Abstract
Linear saturation magnetostrictions λs are reported for (FeNi)80B20 and (FeCo)80B20 glasses. In the former series, λs decreases monotonically from its value at Fe80B20, approaching zero with the magnetization. In the latter series, λs passes through zero at the composition Co75Fe5B20, approximately the same Co/Fe ratio for which λs = 0 in crystalline iron-cobalt alloys, viz. Co92Fe8. Band models which adequately describe the magnetostriction of crystalline Fe-Ni alloys do not appear to apply to Fe-Ni-base or Fe-Co-base glasses. A structure-sensitive, pseudodipolar model accounts well for the sign of λs in crystalline Fe and Co. When generalized to consider non-crystalline alloys, the model suggests that the short-range order of cobalt-rich metallic glasses resembles that their crystalline counterparts. Interpretation of the data in terms of a quantum-statistical-mechanical theory suggests that magnetostriction in Fe- and Ni-rich glasses will be dominated by one mechanism for anisotropic spin correlation and that another mechanism is important in Co-rich glasses.
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O’Handley, R.C. (1977). Magnetostriction of Metallic Glasses. In: Levy, R.A., Hasegawa, R. (eds) Amorphous Magnetism II. Springer, Boston, MA. https://doi.org/10.1007/978-1-4613-4178-9_36
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DOI: https://doi.org/10.1007/978-1-4613-4178-9_36
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