Add to ORKGEddy current effects are the base of electrodynamic bearings principle. The unique characteristic of electrodynamic bearings (EDB) of producing positive stiffness by passive means has made them an interesting topic of research in the last decades. Despite the promising characteristics of this type of bearings, rotors supported by EDBs are affected by different types of instabilities that must be taken into account. The paper presents a study of the dynamic behaviour of axial and radial electrody-namic suspensions for rotors, shedding light onto certain aspects of these systems that have not been illuminated in previous studies
As known electrodynamic levitation occurs without active control due to motion induced eddy current...
Electrodynamic bearings can ensure contactless levitation of rotors at room temperature solely relyi...
Safety bearings are used as a back-up system for the rotor-systems that use active magnet bearings f...
Eddy current effects are the base of electrodynamic bearings principle. They arise when a conductor ...
Electrodynamic suspension exploits repulsive forces due to eddy currents to produce positive stiffne...
A new model of electrodynamic bearings is presented in this paper. The model takes into account the ...
Electrodynamic bearings exploit repulsive forces due to eddy currents to produce positive stiffness ...
The number of high speed applications is sharply increasing in the last years so that the problem of...
In the paper dynamic investigations on the automotive turbocharger rotor-shaft supported on the elec...
Electrodynamic thrust bearings (EDTBs) provide contactless rotor axial suspension through electromag...
As known electrodynamic levitation occurs without active control due to motion induced eddy currents...
Eddy currents forces may play a significant role in magnetic bearings. They generate losses and ind...
Electrodynamic bearings can provide stable and contactless levitation of rotors while operating at r...
A model of passive electrodynamic bearings based on the R-L dynamics of the eddy currents inside a c...
Homopolar radial electrodynamic bearings (EDBs) are one type of passive magnetic bearing that exploi...
As known electrodynamic levitation occurs without active control due to motion induced eddy current...
Electrodynamic bearings can ensure contactless levitation of rotors at room temperature solely relyi...
Safety bearings are used as a back-up system for the rotor-systems that use active magnet bearings f...
Eddy current effects are the base of electrodynamic bearings principle. They arise when a conductor ...
Electrodynamic suspension exploits repulsive forces due to eddy currents to produce positive stiffne...
A new model of electrodynamic bearings is presented in this paper. The model takes into account the ...
Electrodynamic bearings exploit repulsive forces due to eddy currents to produce positive stiffness ...
The number of high speed applications is sharply increasing in the last years so that the problem of...
In the paper dynamic investigations on the automotive turbocharger rotor-shaft supported on the elec...
Electrodynamic thrust bearings (EDTBs) provide contactless rotor axial suspension through electromag...
As known electrodynamic levitation occurs without active control due to motion induced eddy currents...
Eddy currents forces may play a significant role in magnetic bearings. They generate losses and ind...
Electrodynamic bearings can provide stable and contactless levitation of rotors while operating at r...
A model of passive electrodynamic bearings based on the R-L dynamics of the eddy currents inside a c...
Homopolar radial electrodynamic bearings (EDBs) are one type of passive magnetic bearing that exploi...
As known electrodynamic levitation occurs without active control due to motion induced eddy current...
Electrodynamic bearings can ensure contactless levitation of rotors at room temperature solely relyi...
Safety bearings are used as a back-up system for the rotor-systems that use active magnet bearings f...