Micromechanical Force Sensor Using the Stress–Impedance Effect of Soft Magnetic FeCuNbSiB

Abstract: By using the stress–impedance (SI) effect of a soft magnetic amorphous FeCuNbSiB alloy, a micromachined force sensor was fabricated and characterized. The alloy was used as a sputtered thin film of 500 nm thickness. To clarify the SI effect in the used material as a thin film, its magnetic and mechanical properties were first investigated. The stress dependence of the magnetic permeability was shown to be caused by the used transducer effect. The sputtered thin film also exhibited a large yield strength of 983… Show more

“…They showed generally much higher gauge factors than devices, using conventional effects (resistive, semiconductor). Beside general investigations as a strain gauge, also more specific applications, such as for structural health monitoring, pressure sensors, or force sensors have been proposed [15,16]. In a recent work, an amorphous FeSiB material was used to demonstrate the application for stress sensor [17].…”

Magneto Elasticity Modeling for Stress Sensors

“…They showed generally much higher gauge factors than devices, using conventional effects (resistive, semiconductor). Beside general investigations as a strain gauge, also more specific applications, such as for structural health monitoring, pressure sensors, or force sensors have been proposed [15,16]. In a recent work, an amorphous FeSiB material was used to demonstrate the application for stress sensor [17].…”

Magneto Elasticity Modeling for Stress Sensors

Stress sensor performance of sputtered Fe-Si-B alloy thin coating under tensile and bending loads