Research on Dynamic Cutting Performance of High Speed Face Milling Cutter

Min Li Zheng; Bin Jiang; Jia Liu; Chong Yu He

doi:10.4028/www.scientific.net/KEM.375-376.663

Paper Titles

Design and Simulation of Spring-Driven Lock-Unlock Mechanism for Spaceborne Flexible Appendages
p.643

On the Dynamics of Piezoelectric-Driven Stick-Slip Actuator
p.648

The Effect of Clamping Force on Static and Dynamic Characteristics of Spindle-Tooling System
p.653

Experimental Study of the Ultrahigh Speed Grinding Spindle System with a Squeeze Film Damper
p.658

Research on Dynamic Cutting Performance of High Speed Face Milling Cutter
p.663

Cutter Selection in the Milling of Thin-Web Components Considering the Machining Errors Control
p.667

Experimental Research on Machining Performance of Parallel Machine Tool
p.672

Design of Energy-Controllable Pulse Generator on Micro WEDM
p.677

Design of the Intelligent Turning Tool System with Adjustable Tool Geometry
p.681

HomeKey Engineering MaterialsKey Engineering Materials Vols. 375-376Research on Dynamic Cutting Performance of High...

Research on Dynamic Cutting Performance of High Speed Face Milling Cutter

Abstract:

According to the characteristics of high speed face milling process, the models of dynamic cutting forces and frequency spectrum were established. By means of frequency spectrum analysis for dynamic cutting forces of high speed face milling cutter, the law of influence of cutter’s structure and parameters on dynamic cutting performance of cutter was acquired, high speed face milling cutter for machining aluminum alloy was developed, and evaluation for dynamic cutting performance of cutter was processed based on experiment. The results indicate that more teeth of cutter and greater cutting contact angle can make the energy more dispersible, higher cutting speed and greater rake of cutter can depress dynamic cutting forces, and improve effectively dynamic cutting performance of cutter. High speed face milling cutter with five teeth takes on better dynamic high speed cutting performance for machining aluminum alloy, as cutting contact angle exceeds ninety degrees but it is less than one hundred eighty degrees, and cutting speed exceeds 2260m/min.