Tool Errors Compensation in Precision and Ultra-Precision Milling Based on the Least-Square Method

机译：基于最小二乘法的精密和超精密铣削刀具误差补偿

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The CNC milling machine is extensively used in manufacturing of the die and the box-type parts. However, the tool errors, which caused by the cutting heat and the cutting force, seriously affect the machining accuracy of the machined parts. Furthermore, the tool errors are too complex to be calculated by the empirical formula. To solve this problem, a tool error compensation method is proposed in this paper. The least-square method is employed to structure the error model. A weighting coefficient is proposed to adapt the various working conditions. The macro program is used to realize the real-time error compensation. Using the tool error compensation method, the maximum tool error is reduced from 0.053 mm to 0.005 mm. The error is compensated by 90.5% compared with no compensation.

机译：CNC铣床广泛用于模具和箱式零件的制造。然而，由切割热量和切割力引起的刀具误差严重影响加工部件的加工精度。此外，刀具误差太复杂，无法通过经验公式计算。为了解决这个问题，本文提出了一种工具错误补偿方法。采用最小二乘法来构建误差模型。提出了一种加权系数来适应各种工作条件。宏程序用于实现实时误差补偿。使用工具误差补偿方法，最大刀具误差减少0.053 mm至0.005 mm。与无补偿相比，误差由90.5％补偿。

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《International Conference on Advanced Engineering Materials and Technology》|2011年||共4页
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作者
Kaiguo Fan; Jianguo Yang; Liyan Yang;
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原文格式 PDF
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中图分类 TB3-532;
关键词
Tool Error; Compensation; Least Square; CNC Milling;

机译：工具错误;补偿;最小的方形;CNC铣削;

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机译：超精密光栅铣削中主轴倾斜误差识别与补偿的新方法
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4. Tool Errors Compensation in Precision and Ultra-Precision Milling Based on the Least-Square Method [C] . Kaiguo Fan, Jianguo Yang, Liyan Yang International Conference on Advanced Engineering Materials and Technology . 2011

机译：基于最小二乘法的精密和超精密铣削刀具误差补偿
5. Minimum error tool path generation method and an interpolator design technique for ultra-precision multiaxis CNC machining [D] . Liang, Hong 1999

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7. A novel spindle inclination error identification and compensation method in ultra-precision raster milling [O] . Zhang G, To S, Xiao G 2014

机译：超精密光栅铣削中主轴倾斜误差识别与补偿的新方法

Tool Errors Compensation in Precision and Ultra-Precision Milling Based on the Least-Square Method

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