...切角; 切屑变形; 刀具磨损 [gap=922]Key words: self-rotary cutting tool; cutting velocity; shear angle; chip deformation; tool wear ...
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Surface roughness of work-piece and chip deformation are studied on the basis of single-factor and multi-factor experiment, which can reflect the changes of milling forces and temperature.
最后,通过单因素和多因素实验研究了材料加工后的表面粗糙度和加工过程中的切屑变形。
参考来源 - 高速铣削机理研究·2,447,543篇论文数据,部分数据来源于NoteExpress
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。
And that cutting speed and material hardness are two main influential factors that determine chip deformation.
从切屑变形力与摩擦力两方面分析了切向磨削力与法向磨削力的比值,大体上应在0.2~0.59范围内。
We have also analysed the ratio between tangential forces and normol forces with respect to both chip formation forces and friction forces. The ratio generally falls within the range of 0.2~0.59.
钛合金的切屑变形从低速起就是一种典型的集中剪切滑移,这种集中剪切滑移在高速切削大部分难加工材料时是一种普遍现象。
The chip deformation of titanium alloys is typical shear localization from low cutting speed, which is general phenomenon in machining of difficult to cut material at high cutting speed.
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