This paper presents a design optimization of an axial-flux eddy-current magnetic coupling. The design procedure is based on a torque formula derived from a 3D analytical model and a population algorithm method. The main objective of this paper is to determine the best design in terms of magnets volume in order to transmit a torque between two movers, while ensuring a low slip speed and a good efficiency. The torque formula is very accurate and computationally efficient, and is valid for any slip speed values. Nevertheless, in order to solve more realistic problems, and then, take into account the thermal effects on the torque value, a thermal model based on convection heat transfer coefficients is also established and used in the design opt...
International audienceWe propose a simple, but efficient method for design problems. Instead of usin...
This article proposes an analytic coupled magneto-thermal analysis of an axial-flux (AF) permanent-m...
This paper presents finite elements method (FEM) model of magnetic coupling for design optimization ...
International audienceIn this paper, design optimization of an axial flux reluctance magnetic coupli...
The 229 papers in this special issue are extended versions of papers presented at the thirteenth bie...
Rotational permanent magnet eddy current couplers are promising devices for torque and speed transmi...
International audienceThe purpose of this paper is to use a new rational approach for the design of ...
This paper concerns the optimization of rotational eddy current couplers, by using a genetic multiob...
Magnetic couplings are of great interest in many industrial applications. They can transmit a torque...
An analytical model of an axial flux permanent magnet machine has been made. The model were based on...
International audienceThis paper deals with a device which is particularly relevant to test 3D quasi...
An analytical model of an axial flux permanent magnet machine has been made. The model were based on...
International audienceThis paper deals with a device which is particularly relevant to test 3D quasi...
A novel coil design for permanent magnet axial flux machines is presented. An analysis of its perfor...
Magnetic couplings are of great interest in many industrial applications. They can transmit a torque...
International audienceWe propose a simple, but efficient method for design problems. Instead of usin...
This article proposes an analytic coupled magneto-thermal analysis of an axial-flux (AF) permanent-m...
This paper presents finite elements method (FEM) model of magnetic coupling for design optimization ...
International audienceIn this paper, design optimization of an axial flux reluctance magnetic coupli...
The 229 papers in this special issue are extended versions of papers presented at the thirteenth bie...
Rotational permanent magnet eddy current couplers are promising devices for torque and speed transmi...
International audienceThe purpose of this paper is to use a new rational approach for the design of ...
This paper concerns the optimization of rotational eddy current couplers, by using a genetic multiob...
Magnetic couplings are of great interest in many industrial applications. They can transmit a torque...
An analytical model of an axial flux permanent magnet machine has been made. The model were based on...
International audienceThis paper deals with a device which is particularly relevant to test 3D quasi...
An analytical model of an axial flux permanent magnet machine has been made. The model were based on...
International audienceThis paper deals with a device which is particularly relevant to test 3D quasi...
A novel coil design for permanent magnet axial flux machines is presented. An analysis of its perfor...
Magnetic couplings are of great interest in many industrial applications. They can transmit a torque...
International audienceWe propose a simple, but efficient method for design problems. Instead of usin...
This article proposes an analytic coupled magneto-thermal analysis of an axial-flux (AF) permanent-m...
This paper presents finite elements method (FEM) model of magnetic coupling for design optimization ...