Three-Dimensional-Two-Dimensional Coupled Model for Eddy Currents in Laminated Iron Cores. De Gersem, H., Vanaverbeke, S., & Samaey, G. IEEE Transactions on Magnetics, 48(2):815–818, IEEE, February, 2012. doi abstract bibtex Eddy currents due to magnetic flux perpendicular to the sheets of a lamination iron core are represented on a number of 2D slice models, which are embedded in a 3D model of the entire device using a multi-scale technique. The choice of a different spatial resolution enables to attain an advantageous convergence of the discretization error for the eddy-current power losses, compared to a standard modelling technique using an anisotropic surrogate material.
@Article{ De-Gersem_2012aa,
abstract = {Eddy currents due to magnetic flux perpendicular to the sheets of a lamination iron core are represented on a number of 2D slice models, which are embedded in a 3D model of the entire device using a multi-scale technique. The choice of a different spatial resolution enables to attain an advantageous convergence of the discretization error for the eddy-current power losses, compared to a standard modelling technique using an anisotropic surrogate material.},
author = {De Gersem, Herbert and Vanaverbeke, Siegfried and Samaey, Giovanni},
doi = {10.1109/TMAG.2011.2172924},
file = {De-Gersem_2012aa.pdf},
issn = {0018-9464},
journal = {IEEE Transactions on Magnetics},
keywords = {eddy-currents,lamination,2d,3d,fem,maschines},
langid = {english},
month = feb,
number = {2},
pages = {815--818},
publisher = {IEEE},
title = {Three-Dimensional-Two-Dimensional Coupled Model for Eddy Currents in Laminated Iron Cores},
volume = {48},
year = {2012},
shortjournal = {IEEE Trans. Magn.}
}
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