Magnetoelastic anisotropy distribution in glass-coated microwires

1 October 1996

journal article
Published by Springer Nature in Journal of Materials Research

Vol. 11 (10) , 2499-2505
https://doi.org/10.1557/jmr.1996.0315

Abstract

Amorphous microwires, obtained by the glass-coated melt-spinning method having diameters in the range of micrometers, can exhibit perfectly square (single and large Barkhausen jump) or quasi-anhysteretic hysteresis loops, depending on the easy magnetization direction determined by the intrinsic magnetoelastic anisotropy. The thermoelastic internal stressed frozen-in during the fabrication that model the domain structure are here calculated by considering the classical theory of elasticity. A complex stress distribution is obtained having magnitude of 10³ MPa. Circular stresses turn out to be predominant, which arises from the composite nature of the microwire (metallic nucleus and insulating glass coating having different mechanical and thermal properties).

Keywords

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