In the design of induction heating systems, the prediction of thermal transients is very important. While for classical longitudinal flux configurations, thermal transients are predictable by classical theory formulae, on the contrary the thermal profiles in transverse flux heating have to be evaluated by experimental results on prototypes or by the use of numerical packages. In this paper, a method based on the use of 3D FEM packages for the electromagnetic and thermal design of transverse flux induction heating systems is presented. The method was used for the design of a heating system for the heat treatment of gold metal strip
A parametric analysis of a transverse flux induction heating (TFIH) device has been carried out to e...
In this paper an optimization procedure for the optimal design of a transverse-flux induction heatin...
A new FD method code for the design of rectangular (ferromagnetic and non-) billets induction heatin...
In the design of induction heating systems, the prediction of thermal transients is very important. ...
This paper describes a quasi 3D-FEM electromagnetic and thermal computation of transverse flux induc...
The paper deals with a numerical computation of coupled electromagnetic and temperature fields in tr...
The design of a transverse flux induction heater requires the solution of a coupled electromagnetic ...
International audienceAn increasing number of problems in mechanics and physics involves multiphysic...
Induction heating is used in many industrial applications to heat electrically conductive materials....
The numerical simulation of the induction heating process can be computationally expensive, especial...
In the present paper 2D and 3D FEM simulations of transverse-flux induction heating systems (TFH) ha...
Presents a procedure for the solution of induction heating coupled non-linear electromagnetic and th...
The paper presents developed numerical modelling methodology of induction heating problems of disks ...
The aim of the work is precise coupled electromagnetic-temperature field analysis using the finite e...
Effective numerical models of induction heat treatment are developed. They include two-dimensional m...
A parametric analysis of a transverse flux induction heating (TFIH) device has been carried out to e...
In this paper an optimization procedure for the optimal design of a transverse-flux induction heatin...
A new FD method code for the design of rectangular (ferromagnetic and non-) billets induction heatin...
In the design of induction heating systems, the prediction of thermal transients is very important. ...
This paper describes a quasi 3D-FEM electromagnetic and thermal computation of transverse flux induc...
The paper deals with a numerical computation of coupled electromagnetic and temperature fields in tr...
The design of a transverse flux induction heater requires the solution of a coupled electromagnetic ...
International audienceAn increasing number of problems in mechanics and physics involves multiphysic...
Induction heating is used in many industrial applications to heat electrically conductive materials....
The numerical simulation of the induction heating process can be computationally expensive, especial...
In the present paper 2D and 3D FEM simulations of transverse-flux induction heating systems (TFH) ha...
Presents a procedure for the solution of induction heating coupled non-linear electromagnetic and th...
The paper presents developed numerical modelling methodology of induction heating problems of disks ...
The aim of the work is precise coupled electromagnetic-temperature field analysis using the finite e...
Effective numerical models of induction heat treatment are developed. They include two-dimensional m...
A parametric analysis of a transverse flux induction heating (TFIH) device has been carried out to e...
In this paper an optimization procedure for the optimal design of a transverse-flux induction heatin...
A new FD method code for the design of rectangular (ferromagnetic and non-) billets induction heatin...