Modeling of High-Frequency Induction Heating Surface Cladding Process: Numerical Simulation, Experimental Measurement and Validation

Abstract

A study of experimental measurement and numerical simulation was carried out with respect to 45 steel shaft work piece in the high-frequency induction heating cladding process. Firstly, the model domain boundaries were divided in according to material characteristics. Secondly, the electromagnetic model and the thermal model were built with temperature-dependent material properties and coupled electromagnetic-thermal problem were solved by mean of magneto-quasi-static iteration between electromagnetic and thermal model. Thirdly, the three-dimensional geometry accurate model with regard to high-frequency induction heating cladding process was employed. Lastly, the experimental results of temperature distributions are in agreement with the results calculated using numerical simulation FEM and the maximal relative error was limited in a reasonable range.