The surface roughness in mill machining relates to quiver of work piece, principal axis's eccentricity, cutter abrasion, cutter distortion and other physical or geometry factors.

铣削加工表面粗糙度的形成与铣刀和工件振动、主轴偏心、刀具磨损、刀具变形等物理和几何因素有关。

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A method is presented by using computational geometry techniques to determine optimal tool position and orientation for 5-axis machining with torus end-mill.

应用计算几何技术来决定优化的刀具定位和刀具姿态以实现环形刀的5轴自由曲面数控加工。

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A method is presented by using computational geometry techniques to determine optimal tool position and orientation for 5-axis machining with torus end-mill.

应用计算几何技术来决定优化的刀具定位和刀具姿态以实现环形刀的5轴自由曲面数控加工。

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