常规制造中的重要性。
A number of attempts have been made in understanding the metal cutting process and using this knowledge to help improve manufacturing operations which involved metal cutting.
在了解金属切削过程并运用这些知识帮助改善与金属切削有关的制造作业方面已经做了许多努力。
The metal cutting tool separates chips from the workpiece in order to cut the part to the desired shape and size .
为了要把加工的零件切削成所要求的形状与尺寸,金属切削刀具就要从工件上切除切屑。
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 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。
Metal cutting process is a very complex process. Fig. 7.2 shows the basic material removal operation schematically.
金属切削过程是一个很复杂的过程。图7.2用图的形式显示了基本材料去除作业。
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。
In metal cutting, tools and workparts must have certain relative movements during processing in order to achieve geometry needed. The movements include main movement and feed movement.
金属切削技术是利用各种不同的加工方法去除工件材料,获得最终所需的几何形状。
It is therefore important to understand the metal cutting process in order to make the best use of it.
因此了解金属切削过程以充分利用它是重要的。
As would be seen later, the mechanics of metal cutting are greatly dependent on the shape and size of the chips produced.
如同后面将要看到的那样,金属切削力学极大地依赖于所产生切屑的形状和尺寸。
Can be applied to a variety of metal cutting.
能适用于各种金属的切割。
Shear Angle research is one of the basic problems in metal cutting theory.
剪切角的研究是金属切削理论中的一个基本问题。
Study of chips is one of the most important things in metal cutting.
在金属切削中对切屑的研究是最重要的事情之一。
The metal cutting tool separates chips from the workpiece in order to cut the part to the desired shape and size.
为了要把加工的零件切削成所要求的形状和尺寸,金属切削刀具就要从工件上切除切屑。
The system integrated with metal cutting database and machining simulative system, which realizes the combine of automatic programming and simulation of process.
该系统与金属切削数据库、仿真加工系统相集成,实现了自动编程和加工仿真的一体化。
An useful analysis method for diagnosis of breakdown, vib- rarion and noise in metal cutting machine tools is offered.
为金属切削机床的振动与噪声分析和故障诊断提供了进一步的分析方法。
Cutting fluid is the important related material in metal cutting process.
切削液是金属切削加工中的重要配套材料。
The burr is one of the common phenomena occurring in metal cutting.
毛刺是金属切削加工中产生的常见现象。
Different cutting parameters may have different influences on machining accuracy in metal cutting process.
金属切削过程中,不同的切削参数对零件的加工精度影响是不同的。
Using metal cutting experiment to find the better economy cutting parameter is recounted.
叙述了利用金属切削试验寻求数控机床经济切削参数的研究。
At the same time suitable for metal cutting, grinding processing.
可同时适于金属切削、磨削加工。
By constructing a metal cutting model using slip-line field theory, chip curling radii are predicted theoretically in orthogonal cutting processes.
通过采用滑移线场理论,建立了一种正交切削模型,使用这一模型,从理论上预测了切屑卷曲半径。
By constructing a metal cutting model using slip-line field theory, chip curling radii are predicted theoretically in orthogonal cutting processes.
通过采用滑移线场理论,建立了一种正交切削模型,使用这一模型,从理论上预测了切屑卷曲半径。
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