Add to ORKGA complete passive magnetic bearing system, consisting in a Permanent Magnet radial bearing and a Superconductive Magnetic Bearing has been simulated and constructed. The forces in both types of magnetic bearings are not linear. The non-linear behavior has been implemented in a FEM model and compared with linear models. A spin down test has been conducted to the built system and the Eigen frequencies have been recorded. The Eigen frequencies calculated with and without the non-linear behavior implemented in the model are very similar
1noIn this paper we apply the physical mathematical model described in Part I [1]. The study shows i...
Dynamic properties of a rotor supported on two passive magnetic bearings are investigated by means o...
Magnetic bearings are electromechanical systems. From a mechanical point of view, their modeling is ...
A complete passive magnetic bearing system, consisting in a Permanent Magnet radial bearing and a Su...
The dynamic properties of rotor supported on passive magnetic bearingsis investigated by means of nu...
In this paper we illustrate an analytical numerical model of passive magnetic bearings with axial ma...
Electro-dynamic passive magnetic bearings are now viewed as a feasible option when looking for suppo...
The ambient-temperature passive magnetic bearing system developed at the Lawrence Livermore National...
Passively magnetically stabilized degrees of freedom yield the benefit of reduced complexity and the...
Research has been underway at the Lawrence Livermore National Laboratory to build a theoretical and ...
Copyright © 2008 by SAGE PublicationsMagnetic bearings use magnetic forces to support various machin...
The basic analysis of radial bearings properties including nonlinear characteristics are presented. ...
At present, the stiffness and damping identification for active magnetic bearings (AMBs) are still i...
In this paper the analysis of the static and dynamic behavior of a non-hysteretic superconductive pa...
This article describes high fidelity modeling of electromag-netic (EM) bearings with permanent magne...
1noIn this paper we apply the physical mathematical model described in Part I [1]. The study shows i...
Dynamic properties of a rotor supported on two passive magnetic bearings are investigated by means o...
Magnetic bearings are electromechanical systems. From a mechanical point of view, their modeling is ...
A complete passive magnetic bearing system, consisting in a Permanent Magnet radial bearing and a Su...
The dynamic properties of rotor supported on passive magnetic bearingsis investigated by means of nu...
In this paper we illustrate an analytical numerical model of passive magnetic bearings with axial ma...
Electro-dynamic passive magnetic bearings are now viewed as a feasible option when looking for suppo...
The ambient-temperature passive magnetic bearing system developed at the Lawrence Livermore National...
Passively magnetically stabilized degrees of freedom yield the benefit of reduced complexity and the...
Research has been underway at the Lawrence Livermore National Laboratory to build a theoretical and ...
Copyright © 2008 by SAGE PublicationsMagnetic bearings use magnetic forces to support various machin...
The basic analysis of radial bearings properties including nonlinear characteristics are presented. ...
At present, the stiffness and damping identification for active magnetic bearings (AMBs) are still i...
In this paper the analysis of the static and dynamic behavior of a non-hysteretic superconductive pa...
This article describes high fidelity modeling of electromag-netic (EM) bearings with permanent magne...
1noIn this paper we apply the physical mathematical model described in Part I [1]. The study shows i...
Dynamic properties of a rotor supported on two passive magnetic bearings are investigated by means o...
Magnetic bearings are electromechanical systems. From a mechanical point of view, their modeling is ...