S. Sandacci scite author profile

 The effect of tensile stress on magnetoimpedance (MI) in CoMnSiB amorphous wires at microwave frequencies (0.53 GHz) is investigated both experimentally and theoretically. In the presence of the dc bias magnetic field of the order of the anisotropy field, the impedance shows very large and sensitive change when the wire is subjected to a tensile stress: 100% and 60% per 180 MPa for frequencies 500 MHz and 2.5 GHz, respectively. It is demonstrated that this behavior owes mainly to the directional change in the equilibrium magnetization caused by the applied stress and field, which agrees well with the theoretical results for the surface impedance. This stress effect on MI is proposed to use for creating microwave stress-tunable composite materials containing short magnetic wires. The analysis of the dielectric response from such materials shows that depending on the stress level in the material, the dispersion of the effective permittivity can be of a resonant or relaxation type with a considerable change in its values (up to 100% at 600 MPa). This media can be used for structural stress monitoring by microwave contrast imaging. a)

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Valve-like behavior of the magnetoimpedance in the GHz range

Sandacci

Makhnovskiy

Panina

2004

Journal of Magnetism and Magnetic Materials

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Stress-dependent magnetoimpedance in Co-based amorphous wires with induced axial anisotropy for tunable microwave composites

Sandacci¹,

Makhnovskiy

Panina

et al. 2005

IEEE Trans. Magn.

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Off-Diagonal Magnetoimpedance in NiFe–Au–NiFe Layered Film and Its Application to Linear Magnetic Sensors

et al. 2004

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S. Sandacci

Off-Diagonal Impedance in Amorphous Wires and Its Application to Linear Magnetic Sensors

Stress effect on magnetoimpedance in amorphous wires at gigahertz frequencies and application to stress-tunable microwave composite materials

Valve-like behavior of the magnetoimpedance in the GHz range

Stress-dependent magnetoimpedance in Co-based amorphous wires with induced axial anisotropy for tunable microwave composites

Off-Diagonal Magnetoimpedance in NiFe–Au–NiFe Layered Film and Its Application to Linear Magnetic Sensors

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