论文信息 - Comparison of Modeling Methods to Determine Cutting Tool Profile for Conventional and Synchronized Whirling

Comparison of Modeling Methods to Determine Cutting Tool Profile for Conventional and Synchronized Whirling

Abstract The determination of cutting tool profiles for machining operations with coupled rotational kinematics like gear and screw generation can be a complex task which is executed by either numerical or analytical methods. The cutting tool profile for whirling is derived from process parameters and desired workpiece geometry by both a numerical dexel-based model and an analytical model based on the condition of tangential motion. The models are adapted to a process variant of whirling with synchronized rotation of tool and workpiece and compared regarding accuracy, computation time and geometrical flexibility.

[1] Myung-Soo Kim,et al. Polygonal boundary approximation for a 2D general sweep based on envelope and boolean operations , 2000, The Visual Computer.

[2] David B. Dooner,et al. Kinematic Geometry of Gearing , 2012 .

[3] Paolo Pennacchi,et al. Determination of Tool Profile for the Milling of Three-Screw Pump Rotor , 1997 .

[4] Ming C. Leu,et al. The sweep-envelope differential equation algorithm and its application to NC machining verification , 1997, Comput. Aided Des..

[5] M. S. Shunmugam,et al. Simulation of whirling process and tool profiling for machining of worms , 2007 .