Add to ORKGIn this paper we describe the numerical simulations of a Heteropolar Electrodynamic Bearing and compare them with some experimental data taken on a prototype in quasi-static state. The device is composed of a cylindrical permanent magnet rotor and six coils fixed onto the stator. The system has been simulated by means of a dedicated numerical code ("EN4EM" - Electric Network for Electromagnetics), previously developed for research purposes. The software is based on a 3D integral formulation and it is able to numerically simulate coupled multi-degree of freedom electro/mechanical problems. The comparison between computed and measured data are fully satisfactory
A mathematical model of an active electromagnetic bearing which includes the actuator, the sensor an...
As known electrodynamic levitation occurs without active control due to motion induced eddy currents...
Nonideal properties of the electromagnetic actuators in radial active magnetic bearings are studied....
In this paper we describe the numerical simulations of a Heteropolar Electrodynamic Bearing and comp...
A model of passive electrodynamic bearings based on the R–L dynamics of the eddy currents inside a c...
Magnetic bearings allow to support a rotating object without contact. This makes them more suitable ...
Electrodynamic bearings can operate without active control means. In that case, the dynamic behavior...
Magnetic bearings are systems capable of supporting rotors in absence of mechanical contact. Among m...
In this paper, the stability analysis of a new permanent magnets (PMs) bearings is presented and dis...
In this paper we present a new Permanent Magnets (PMs) bearing, which is composed of a rotor capable...
Electrodynamic bearings (EDBs) are passive magnetic bearings that exploit the interaction between ed...
The number of high speed applications is sharply increasing in the last years so that the problem of...
Magnetic bearings constitute a convincing alternative to classical solutions such as ball and journa...
Eddy currents forces may play a significant role in magnetic bearings. They generate losses and ind...
As known electrodynamic levitation occurs without active control due to motion induced eddy current...
A mathematical model of an active electromagnetic bearing which includes the actuator, the sensor an...
As known electrodynamic levitation occurs without active control due to motion induced eddy currents...
Nonideal properties of the electromagnetic actuators in radial active magnetic bearings are studied....
In this paper we describe the numerical simulations of a Heteropolar Electrodynamic Bearing and comp...
A model of passive electrodynamic bearings based on the R–L dynamics of the eddy currents inside a c...
Magnetic bearings allow to support a rotating object without contact. This makes them more suitable ...
Electrodynamic bearings can operate without active control means. In that case, the dynamic behavior...
Magnetic bearings are systems capable of supporting rotors in absence of mechanical contact. Among m...
In this paper, the stability analysis of a new permanent magnets (PMs) bearings is presented and dis...
In this paper we present a new Permanent Magnets (PMs) bearing, which is composed of a rotor capable...
Electrodynamic bearings (EDBs) are passive magnetic bearings that exploit the interaction between ed...
The number of high speed applications is sharply increasing in the last years so that the problem of...
Magnetic bearings constitute a convincing alternative to classical solutions such as ball and journa...
Eddy currents forces may play a significant role in magnetic bearings. They generate losses and ind...
As known electrodynamic levitation occurs without active control due to motion induced eddy current...
A mathematical model of an active electromagnetic bearing which includes the actuator, the sensor an...
As known electrodynamic levitation occurs without active control due to motion induced eddy currents...
Nonideal properties of the electromagnetic actuators in radial active magnetic bearings are studied....