Title :
Three-dimensional rigid-viscoplastic finite element simulation of milling process
Author :
Tan, Yang ; Chi, Yilin ; Huang, Yayu ; Yao, Tingqiang
Author_Institution :
Fac. of Mech. & Electr. Eng., Kunming Univ. of Sci. & Technol., Kunming, China
Abstract :
A three-dimensional thermo-mechanical coupled model of milling process has been developed using the rigid-viscoplastic finite element theory. Three-dimensional milling cutter model with spiral teeth and variational thickness cutting layer model are used in the new FEM model. Adaptive remeshing technique based on error estimate is adopted to control the computation scale and simulate the separation of thin cutting layer. The dynamic variation law of milling force and milling temperature are discussed. Simulation results show that the helix angle have significant effect on the milling force and temperature. At entry of each tooth into workpiece, the variation of temperature of milling cutter is much larger than that at exit, which agrees with the experimental measured results in the literature.
Keywords :
cutting; error statistics; finite element analysis; milling; thermomechanical treatment; viscoplasticity; 3D milling cutter model; 3D rigid-viscoplastic finite element simulation; 3D thermo-mechanical coupled model; adaptive remeshing technique; dynamic variation law; error estimate; helix angle; milling force; milling process; milling temperature; rigid-viscoplastic finite element theory; spiral teeth; thin cutting layer; variational thickness cutting layer model; Adaptive control; Computational modeling; Error correction; Finite element methods; Milling; Programmable control; Spirals; Teeth; Temperature; Thermomechanical processes; adaptive remeshing; error estimate; milling process; rigid-viscoplastic FEM; three-dimensional;
Conference_Titel :
Mechanic Automation and Control Engineering (MACE), 2010 International Conference on
Conference_Location :
Wuhan
Print_ISBN :
978-1-4244-7737-1
DOI :
10.1109/MACE.2010.5535618
