In this paper, we compare qualitatively and quan- titatively the performance and validity range of a so-called one-step homogenization technique with those of a multiscale computational homogenization method when applied to model a laminated iron core accounting for eddy currents and magnetic hysteresis. The analysis includes both global and local field quantities.status: publishe
In this paper, we investigate the modeling of ferromagnetic multiscale materials. We propose a compu...
In this paper, we investigate the modeling of ferromagnetic multiscale materials. We propose a compu...
This paper presents 2D and 3D homogenization techniques for laminated iron cores in the frequency do...
In this paper, we compare qualitatively and quan- titatively the performance and validity range of a...
Abstract—Homogenization represents a promising method to simulate eddy current losses in laminated i...
The authors present a novel nonlinear homogenization technique for laminated iron cores in three-dim...
This paper deals with the time-domain homogenization of laminated cores in 2D or 3D finite element (...
peer reviewedThis paper deals with the time-domain homogenization of laminated cores in 2-D or 3-D f...
The authors present a novel nonlinear homogenization technique for laminated iron cores in three-dim...
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...
In this paper, we investigate the modeling of ferromagnetic multiscale materials. We propose a compu...
International audienceThis paper presents two homogenization methods for laminated iron cores in the...
In this paper, we investigate the modeling of ferromagnetic multiscale materials. We propose a compu...
In this paper, we investigate the modeling of ferromagnetic multiscale materials. We propose a compu...
This paper presents 2D and 3D homogenization techniques for laminated iron cores in the frequency do...
In this paper, we compare qualitatively and quan- titatively the performance and validity range of a...
Abstract—Homogenization represents a promising method to simulate eddy current losses in laminated i...
The authors present a novel nonlinear homogenization technique for laminated iron cores in three-dim...
This paper deals with the time-domain homogenization of laminated cores in 2D or 3D finite element (...
peer reviewedThis paper deals with the time-domain homogenization of laminated cores in 2-D or 3-D f...
The authors present a novel nonlinear homogenization technique for laminated iron cores in three-dim...
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...
In this paper, we investigate the modeling of ferromagnetic multiscale materials. We propose a compu...
International audienceThis paper presents two homogenization methods for laminated iron cores in the...
In this paper, we investigate the modeling of ferromagnetic multiscale materials. We propose a compu...
In this paper, we investigate the modeling of ferromagnetic multiscale materials. We propose a compu...
This paper presents 2D and 3D homogenization techniques for laminated iron cores in the frequency do...