D. Binesti scite author profile

D. Binesti

5Publications

21Citation Statements Received

3Citation Statements Given

How they've been cited

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Affiliations

Territoires, Villes, Environnement & Société, Électricité de France (France)

Publications

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Power losses in thick steel laminations with hysteresis

Appino¹,

Bertotti²,

Bottauscio³

et al. 1996

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Magnetic power losses have been experimentally investigated and theoretically predicted over a range of frequencies ͑direct current-1.5 kHz͒ and peak inductions ͑0.5-1.5 T͒ in 1-mm-thick FeSi 2 wt. % laminations. The direct current hysteresis properties of the system are described by the Preisach model, with the Preisach distribution function reconstructed from the measurement of the recoil magnetization curve ͑B p ϭ1.7 T͒. On this basis, the time behavior of the magnetic induction vs frequency at different lamination depths is calculated by a finite element method numerical solution of Maxwell equations, which takes explicitly into account the Preisach model hysteretic B(H) relationship. The computed loop shapes are, in general, in good agreement with the measured ones. The power loss dependence on frequency is predicted and experimentally found to change from a ϳf 3/2 to a ϳf 2 law with increasing peak induction.

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Core losses and efficiency of electrical motors using new magnetic materials

Binesti

Ducreux

1996

IEEE Trans. Magn.

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Vanadium influence in NdFeBAl melt-spun magnets

Tanguy

Binesti

Degauque

et al. 1996

Journal of Magnetism and Magnetic Materials

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Permanent magnet operating conditions in some electrical machines. Influence of the field intensity and angle

Merle

Yonnet

Diop³

et al. 1995

IEEE Trans. Magn.

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Aimants permanents FeNdB, obtenus à partir de la solidification rapide influencé du vanadium

et al. 1992

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L'influence d'ajouts de vanadium (1; 1,6; 2,1; 2,3 % at) sur les propriétés des matériaux rapidement solidifiés est étudiée ici. Ces additions provoquent une diminution de la température de Curie, tandis que la cristallisation de la phase amorphe contenue dans les rubans est retardée. Pour l'instant aucune évolution microstructurale n'a pu être décelée. La coercitivité des aimants de type I est maximale pour 1 % d'ajout. Pour les aimants de type II et au delà de 1.6 %, l'ajout de vanadium s'accompagne d'un accroissement de la coercitivité et d'une modification des mécanismes d'aimantation

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D. Binesti

Power losses in thick steel laminations with hysteresis

Core losses and efficiency of electrical motors using new magnetic materials

Vanadium influence in NdFeBAl melt-spun magnets

Permanent magnet operating conditions in some electrical machines. Influence of the field intensity and angle

Aimants permanents FeNdB, obtenus à partir de la solidification rapide influencé du vanadium

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