Add to ORKGElectromagnetic force calculation is essential in the analysis and design of any electrical machine. There are two kinds of forces, the magnetization force and the JxB force, which play an important role in the behavior of any electrical machine. This work involves development of finite element code for the calculation of electromagnetic force on a permeable material. Maxwell's Stress Tensor (MST) method has been implemented to calculate the force. This has been used to analyze the forces on an embedded conductor slot of a rotating machine
We present an alternative approach to analytic force computation in permanent-magnet machines, focus...
This master’s thesis is focused on calculation, simulation and experimental verification of electrod...
Finite Element Method has been proved as valuable tool for solving different electromagnetic problem...
Knowledge of forces within permanent magnet synchronous machines (PMSMs) is of interest in numerous ...
The Maxwell stress tensor (MST) method is commonly used to accurately compute the global efforts, su...
International audienceIn this paper the authors show how the Maxwell stress tensor can be used, in p...
The main goal of this work is to investigation of the electromagnetic force in the electromagnetic b...
This paper shows how to model the force density in electrical machines based on the field lines of t...
Today, three net magnetostatic loading force formulations are commonly used for finite-element-based...
A novel mesh-insensitive methodology for magnetic force computation is presented. The force value is...
Team problem 2D is specially challenging to many field theory codes in that it seeks to determine th...
The magnetic field is a fundamental part of an electrical machine, for establishing the torque and i...
Analytical modeling is still a very effective manner to calculate the magnetic fields in permanent m...
Due to speed-dependent centrifugal forces, the support of the torque, static mechanical stress intro...
Many modern advanced electromagnetic devices, e.g. motors and actuators, use permanent magnets as a ...
We present an alternative approach to analytic force computation in permanent-magnet machines, focus...
This master’s thesis is focused on calculation, simulation and experimental verification of electrod...
Finite Element Method has been proved as valuable tool for solving different electromagnetic problem...
Knowledge of forces within permanent magnet synchronous machines (PMSMs) is of interest in numerous ...
The Maxwell stress tensor (MST) method is commonly used to accurately compute the global efforts, su...
International audienceIn this paper the authors show how the Maxwell stress tensor can be used, in p...
The main goal of this work is to investigation of the electromagnetic force in the electromagnetic b...
This paper shows how to model the force density in electrical machines based on the field lines of t...
Today, three net magnetostatic loading force formulations are commonly used for finite-element-based...
A novel mesh-insensitive methodology for magnetic force computation is presented. The force value is...
Team problem 2D is specially challenging to many field theory codes in that it seeks to determine th...
The magnetic field is a fundamental part of an electrical machine, for establishing the torque and i...
Analytical modeling is still a very effective manner to calculate the magnetic fields in permanent m...
Due to speed-dependent centrifugal forces, the support of the torque, static mechanical stress intro...
Many modern advanced electromagnetic devices, e.g. motors and actuators, use permanent magnets as a ...
We present an alternative approach to analytic force computation in permanent-magnet machines, focus...
This master’s thesis is focused on calculation, simulation and experimental verification of electrod...
Finite Element Method has been proved as valuable tool for solving different electromagnetic problem...