论文信息 - Optimum Conditions for Variable Pitch Milling

Optimum Conditions for Variable Pitch Milling

From the perspective of regenerative chatter, variable-pitch milling process offers a mathematically very challenging task. It can be reduced to the problem of stability assessment on a linear time-invariant dynamics (LTI) which has more than one independent delays. This mathematically notorious problem is uniquely solved by a recent paradigm. It is called Cluster Treatment of Characteristic Roots (CTCR). This paper presents a process optimization procedure using CTCR over a special milling operation with variable pitch cutters. The optimization is based on maximizing the metal removal rate while avoiding the onset of chatter, which, in turn, enables production of the parts with a desirable surface quality. The end result is a powerful tool to determine some important geometrical and operational features of the process: (i) the pitch angle selection on the tool (i.e., variable pitch cutter vs. uniform pitch cutter), (ii) the optimum cutting conditions (i.e., depth of cut and the spindle speeds).Copyright © 2006 by ASME

Nejat Olgac | Hassan Fazelinia

[1] Nejat Olgac,et al. Degenerate Cases in Using the Direct Method , 2003 .

[2] Nejat Olgaç,et al. Complete stability robustness of third-order LTI multiple time-delay systems , 2005, Autom..

[3] Yusuf Altintas,et al. Analytical Stability Prediction and Design of Variable Pitch Cutters , 1998, Manufacturing Science and Engineering.

[4] Nejat Olgaç,et al. An improved procedure in detecting the stability robustness of systems with uncertain delay , 2006, IEEE Transactions on Automatic Control.

[5] Rifat Sipahi,et al. A Unique Methodology for Chatter Stability Mapping in Simultaneous Machining , 2005 .

[6] Dimitri Breda,et al. Pseudospectral Differencing Methods for Characteristic Roots of Delay Differential Equations , 2005, SIAM J. Sci. Comput..

[7] J. Slavíček,et al. The Effect of Irregular Tooth Pitch on Stability of Milling , 1965 .

[8] Rifat Sipahi,et al. An exact method for the stability analysis of time-delayed linear time-invariant (LTI) systems , 2002, IEEE Trans. Autom. Control..

[9] Nejat Olgaç,et al. A unique methodology for the stability robustness of multiple time delay systems , 2006, Syst. Control. Lett..

[10] Rifat Sipahi,et al. Chatter Stability Mapping for Simultaneous Machining , 2005 .