Title of article :
A chatter free calibration method for determining cutter runout and cutting force coefficients in ball-end milling
Author/Authors :
Zhenqiang Yao and Jun Hu، نويسنده , , Xinguang Liang، نويسنده , , Lei Luo، نويسنده , , Jun Hu، نويسنده ,
Issue Information :
روزنامه با شماره پیاپی سال 2013
Abstract :
The accuracy of cutting force coefficients plays an important role in predicting reliable cutting force, stability lobes as well as surface location error in ball-end milling. In order to avoid chatter risk of the traditional calibration test with an entire-ball-immersed cutting depth, a cylindrical surface milling method is proposed to calibrate the cutting force coefficients with the characteristics of low cutting depth and varying lead angle. A dual-cubic-polynomial function is also presented to describe the non-uniform cutting force coefficients of the ball part cutting edge and the nonlinear chip size effect on cutting force. The variation of the maximum chip thickness versus the lead angle is established with the consideration of cutter runout. According to the dependence of chip thickness on lead angle, a runout identification method is introduced by seeking the critical lead angle at which one of the cutter flutes is just thoroughly out of cut. Then, a lumped equivalent method is adopted for the low cutting depth condition so that the dual-cubic-polynomial model can be calibrated for the chip size effect and the cutting force coefficients respectively. The accuracy of the proposed calibration method has been validated experimentally with a series of milling tests. The stability examinations indicate that the proposed method has an evident chatter-free advantage, compared with that of varying cutting depth method.
Keywords :
Ball-end , Cutting force coefficient calibration , Cutter runout , Chatter free , Chip size effect.
Journal title :
Journal of Materials Processing Technology
Journal title :
Journal of Materials Processing Technology