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Material Modeling for Electrical Engineering - Grenoble INP - G2Elab

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UMR 5269
 
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Material Modeling for Electrical Engineering

    • A General model combining Preisach model (hysteresis) and Stoner-Wolfarth model (vectorial aspects)  has been implemented in Flux.

flux hysteresis
Magnetization profile

    • Original hysteresis scalar and vectorial model based an an analogy with chemical reactions  to model ferromagnetic sheets        

Vectorial hysteresis model of a Fe-Ni sheet

    • Dynamic hysteresis in magnetic materials: A general model for taking into account eddy currents due to the movement of magnetic walls has been proposed. It is based on the concept of average fields and allows expressing the local dynamic effects at the macroscopic scale. The model is introduce in the B(H) law through a structural parameter related to the number of magnetic walls. The identification of this parameter, which is depending on B and dB/dt, allows simulating the behaviour of the material very satisfactorily, whatever the excitation.
The team is interested in the representation of  wound conductors using complex homogenized permeability and conductivity tensors for simulating the behavior of high frequency electromagnetic conductors keeping an acceptable degrees of freedom.

pertes tranformateur
High frequency modeling of a transformer

In collaboration with the team MADEA, we develop an activity on the modeling of superconducting devices in two and three dimensions. The superconducting materials are represented by a power law, representative of the behavior in high temperature. The finite element simulation can compute dynamic performances (losses, depreciation) of devices (magnetic bearing, limiter, superconducting cable).
 modélisation 3D supraconducteur

  3D modeling of superconducting cable (European contract BIG-POWA)


 
G2ELAB
Laboratoire de Génie Electrique de Grenoble
Bâtiment GreEn-ER, 21 avenue des martyrs, CS 90624, 38031 Grenoble CEDEX 1, FRANCE

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