Eddy current modeling in linear and nonlinear multifilamentary composite materials

Eddy current modeling in linear and nonlinear multifilamentary composite materials

In this work, a numerical model is developed for a rapid computation of eddy currents in composite materials, adaptable for both carbon fiber reinforced polymers (CFRPs) for NDT applications and multifilamentary high temperature superconductive (HTS) tapes for AC loss evaluation. The proposed model...

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Main Authors: Menana Hocine, Farhat Mohamad, Hinaje Melika, Berger Kevin, Douine Bruno, Lévêque Jean
Format: Article
Language:English
Published: De Gruyter 2018-04-01
Series:Open Physics
Subjects:
eddy current
multifilamentary composite materials
anisotropy
nolinearity
numerical modeling
85.25.am
84.71.mn
74.25.n-
02.60.cb
02.70.bf
Online Access:https://doi.org/10.1515/phys-2018-0026
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spelling doaj-acd988b1e42e45138f49dcf0f6fe5a422021-09-05T13:59:35ZengDe GruyterOpen Physics2391-54712018-04-0116118318710.1515/phys-2018-0026phys-2018-0026Eddy current modeling in linear and nonlinear multifilamentary composite materialsMenana Hocine0Farhat Mohamad1Hinaje Melika2Berger Kevin3Douine Bruno4Lévêque Jean5Group of Research in Electrical Engineering of Nancy (GREEN), University of Lorraine Vandoeuvre-Lès-Nancy, Nancy, FranceGroup of Research in Electrical Engineering of Nancy (GREEN), University of Lorraine Vandoeuvre-Lès-Nancy, Nancy, FranceGroup of Research in Electrical Engineering of Nancy (GREEN), University of Lorraine Vandoeuvre-Lès-Nancy, Nancy, FranceGroup of Research in Electrical Engineering of Nancy (GREEN), University of Lorraine Vandoeuvre-Lès-Nancy, Nancy, FranceGroup of Research in Electrical Engineering of Nancy (GREEN), University of Lorraine Vandoeuvre-Lès-Nancy, Nancy, FranceGroup of Research in Electrical Engineering of Nancy (GREEN), University of Lorraine Vandoeuvre-Lès-Nancy, Nancy, FranceIn this work, a numerical model is developed for a rapid computation of eddy currents in composite materials, adaptable for both carbon fiber reinforced polymers (CFRPs) for NDT applications and multifilamentary high temperature superconductive (HTS) tapes for AC loss evaluation. The proposed model is based on an integro-differential formulation in terms of the electric vector potential in the frequency domain. The high anisotropy and the nonlinearity of the considered materials are easily handled in the frequency domain.https://doi.org/10.1515/phys-2018-0026eddy currentmultifilamentary composite materialsanisotropynolinearitynumerical modeling85.25.am84.71.mn74.25.n-02.60.cb02.70.bf
collection DOAJ
language English
format Article
sources DOAJ
author Menana Hocine
Farhat Mohamad
Hinaje Melika
Berger Kevin
Douine Bruno
Lévêque Jean
spellingShingle Menana Hocine
Farhat Mohamad
Hinaje Melika
Berger Kevin
Douine Bruno
Lévêque Jean
Eddy current modeling in linear and nonlinear multifilamentary composite materials
Open Physics
eddy current
multifilamentary composite materials
anisotropy
nolinearity
numerical modeling
85.25.am
84.71.mn
74.25.n-
02.60.cb
02.70.bf
author_facet Menana Hocine
Farhat Mohamad
Hinaje Melika
Berger Kevin
Douine Bruno
Lévêque Jean
author_sort Menana Hocine
title Eddy current modeling in linear and nonlinear multifilamentary composite materials
title_short Eddy current modeling in linear and nonlinear multifilamentary composite materials
title_full Eddy current modeling in linear and nonlinear multifilamentary composite materials
title_fullStr Eddy current modeling in linear and nonlinear multifilamentary composite materials
title_full_unstemmed Eddy current modeling in linear and nonlinear multifilamentary composite materials
title_sort eddy current modeling in linear and nonlinear multifilamentary composite materials
publisher De Gruyter
series Open Physics
issn 2391-5471
publishDate 2018-04-01
description In this work, a numerical model is developed for a rapid computation of eddy currents in composite materials, adaptable for both carbon fiber reinforced polymers (CFRPs) for NDT applications and multifilamentary high temperature superconductive (HTS) tapes for AC loss evaluation. The proposed model is based on an integro-differential formulation in terms of the electric vector potential in the frequency domain. The high anisotropy and the nonlinearity of the considered materials are easily handled in the frequency domain.
topic eddy current
multifilamentary composite materials
anisotropy
nolinearity
numerical modeling
85.25.am
84.71.mn
74.25.n-
02.60.cb
02.70.bf
url https://doi.org/10.1515/phys-2018-0026
work_keys_str_mv AT menanahocine eddycurrentmodelinginlinearandnonlinearmultifilamentarycompositematerials
AT farhatmohamad eddycurrentmodelinginlinearandnonlinearmultifilamentarycompositematerials
AT hinajemelika eddycurrentmodelinginlinearandnonlinearmultifilamentarycompositematerials
AT bergerkevin eddycurrentmodelinginlinearandnonlinearmultifilamentarycompositematerials
AT douinebruno eddycurrentmodelinginlinearandnonlinearmultifilamentarycompositematerials
AT levequejean eddycurrentmodelinginlinearandnonlinearmultifilamentarycompositematerials
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