Add to ORKGA finite element homogenization method is proposed for the magetodynamic h-conform finite element forumulation to compute eddy current losses in electrical steel laminations. The lamination stack is served as a source region carrying predefined current density and magnetic flux density distributions presenting the eddy current losses and skin effects in each lamination. In order to solve this problem, the stacked laminations are converted into continuums with which terms are associated for considering the eddy current loops produced by both parallel and perpendicular fluxes. An accurate model of accuracy is developed via an accurate analytical expression of the eddy currents and makes the method adapted to both low and high frequency effect...
A time-domain homogenization technique is developed to take the eddy currents in lamination stacks i...
AbstractA time-domain homogenization technique is developed to take the eddy currents in lamination ...
The authors present a novel time-domain homogenization technique for laminated iron cores in three-d...
Abstract—Homogenization represents a promising method to simulate eddy current losses in laminated i...
Abstract: The simulation of eddy current losses in laminated iron cores by the finite element method...
Purpose - To develop a homogenization technique to directly and efficiently take the eddy current ef...
Purpose – The purpose of this paper is to develop a subproblem finite element method for progressive...
Starting from the well known analytical formula for the eddy current losses in electrical steel lami...
This paper deals with the time-domain homogenization of laminated cores in 2D or 3D finite element (...
This paper deals with the time-domain homogenization of laminated cores in 2-D or 3-D finite-element...
This paper deals with the time-domain homogenization of laminated cores in 2-D or 3-D finite-element...
Electromagnetic fields and eddy currents in thin electrical steel laminations are governed by the la...
peer reviewedThis paper deals with the time-domain homogenization of laminated cores in 2D or 3D fin...
Abstract—The simulation of eddy current losses in laminated iron cores by the finite element method ...
The correct estimation of iron losses is still a challenging task in the numerical analysis of elect...
A time-domain homogenization technique is developed to take the eddy currents in lamination stacks i...
AbstractA time-domain homogenization technique is developed to take the eddy currents in lamination ...
The authors present a novel time-domain homogenization technique for laminated iron cores in three-d...
Abstract—Homogenization represents a promising method to simulate eddy current losses in laminated i...
Abstract: The simulation of eddy current losses in laminated iron cores by the finite element method...
Purpose - To develop a homogenization technique to directly and efficiently take the eddy current ef...
Purpose – The purpose of this paper is to develop a subproblem finite element method for progressive...
Starting from the well known analytical formula for the eddy current losses in electrical steel lami...
This paper deals with the time-domain homogenization of laminated cores in 2D or 3D finite element (...
This paper deals with the time-domain homogenization of laminated cores in 2-D or 3-D finite-element...
This paper deals with the time-domain homogenization of laminated cores in 2-D or 3-D finite-element...
Electromagnetic fields and eddy currents in thin electrical steel laminations are governed by the la...
peer reviewedThis paper deals with the time-domain homogenization of laminated cores in 2D or 3D fin...
Abstract—The simulation of eddy current losses in laminated iron cores by the finite element method ...
The correct estimation of iron losses is still a challenging task in the numerical analysis of elect...
A time-domain homogenization technique is developed to take the eddy currents in lamination stacks i...
AbstractA time-domain homogenization technique is developed to take the eddy currents in lamination ...
The authors present a novel time-domain homogenization technique for laminated iron cores in three-d...