Least variation in tool orientation control for 5-axis CNC machining

We address the problem of minimizing the variation of the tool axis orientation of a 5-axis CNC machine equipped with a ball-end cutter that is designed to maintain a constant cutting speed, which is ensured by a fixed angle ψ between the tool axis a(t) and the workpiece surface normal n(t) at each...

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Bibliographic Details
Published in:Computer aided geometric design 2022-06, Vol.96, p.102116, Article 102116
Main Authors: Kwon, Song-Hwa, Han, Chang Yong
Format: Article
Language:English
Subjects:
5-axis CNC machining
Ball-end tool
Calculus of variation
Tool orientation
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Summary:We address the problem of minimizing the variation of the tool axis orientation of a 5-axis CNC machine equipped with a ball-end cutter that is designed to maintain a constant cutting speed, which is ensured by a fixed angle ψ between the tool axis a(t) and the workpiece surface normal n(t) at each point of contact as the cutter moves along a specified toolpath. The configuration can be mathematically translated into a pair of curves a(t) and n(t) on the unit sphere with constant parametric distance ψ, and the least variation of the tool axis orientation is achieved when the overall length of the curve a(t) is minimized under certain auxiliary boundary conditions. Using the calculus of variation we show that the solution a(t) consists of arcs of great circles and offset curves of n(t) on the unit sphere. A numerical approximation scheme based on Euler's method of finite differences is also provided. •Formulates tool orientation control with least variation.•Identifies optimal tool axis movement in terms of arcs of great circles and offset curves on the unit sphere.•Finds approximations using Euler's method of finite differences.
ISSN:0167-8396
1879-2332
DOI:10.1016/j.cagd.2022.102116