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
peer reviewedThis paper deals with the time-domain homogenization of laminated cores in 2D or 3D fin...
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...
In this paper, we compare qualitatively and quan- titatively the performance and validity range of a...
This paper deals with the time-domain homogenization of laminated cores in 2D or 3D finite element (...
The authors present a novel nonlinear homogeniza- tion technique for laminated iron cores in 3D FE m...
This paper deals with a time-domain finite-element homogenization technique for laminated iron cores...
In this paper, we investigate the modeling of ferromagnetic multiscale materials. We propose a compu...
This paper deals with the time-domain homogenization of laminated cores in 2-D or 3-D finite-element...
peer reviewedThis paper deals with the time-domain homogenization of laminated cores in 2-D or 3-D f...
In this paper, a heterogeneous multiscale method (HMM) based technique is applied to model the behav...
Abstract—Homogenization represents a promising method to simulate eddy current losses in laminated i...
In this paper, a heterogeneous multiscale method (HMM) based technique is applied to model the behav...
Electromagnetic fields and eddy currents in thin electrical steel laminations are governed by the la...
peer reviewedElectromagnetic fields and eddy currents in thin electrical steel laminations are gover...
peer reviewedThis paper deals with the time-domain homogenization of laminated cores in 2D or 3D fin...
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...
In this paper, we compare qualitatively and quan- titatively the performance and validity range of a...
This paper deals with the time-domain homogenization of laminated cores in 2D or 3D finite element (...
The authors present a novel nonlinear homogeniza- tion technique for laminated iron cores in 3D FE m...
This paper deals with a time-domain finite-element homogenization technique for laminated iron cores...
In this paper, we investigate the modeling of ferromagnetic multiscale materials. We propose a compu...
This paper deals with the time-domain homogenization of laminated cores in 2-D or 3-D finite-element...
peer reviewedThis paper deals with the time-domain homogenization of laminated cores in 2-D or 3-D f...
In this paper, a heterogeneous multiscale method (HMM) based technique is applied to model the behav...
Abstract—Homogenization represents a promising method to simulate eddy current losses in laminated i...
In this paper, a heterogeneous multiscale method (HMM) based technique is applied to model the behav...
Electromagnetic fields and eddy currents in thin electrical steel laminations are governed by the la...
peer reviewedElectromagnetic fields and eddy currents in thin electrical steel laminations are gover...
peer reviewedThis paper deals with the time-domain homogenization of laminated cores in 2D or 3D fin...
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...
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