论文信息 - Modeling of process geometry in peripheral milling of curved surfaces

Modeling of process geometry in peripheral milling of curved surfaces

Abstract This paper presents an approach for modeling of the process geometry in peripheral milling of curved surfaces. The modeled process geometry involves feed direction, equivalent feedrate and cutter entry/exit angle. The equivalent feedrate, which is defined at the centroid of cutting cross-section, is proposed to measure the actual machining feedrate. The milling process of curved surface is discretized at intervals of feed per tooth for describing the variation of process geometry. The mathematical models for calculating the process geometry of each segmented cutting process are presented. Two same curved surfaces are machined. The tool paths are carried out with NURBS interpolation and traditional consecutive small line segments interpolation, respectively. The simulated and measured results are presented for the verification of the proposed method.

[1] Steven Y. Liang,et al. Cutting Force Analysis in Transient State Milling Processes , 1999 .

[2] A. Zghal,et al. Chip thickness analysis for different tool motions for adaptive feed rate , 2008 .

[3] P. V. M. Rao,et al. Modelling of tooth trajectory and process geometry in peripheral milling of curved surfaces , 2005 .

[4] William H. Press,et al. Numerical recipes in C. The art of scientific computing , 1987 .

[5] Li Zheng,et al. Prediction of cutting forces in milling of circular corner profiles , 2004 .

[6] Zhaowei Zhong,et al. Prediction of cutting forces along Pythagorean-hodograph curves , 2009 .

[7] Steven Y. Liang,et al. Chip Load Kinematics in Milling With Radial Cutter Runout , 1996 .

[8] K. A. Desai,et al. Process geometry modeling with cutter runout for milling of curved surfaces , 2009 .

[9] Dong-Woo Cho,et al. Off-line feed rate scheduling using virtual CNC based on an evaluation of cutting performance , 2003, Comput. Aided Des..

[10] Yusuf Altintas,et al. Virtual cutting and optimization of three-axis milling processes , 2008 .

[11] Yusuf Altintas,et al. Prediction of Milling Force Coefficients From Orthogonal Cutting Data , 1996 .

[12] Kui Liu,et al. A new method for determining the undeformed chip thickness in milling , 2001 .

[13] John W. Sutherland,et al. An Improved Method for Cutting Force and Surface Error Prediction in Flexible End Milling Systems , 1986 .