论文信息 - A High Efficiency Force Predicting Method of Multi-axis Machining Propeller Blades

A High Efficiency Force Predicting Method of Multi-axis Machining Propeller Blades

Accurate cutting force prediction is a vital factor to analyze vibration, deformation, and residual stress in the machining. Meanwhile, it provides important reference for feed speed and tool orientation optimization. The problems of predicting accuracy and efficiency of cutting forces are serious especially for the 5-axis machining. Thus a rapid cutting force prediction method based on the classic mechanical model is proposed to calculate the 5-axis machining cutting forces. In the method, the cutting forces are directly calculated by elementary function integral, which can improve the calculating efficiency, compared with discretization and accumulation method. The experiments were conducted to verify the validity of the proposed method. The results show that the proposed method increases efficiency nearly 86 times compared with the z-map method and 20 times compared with the cutter/workpiece engagement boundary method and keeps a good accuracy.

[1] Ismail Lazoglu,et al. Machining of free-form surfaces. Part I: Analytical chip load , 2006 .

[2] Guo Dongming,et al. An Approach to Modeling Cutting Forces in Five-Axis Ball-End Milling of Curved Geometries Based on Tool Motion Analysis , 2010 .

[3] Erdem Ozturk,et al. MODELING OF 5-AXIS MILLING PROCESSES , 2007 .

[4] Yusuf Altintas,et al. Simulation of flank milling processes , 2005 .

[5] Fangyu Peng,et al. Parametric chip thickness model based cutting forces estimation considering cutter runout of five-axis general end milling , 2016 .

[6] Qiang Guo,et al. Numerical simulation and prediction of cutting forces in five-axis milling processes with cutter run-out , 2011 .

[7] Richard E. DeVor,et al. Mechanistic Modeling of the Ball End Milling Process for Multi-Axis Machining of Free-Form Surfaces , 2001 .

[8] Yusuf Altintas,et al. Virtual Five-Axis Flank Milling of Jet Engine Impellers—Part I: Mechanics of Five-Axis Flank Milling , 2008 .

[9] Lutfi Taner Tunc,et al. Modeling and simulation of 5-axis milling processes , 2009 .

[10] Chong Nam Chu,et al. Estimation of cutter deflection and form error in ball-end milling processes , 2003 .

[11] Xinzhi Wang,et al. Mechanistic modeling of five-axis machining with a general end mill considering cutter runout , 2015 .