The design of a transverse flux induction heater requires the solution of a coupled electromagnetic and thermal numerical model. In order to validate a finite element 3D model, where a novel formulation based on edge elements have been used for the electromagnetic solution, some comparisons are presented between experimental temperature distributions and calculated data. The temperature distributions in a stainless steel strip, heated in a laboratory transverse flux inductor prototype, have been measured by means of an infrared camera and compared with the computed temperature field. The results of comparison have demonstrated the reliability of the numerical model
A comprehensive micro-macroscopic model of the continuous hardening of 3d-axisymmetric steel compone...
International audienceWe consider in this paper an induction heatingprocess. A mathematical model is...
Purpose - The purpose of this paper is to present two simulation strategies for tube induction weldi...
This paper describes a quasi 3D-FEM electromagnetic and thermal computation of transverse flux induc...
In the design of induction heating systems, the prediction of thermal transients is very important. ...
In the present paper 2D and 3D FEM simulations of transverse-flux induction heating systems (TFH) ha...
The paper deals with a numerical computation of coupled electromagnetic and temperature fields in tr...
For the design of magnetic shields for induction heating, it is useful to analyse not only the magne...
The numerical simulation of the induction heating process can be computationally expensive, especial...
Induction heating is used in many industrial applications to heat electrically conductive materials....
The aim of the work is precise coupled electromagnetic-temperature field analysis using the finite e...
This paper presents a coupled numerical study of the thermal processes that occur in the vacuum ind...
Presents a procedure for the solution of induction heating coupled non-linear electromagnetic and th...
A novel crossed traveling wave induction heating (C-TWIH) system for heating thin industrial strips ...
AbstractFor solving the problem of inhomogeneous temperature distribution on the surface of the work...
A comprehensive micro-macroscopic model of the continuous hardening of 3d-axisymmetric steel compone...
International audienceWe consider in this paper an induction heatingprocess. A mathematical model is...
Purpose - The purpose of this paper is to present two simulation strategies for tube induction weldi...
This paper describes a quasi 3D-FEM electromagnetic and thermal computation of transverse flux induc...
In the design of induction heating systems, the prediction of thermal transients is very important. ...
In the present paper 2D and 3D FEM simulations of transverse-flux induction heating systems (TFH) ha...
The paper deals with a numerical computation of coupled electromagnetic and temperature fields in tr...
For the design of magnetic shields for induction heating, it is useful to analyse not only the magne...
The numerical simulation of the induction heating process can be computationally expensive, especial...
Induction heating is used in many industrial applications to heat electrically conductive materials....
The aim of the work is precise coupled electromagnetic-temperature field analysis using the finite e...
This paper presents a coupled numerical study of the thermal processes that occur in the vacuum ind...
Presents a procedure for the solution of induction heating coupled non-linear electromagnetic and th...
A novel crossed traveling wave induction heating (C-TWIH) system for heating thin industrial strips ...
AbstractFor solving the problem of inhomogeneous temperature distribution on the surface of the work...
A comprehensive micro-macroscopic model of the continuous hardening of 3d-axisymmetric steel compone...
International audienceWe consider in this paper an induction heatingprocess. A mathematical model is...
Purpose - The purpose of this paper is to present two simulation strategies for tube induction weldi...