62 research outputs found
HIGH-CYCLE FATIGUE BEHAVIOUR OF SPHEROIDAL GRAPHITE CAST IRON
International audienc
Chaos in free electron laser oscillators
The chaotic nature of a storage-ring Free Electron Laser (FEL) is
investigated. The derivation of a low embedding dimension for the dynamics
allows the low-dimensionality of this complex system to be observed, whereas
its unpredictability is demonstrated, in some ranges of parameters, by a
positive Lyapounov exponent. The route to chaos is then explored by tuning a
single control parameter, and a period-doubling cascade is evidenced, as well
as intermittence.Comment: Accepted in EPJ
Phénomènes de localisation à la frontière d’un solide. (Localization phenomena at the boundary of solids)
International audienc
A multiscale model for magneto-elastic couplings
At the macroscopic scale two different phenomena illustrate the couplings between the elastic and magnetic behaviours of ferromagnetic materials : first, magnetisation induces a deformation mechanism called magnetostriction, and, second, stresses have an effect on the magnetic behaviour. The complexity of the non-linear relations between these phenomena is such that few realistic macroscopic constitutive equations have been proposed to model the coupled magneto-elastic behaviour of magnetic materials. Magnetisation and magnetostriction are macroscopic manifestations of the complex magnetic domain structure that is modified by applied mechanic and magnetic loads. Herein, it is proposed to use homogenisation methods to deduce the macroscopic behaviour of single crystals and polycrystals from a statistical description of the magnetic domain structure. Therefore, the macroscopic couplings naturally arise from the expression of the free energy written at the level of the magnetic domains
Identification of frequency effect on magnetic hysteresis and modelling with an internal variables model
In this paper, the first magnetisation response experimentally observed on 0.5 nim thick sheets made of a non-oriented silicon-iron alloy is given for different magnetic loading frequencies from 0.05 to 500 Hz. An internal variable magnetic hysteresis model is identified from the quasi-static response (from 0.05 to about 5 Hz). This model is used for finite element analyses performed to predict the electro-magnetic response of the material at higher frequencies. The comparison between the results of these structural analyses and the experimental results proves that in this case the macroscopic eddy currents are sufficient to explain the total frequency effect on the magnetic hysteresis measurements
Influence of the texture of soft magnetic materials on their magneto-elastic behaviour
Magnetisation and magnetostriction are macroscopic manifestations of a complex magnetic doinain structure that is modified by applied mechanic and magnetic loads. In the multiscale model used in this paper this doinain structure is statistically described by a set of internal variables that are defined in each grain. This model is used to predict the evolutions of macroscopic state variables that are related to original partitions of the magnetisation and magnetostriction. This approach is used to predict the influence of the crystallographic texture of the material on its magneto-elastic behaviour
Experimental analysis and multiscale modelling of the anisotropic mechanical and magnetostrictive behaviours of electrical steels
Non-Oriented (NO) iron-silicon laminations are commonly used in electrical engineering. Although these
materials are assumed to exhibit a quasi-isotropic behaviour in the sheet plane, some specific coupled properties
such as magnetostriction are very sensitive to a weak crystallographic texture. Magnetostriction is the strain
mechanism that is induced by a magnetic field. This deformation contributes to the noise emitted by electrical
machines. An experimental study of the process-induced anisotropy is presented, for both elastic and
magnetostrictive behaviours. A multi-scale approach is then proposed, taking into account two sources of anisotropy:
the usual cubic anisotropy at the grain scale, and the heterogeneous orientation of the grains (crystallographic
texture) at the macro scale. It is shown that specific surface effects must be taken into account in the description of
the anisotropy of industrial iron-silicon laminations
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