A new magnetic pole is designed and proposed for the transverse flux induction heating (TFIH) device, since the TFIH device with the original magnetic pole has the deficiencies of uneven temperature distribution on the strip surface at the outlet of the heater and large magnetic resistance of the alternating magnetic field through the magnetic circuit. Using the magnetic–thermal coupling calculation method proposed in this paper, the eddy current field and temperature field of the TFIH device with the original and new magnetic poles are calculated and analyzed under the same excitation. At the same time, the temperature distribution on the strip surface of the TFIH device with the new magnetic pole is calculated under different excitation p...
The planar induction heating possesses more difficulties in industry application compared with tradi...
A new induction heating device is presented in this paper. This device can convert mechanical energy...
For the design of magnetic shields for induction heating, it is useful to analyse not only the magne...
AbstractFor solving the problem of inhomogeneous temperature distribution on the surface of the work...
A parametric analysis of a transverse flux induction heating (TFIH) device has been carried out to e...
A novel crossed traveling wave induction heating (C-TWIH) system for heating thin industrial strips ...
A procedure for the optimal design of a transverse flux induction heating (TFIH) device is presented...
The paper focuses on synthesizing the supply frequencies of the two coils of a transverse fl...
The transverse flux heating (TFH) concept offers very high electrical efficiency in combination with...
A new traveling wave induction heating system with distributed windings and vernier structure (DV-TW...
In this paper an optimization procedure for the optimal design of a transverse-flux induction heatin...
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...
Abstract Rapid and homogeneous heating in heat treatment has been a challenging engineering issue th...
As a new non-contact heating technology, induction heating technology has very broad application pro...
The planar induction heating possesses more difficulties in industry application compared with tradi...
A new induction heating device is presented in this paper. This device can convert mechanical energy...
For the design of magnetic shields for induction heating, it is useful to analyse not only the magne...
AbstractFor solving the problem of inhomogeneous temperature distribution on the surface of the work...
A parametric analysis of a transverse flux induction heating (TFIH) device has been carried out to e...
A novel crossed traveling wave induction heating (C-TWIH) system for heating thin industrial strips ...
A procedure for the optimal design of a transverse flux induction heating (TFIH) device is presented...
The paper focuses on synthesizing the supply frequencies of the two coils of a transverse fl...
The transverse flux heating (TFH) concept offers very high electrical efficiency in combination with...
A new traveling wave induction heating system with distributed windings and vernier structure (DV-TW...
In this paper an optimization procedure for the optimal design of a transverse-flux induction heatin...
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...
Abstract Rapid and homogeneous heating in heat treatment has been a challenging engineering issue th...
As a new non-contact heating technology, induction heating technology has very broad application pro...
The planar induction heating possesses more difficulties in industry application compared with tradi...
A new induction heating device is presented in this paper. This device can convert mechanical energy...
For the design of magnetic shields for induction heating, it is useful to analyse not only the magne...