概述了提高凸模耐用度的具体途径。
高品质硬质合金刀片,耐用度和精密度高;
反绒面革和全粒面皮革鞋面,提供良好的耐用度。
列出了高耐用度凸模的主要类型及其采用的条件。
Basic types of high endurance punches along with the conditions are presented.
原装进口硬质合金锯片,加工精度高、耐用度高。
Imported carbide saw blade gives accurate processing and high endurance.
为了提高刀具耐用度,就必须减小后刀面边界磨损。
To improve a tool life in this case, therefore, the flank notch wear must be depressed to generate.
独特的出线包 覆设计,抗拉、耐弯曲,提升耐用度和寿命;
Special line-out design for bending resistance and tensile. it will upgrade the durability and life.
本文提出了一种新的试验估算法——刀具耐用度的短时间试验法。
A new test method which is free from the limitations of the conventional methods is proposed in this paper.
锯切功率消耗低,锯板特殊处理,噪音低,耐用度高,日本进口锯。
Low cutting power consumption, specially treated, low noise, and high durability, imported from Japan.
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。
Cutting with magnetic field is enable to make cutting force shrinking, longer tool life, lower cost and machining quality improved obviously.
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。
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.
试验结果均经生产验证,实践表明可大大地提高生产率和刀具耐用度。
All these experimental results have been checked in practice. It has fully proved that productivity and to...
试验结果均经生产验证,实践表明可大大地提高生产率和刀具耐用度。
All these experimental results have been checked in practice. It has fully proved that productivity and tool lif...
该模具具有结构简单、制造成本低廉、生产效率高、零件耐用度高等特点。
The die's advantages include simple structure, low manufacture costs, high manufacture efficiency, and the parts with high durability.
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。
In the traditional titanium alloy processing, because both cutting speed and tool life are lower, the cutting efficiency is lower.
重量级特制海绵层,有效吸收体重的冲击力及震荡,提升床垫的耐用度及承托力。
A heavy-duty foam layer helps absorb motion and shock from the sleep surface, enhancing firmness and durability.
适用对台阶面沟槽的加工,切削效率和刀具耐用度与高速钢铣刀相比能成倍提高。
Suitable for machining shoulders and slots. Its cutting efficiency and wear resistance is doubled and redoubled than that of HSSmilling cutter.
但是在钢铁合金的耐用度限制下,作为疲劳的结果,它们经受周期压力级别很少失灵。
But steel alloys subjected to cyclic stress levels below their endurance limit rarely fail as a result of fatigue.
研究了凸模形状、结构- 工艺因素、压应力和拉应力对冷挤压凸模耐用度的影响。
This paper studies the influence of both punch shape and constructivetechnological factors as well as the compressive and tensile stresses on the endurance of cold extrusion punches.
通过对钻头进行修磨,选择适当的切削参数,可以提高钻头的耐用度和工件的表面质量。
By means of drill grinding and selection of suitable cutting parameters, the serviceability of drill and surface quality of workpiece are improved.
测试项目主要包括各类消费品的安全、性能、使用方便程度、耐用度以及对环境的影响。
Most products were tested mainly for their safety, performance, convenience, durability and environmental impact.
同样也说意味着通过这样可以得到不同外观,不同密度,不同耐用度以及不同弹性的布料。
That means that it is possible to produce fabrics with different appearances, compactness, durability, elasticity, etc.
提出通过改变配方中的金属粉比例及金刚石的粒度、强度来调节刀头的锋利性和耐用度。
The authors suggest to control the sharpness and duration of the saw blade by alternating the metal bond matrix formula as well as the grit size and strength of the diamond.
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。
Cutting temperature has direct effects on not only tool wear and tool life but also machining accuracy and quality of machined surfaces.
寿命长,耐用度高。使停机次数和生产辅助时间减少,废品率下降,综合经济效益大大提高。
Long life and wear resistant. Longer Availability work time and lower wastrel rate, reduce the overall cost.
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。
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.
国内首创全自动热熔贴合技术,生产出具有高稳定性、赖腐蚀、高粘合度、高耐用度的滚筒刷。
The domestic origination entire automatic hot melt fitting technology, produces has the high stability, depends the corrosion, high sticksproperly, the high abrasive resistance drum brushes.
提出了开发高精度、高耐用度修整单滚道砂轮用滚轮的方法,在实验的基础上得出了可行性结论。
The method to develop high precision and durable idler wheel to dress the single roll wheel is expounded. The experiments are made and the feasibility conclusion is obtained.
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。
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。
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.
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