Saturation and engineering magnetostriction of an iron-base amorphous alloy for power applications

Abstract

The saturation magnetostriction λ_s of a ferromagnetic material is measured by determining the strain that occurs when the saturation magnetization vector is rotated through 90°. However, the magnetostrictive strain responsible for transformer noise is the net strain measured parallel to the applied field when the material is magnetized from the demagnetized state. Because of its engineering significance, we propose to call this net strain measured parallel to the applied field the engineering magnetostriction λ_e. The value of λ_e depends on the domain structure both in the demagnetized and magnetized states whereas λ_s is an intrinsic property of the material. In the present study, λ_e for an iron‐base amorphous alloy, Metglas 2605S2, is measured as a function of the direction of the field induced anisotropy using a piezoelectric transducer. Although Metglas 2605S2 has a high value of λ_s (∼27×10⁻⁶), the value of λ_e in the longitudinal field annealed condition is found to be nearly zero. The magnitude of λ_e measured on a prototype transformer core is also discussed.