The Forming Mechanism of Surface Defects on Machined Surface in High-Speed Cutting of SiCp/Al Composites

Yang Jun Wang; Ming Qiang Pan; Tao Chen; Li Guo Chen

doi:10.4028/www.scientific.net/KEM.579-580.171

Paper Titles

Preparation and Experimental Study of the Complex Shape Carbide Diamond Coated Tools
p.153

Analysis of Characteristics of Movement and Stress in Centerless Superfinishing
p.158

Grinding Experiments on PTMCs with Vitrified CBN Wheel
p.163

Ultra-Precision Fly Cutting Experimental Study of Semiconductor Laser Heat Sink
p.167

The Forming Mechanism of Surface Defects on Machined Surface in High-Speed Cutting of SiCp/Al Composites
p.171

Research on the Online Test of the Fly Cutting Machine Tool Spindle
p.177

Study of Carbon/Carbon Composite Material Surface Morphology on Ultrasonic Vibration Assisted Milling
p.181

Research on Heat Compensation Control of Giant Magnetostrictive Material in the Micro Feed
p.186

Simulation-Based Analysis of the Gas Bearing Utilizing Traveling Waves
p.192

HomeKey Engineering MaterialsKey Engineering Materials Vols. 579-580The Forming Mechanism of Surface Defects on...

The Forming Mechanism of Surface Defects on Machined Surface in High-Speed Cutting of SiCp/Al Composites

Abstract:

For investigating the machined surface defects in high-speed cutting of SiCp/Al composites. The simulation and experiment of high-speed cutting process is done. The simulation of high-speed cutting process using the Cowper-Symonds model is established to explore the forming mechanism of the machined surface defects. The results show that the machined surface defects include small pit, big pit, groove and the raised particle. The experiment which uses the same cutting parameters with the simulation of FEM (Finite Element Method) model is carried out to verify the results of FEM simulation. The results indicate that the forming mechanism of machined surface defects prove to be true.