THESIS 8066Moderm permanent magnetic materials provide unique design opportunities as their low susceptibility makes them effectively transparent to external magnetic fields. This also simplifies the calculation of magnetic fields in devices incorporating them. We have developed two software programs to simulate the magnetic field from arrays of such permanent magnets. The first is based on the magnetic charge model, and the second uses a magnetostatic finite element method
This dissertation investigates the determination of magnetostatic fields in permanent-magnet motors....
The subject of magnetostatics - the mathematical theory that describes the forces and fields resulti...
Abstract. The development of advanced magnetic materials such as magnetic sen-sors, recording heads,...
Multiscale simulation is a key research tool in the quest for new permanent magnets. Starting with f...
Covers the practical numerical method for the analysis and design of magnets Extensively covers th...
ABSTRACT Multiscale simulation is a key research tool for the quest for new permanent magnets. Start...
In a world where money often is the main controlling factor, everything that can be tends to be more...
Diese Arbeit umfasst die Entwicklung einer Simulationssoftware in Matlab für Magnetfelder von Perman...
A three-dimensional finite element (FE) MVP (magnetic vector potential) formulation for electromagne...
Permanent magnets are increasingly being used as a result of the wider adoption of electrical device...
For high-accuracy applications, accurate electromagnetic modeling tools are required. One commonly u...
Magnetic nanostructures are vital components of numerous existing and prospective magnetic devices, ...
Computer based simulation software having a basis in numerical methods play a major role in research...
Many modern advanced electromagnetic devices, e.g. motors and actuators, use permanent magnets as a ...
Analytical methods for the calculation of the magnetic field such as the surface charge method offer...
This dissertation investigates the determination of magnetostatic fields in permanent-magnet motors....
The subject of magnetostatics - the mathematical theory that describes the forces and fields resulti...
Abstract. The development of advanced magnetic materials such as magnetic sen-sors, recording heads,...
Multiscale simulation is a key research tool in the quest for new permanent magnets. Starting with f...
Covers the practical numerical method for the analysis and design of magnets Extensively covers th...
ABSTRACT Multiscale simulation is a key research tool for the quest for new permanent magnets. Start...
In a world where money often is the main controlling factor, everything that can be tends to be more...
Diese Arbeit umfasst die Entwicklung einer Simulationssoftware in Matlab für Magnetfelder von Perman...
A three-dimensional finite element (FE) MVP (magnetic vector potential) formulation for electromagne...
Permanent magnets are increasingly being used as a result of the wider adoption of electrical device...
For high-accuracy applications, accurate electromagnetic modeling tools are required. One commonly u...
Magnetic nanostructures are vital components of numerous existing and prospective magnetic devices, ...
Computer based simulation software having a basis in numerical methods play a major role in research...
Many modern advanced electromagnetic devices, e.g. motors and actuators, use permanent magnets as a ...
Analytical methods for the calculation of the magnetic field such as the surface charge method offer...
This dissertation investigates the determination of magnetostatic fields in permanent-magnet motors....
The subject of magnetostatics - the mathematical theory that describes the forces and fields resulti...
Abstract. The development of advanced magnetic materials such as magnetic sen-sors, recording heads,...