Add to ORKGThis paper presents an analytical method of modelling eddy currents inside axial bearings. The problem is solved by dividing an axial bearing into elementary geometric forms, solving the Maxwell equations for these simplified geometries, defining boundary conditions and combining the geometries. The final result is an analytical solution for the flux, from which the impedance and the force of an axial bearing can be derived. Several impedance measurements have shown that the analytical solution can fit the measured data with a precision of approximately 5%
The electromagnetic bearings are the result of the modern control technique. Utilizing this principl...
1noIn this paper we apply the physical mathematical model described in Part I [1]. The study shows i...
International audienceThis paper deals with a device which is particularly relevant to test 3D quasi...
A multiple magnet bearing can be developed from N individual electromagnets. The constitutive relati...
Magnetic bearings are often designed using magnetic circuit theory. When these bearings are built, h...
In the rotating electrical machines, active magnetic bearing are basically performing the same role ...
Eddy currents forces may play a significant role in magnetic bearings. They generate losses and ind...
This paper describes a new VLSI-based controller for the implementation of a Linear-Quadratic-Gaussi...
Magnetic bearings are often designed using magnetic circuit\ud theory. When these bearings are built...
Nonideal properties of the electromagnetic actuators in radial active magnetic bearings are studied....
This article concerns the modeling and design of a slitted stator core for single-sided axial-flux p...
International audienceThis paper deals with a device which is particularly relevant to test 3D quasi...
Magnetic field and eddy currents in a cylinder of finite length are calculated by separation of vari...
Thesis (M.Ing.)--North-West University, Potchefstroom Campus, 2004.In this dissertation, the author ...
The paper presents a numerical model of the novel design of the axial magnetic bearing with six cyli...
The electromagnetic bearings are the result of the modern control technique. Utilizing this principl...
1noIn this paper we apply the physical mathematical model described in Part I [1]. The study shows i...
International audienceThis paper deals with a device which is particularly relevant to test 3D quasi...
A multiple magnet bearing can be developed from N individual electromagnets. The constitutive relati...
Magnetic bearings are often designed using magnetic circuit theory. When these bearings are built, h...
In the rotating electrical machines, active magnetic bearing are basically performing the same role ...
Eddy currents forces may play a significant role in magnetic bearings. They generate losses and ind...
This paper describes a new VLSI-based controller for the implementation of a Linear-Quadratic-Gaussi...
Magnetic bearings are often designed using magnetic circuit\ud theory. When these bearings are built...
Nonideal properties of the electromagnetic actuators in radial active magnetic bearings are studied....
This article concerns the modeling and design of a slitted stator core for single-sided axial-flux p...
International audienceThis paper deals with a device which is particularly relevant to test 3D quasi...
Magnetic field and eddy currents in a cylinder of finite length are calculated by separation of vari...
Thesis (M.Ing.)--North-West University, Potchefstroom Campus, 2004.In this dissertation, the author ...
The paper presents a numerical model of the novel design of the axial magnetic bearing with six cyli...
The electromagnetic bearings are the result of the modern control technique. Utilizing this principl...
1noIn this paper we apply the physical mathematical model described in Part I [1]. The study shows i...
International audienceThis paper deals with a device which is particularly relevant to test 3D quasi...