Influence of the magnetic permeability on modeling of induction surface hardening

Author:

Barglik Jerzy,Smalcerz Albert

Abstract

Purpose Modeling of induction surface hardening strongly depends on accuracy of material properties data and their temperature characteristics. However, it is especially complicated in case of the magnetic permeability dependent not only on temperature but also on the magnetic strength. This paper aims to estimate the influence of the magnetic permeability on modeling of coupled physical fields describing the process. Investigations are provided for the gear wheels made of the steel C45E. Design/methodology/approach Computation of coupled electromagnetic temperature and hardness fields is based on FEM methods. The Flux 3D software is applied for the numerical simulation of coupled electromagnetic and temperature fields. The QT Steel software is applied for a determination of the hardness and microstructure distributions. Findings Obtained results may be used as a kind of background for the design of induction surface hardening systems. Research limitations/implications The presented calculation model provided quite a good accuracy of hardness distribution validated by the experiments. Next work in the field should be aimed at taking into account a dependence of the magnetic permeability on the field current frequency. Originality/value Mathematical model of induction surface hardening with taking into account time dependence on the magnetic permeability on temperature and magnetic strength is elaborated. Experimental validation of hardness distribution is provided. A quite reasonable convergence between simulations and measurements was achieved.

Publisher

Emerald

Subject

Applied Mathematics,Electrical and Electronic Engineering,Computational Theory and Mathematics,Computer Science Applications

Reference9 articles.

1. Mathematical modelling of induction surface hardening;COMPEL – The International Journal for Computation and Mathematics in Electrical and Electronic Engineering,2016

2. 3D modeling of induction hardening of gear wheels;Journal of Computational and Applied Mathematics,2014

3. Simulation of fast induction surface heating and comparison with experimental full-field surface temperature measurements,2013

4. Flux 10 2D/3D applications;Flux 10 2D/3D Applications;User Guide,2007

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