FEM modeling of induction hardening processes in steel |
| |
Authors: | J. Yuan,J. Kang,Y. Rong,R. D. Sisson Suffix" >Jr. |
| |
Affiliation: | (1) Department of Mechanical Engineering, Worcester Polytechnic Institute, 01609 Worcester, MA |
| |
Abstract: | A modeling system for analyzing the integrated induction hardening processes was developed based on a general-purpose finite element program, with the capability to analyze the whole process from electromagnetic-induced thermal heating to final hardening. A coupled electromagnetic-thermal model was applied to study the induction heating process, which includes consideration of nonlinear material characteristics on temperature. Also, arrangement of AC current density distribution was conducted to simulate practical induction coil structure and magnetic concentrator effects to achieve desired heating patterns for later quenching and hardening analysis. Quenching analysis can provide cooling curve at any location in a heat-treated workpiece based on heat transfer principles. In hardening analysis, phase transformation was studied and an algorithm was developed to determine volumetric content of micro-structural constituents formed from austenitized phase in quenching process, based on analysis of the interaction between cooling curve and material time-temperature-transformation (TTT) diagram. Finally, hardness value was converted from martensite content based on a developed formulation. Validation was preliminary conducted based on comparison of hardening pattern of induction hardening of an automotive spindle with complex surface. |
| |
Keywords: | electromagnetic-thermal analysis FEM modeling induction hardening phase transformation quenching analysis |
本文献已被 SpringerLink 等数据库收录! |
|