Influencia de anisotropia induzida e magnetostrição na magnetoimpedancia e em sua relaxação em fitas amorfas de FeCoSiB

AUTOR(ES)

Kleber Roberto Pirota

DATA DE PUBLICAÇÃO

1998

RESUMO

Giant Magnetoimpedance (GMI) is a term coined to describe large and sensitive field induced changes in the high frequency impedance of soft magnetic materials. Since its recent discovery, GMI has attracted much attenction owing to the enormous perspectives in technological aplications, mainly as magnetic field sensors. The basic mechanism responsible for the GMI phenomenon is the change of the magnetic penetration depth through field induced modifications of the transversal permeability. Another interesting effect that has been recently discovered in amorphous samples is the slow relaxation of the impedance after a sudden change of the domain configuration. This effect, known as Magnetoimpedance Aftereffect (MJAE), has important technical implications because the impedance takes few seconds to achieve a stable value, following a quasi-logarithmic kinetics. This effect seems to be connected with the relaxation of the initial magnetic permeability (disaccommodation). This work presents results of GMJ effect and its relaxation in amorphous ribbons of composition (FexCo1-x)7OSi12B18 whith x values close to 0.057, before and after a thermal annealing consisting of 1 h pre-annealing at 360°C followed by 1 h stress-annealing at 340°C whith applied tensile stress of 400 MPa. The influence of saturation magnetostricton constant ls and anisotropy induced by this particular annealing was studied on GMJ and MJAE effects. It was verified that the shape of the impedance vs. applied field curves results to be extremely sensitive to the induced anisotropies, and that the MIAE effect was drastically suppressed after annealing. The results of MlAE obtained from 100 kHz frequency of driving current are aplained using the existent disaccommodation models, while in the case of 900 kHz dissipatives mechanisms were considered

ASSUNTO(S)

substancias amorfas anisotropia impedancia (eletricidade)

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