研究出减振端铣刀齿间角的一种优化方法。
An optimum method is studied for choosing the blade spacing for vibration-free face-milling cutters in this paper.
并且根据这一理论,给出端铣刀立铣加工平面的计算方法。
According to the theory, a plane machining method by end milling cutter is given.
对不等齿距端铣刀的实质进行了分析,并给出了设计结果。
The substance of this kind of cutter is described and a design result is given at the end of this paper.
被加工平面为大平面,材料为HT250,故刀具选择硬质合金端铣刀。
Is processed the plane is the big plane, the material is HT250, therefore cutting tool choice hard alloy face cutter.
将一种简易的端铣刀铣削力模型改进为动态铣削力模型,并给出了铣削力矩模型。
A simple milling force model for end-milling cutter is improved. The dynamic milling force and moment models are proposed.
介绍了装有硬质合金圆刀片的左右阶梯端铣刀的基本结构,对其几何参数和结构参数作了进一步分析。
The basic structure design of the left and right step face milling cutter with carbide circular inserts is briefly introduced, amplify on the cutter parameter of geometry and structure.
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。
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.
本文叙述了在合理选择铣刀的基础上,对钛合金的端铣切削参数进行了计算机辅助优化设计。
The computer aided optimum design for end milling parameters of Ti-Alloy, based on milling tool selection is dealt with in the paper.
前刀面与后刀面的刃磨加工是球面铣刀加工工艺中最复杂的加工模型,尤其是球面端刃的前后刀面的加工模型,是研究的热点问题。
A spatial model is established firstly for blade curves based on the research of the ball-end milling cutter for machining the complex curved surface.
可刃磨2,3,4,6槽的高速钢铣刀,硬质合金铣刀的端刃和螺旋刃。
Applicable to 2, 3, 4, 6 flutes HSS end mill, carbide end mill, reamer.
可刃磨2,3,4,6槽的高速钢铣刀,硬质合金铣刀的端刃和螺旋刃。
Applicable to 2, 3, 4, 6 flutes HSS end mill, carbide end mill, reamer.
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