Finite Element Simulation of Cutting Temperature Field during High Speed Machining Hardened Steel Based on ABAQUS
Release Time:2019-03-11 Hits:
Indexed by: Conference Paper
Date of Publication: 2009-10-10
Included Journals: Scopus、CPCI-S、EI
Volume: 3
Page Number: 341-+
Key Words: High Speed Machining; Finite Element Simulation; Hardened Steel; CuttingTemperature
Abstract: A finite element method involving Johnson-Cook material model and fracture criterion was used to simulate the cutting temperature distribution on tool rake face during high speed machining AISI 1045 hardened steel using commercial finite element software ABAQUS which can preferably handle such strongly non-linear problems and allow the definition of complex contact conditions. The simulation shows that the highest temperature region is not at the tool tip but is located at certain distance from tool tip, and the comparion between simulation and experiment shows good consistency. Therefore, this finite flement simulation method presented in this paper can be use to predict the temperature field distribution accurately during high speed machining hardened steel.