High-precision estimation and double-loop compensation of contouring errors in five-axis dual-NURBS toolpath following tasks

Five-axis machine tools are commonly adopted in machining of complex parts with sculptured surfaces. However, the contouring error in five-axis dual-NURBS (Non-Uniform Rational B-Spline) toolpath following will be formed due to the existence of servo lag and dynamics mismatch, which is adverse to th...

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Bibliographic Details
Published in:Precision engineering 2018-10, Vol.54, p.243-253
Main Authors: Jia, Zhen-yuan, Song, De-ning, Ma, Jian-wei, Qin, Feng-ze, Wang, Xu-lin
Format: Article
Language:English
Subjects:
Contouring-error estimation
Double-loop compensation
Dual-NURBS toolpath
Five axis contouring error
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Summary:Five-axis machine tools are commonly adopted in machining of complex parts with sculptured surfaces. However, the contouring error in five-axis dual-NURBS (Non-Uniform Rational B-Spline) toolpath following will be formed due to the existence of servo lag and dynamics mismatch, which is adverse to the machining precision. The five-axis contouring error includes coupled tool-tip and tool-orientation errors, which makes it difficult to control. This paper proposes a high-precision five-axis contouring-error estimation algorithm based on the reasonable definition of the five-axis contouring error, followed by a double-loop error compensation method. In order to estimate both the tool-tip and tool-orientation contouring errors accurately, an initial-value regeneration based Newton method is presented for fast and precise approximation of the two error items. Furthermore, a double-loop five-axis contouring error compensation approach, featured an inner-loop predictive compensation and an outer-loop feedback compensation, is provided to control the incoming errors and existing errors simultaneously. From the verification testing results, it can be seen that the proposed error-estimation algorithm possesses an excellent estimation accuracy, and the double-loop compensation method performs better than the existing single-loop compensation approach. •Five-axis tool-tip and tool-orientation contouring errors are estimated both precisely.•A double-loop compensation approach for five-axis contouring errors is proposed.•Advantages of predictive compensation and feedback compensation are combined.•Fulfill the requirement of high-precision and high-speed five-axis contour following.
ISSN:0141-6359
1873-2372
DOI:10.1016/j.precisioneng.2018.06.001