1) micro-end-milling
微细立铣削
2) Micro-milling
微细铣削
1.
Analysis on Surface Topography Generation in Micro-milling;
微细铣削表面形貌形成分析
2.
In this paper,the influence of parameters used in micro-milling process on roughness of aluminum surface machined by a 3 axial miniaturized NC machine developed by ourselves and micro-end-mill(the diameter less than 1mm) is analyzed via a dual-factor design and central composite design.
利用自研的三轴微小型立式数控铣床和微径立铣刀(直径小于1mm),通过双因素及中心复合实验设计的方法,分析微细铣削硬铝LY12过程中的铣削参数(包括每齿进给量、轴向切深、主轴转速、刀具直径以及刀具悬伸量)对工件表面粗糙度的影响,重点探讨了每齿进给量和轴向切深对表面粗糙度的交互影响,并建立了数学模型,为微细铣削工艺参数的选择和表面质量的控制提供了基本依据。
3.
Research productions and development prospects of the micro-milling technology in aspects of surface roughness and burr, cutting force, tool wear, tool life and fabrication ability for micro parts are discussed.
介绍了微径铣刀在制造工艺、刀具性能、刀具材料和涂层技术方面的研究进展;讨论了微细铣削技术在表面粗糙度及毛刺、切削力、刀具磨损及寿命等切削机理以及对微小零件加工能力的研究成果和发展前景。
3) micro milling
微细铣削
1.
With the self-designed 3 axis micro milling machine, the optical cutting parameters are studied and the components are successfully manufactured.
将微细铣削技术应用到了带三维微结构的惯性MEMS器件的加工中。
2.
The related key enabling technology for the process of micro milling is presented based on theoretical analyses.
论述了中间尺度零件微细铣削加工关键使能技术,然后介绍了自行研制的小型精密数控微细铣削系统,其定位精度可达1。
3.
This paper presents an experimental study of cutting forces during micro milling of aluminum alloy 2A12 using two-fluted carbide flat end milling cutters with the diameter of 0.
在自行开发的三轴联动微小型铣床上,对铝合金材料2A12进行了微细铣削力实验。
4) MED Milling
微细电火花铣削
1.
This paper studies the micro electrical discharge milling (MED Milling) technology systematically.
系统地研究了微细电火花铣削的工艺规律 ,提出了超声辅助微细电火花铣削加工技术。
6) section of milling cutter
铣削微元
1.
The effect on the milling force of the cutting thickness is analyzed by means of describing the section of milling cutter.
通过对球 头铣刀铣削微元切削层参数的描述,分析了切削层厚度对球头铣刀主切削力的影响。
补充资料:微细相容安立门
【微细相容安立门】
(术语)(参见:玄门)附录。
(术语)(参见:玄门)附录。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条