Capacitance bridge measurements of magnetostriction

Abstract: Magnetostriction effects were investigated for three different materials by using a simple, reproducible, and cost-effective method recently developed in our laboratory. The magnetostriction effects were generated by a large oscillating magnetic field produced by a high current 60 Hz ac welder power supply, capable of reaching saturation levels for the material, and then detected by a change in capacitance between a hollow cylindrical sample and a concentric brass ring. This capacitance change was continuously… Show more

“…Hitherto, several basic methods are available to measure the deformation of conventional ferromagnetic samples subjected to external magnetic fields: strain gauges [25,26] and optical [27,28] and capacitive [29,30] methods. The use of a particular method of strain measurements depends on the expected magnitude of the magnetostrictive effect, the temperature range, and the shape and size of the specimens.…”

Giant Extensional Strain of Magnetoactive Elastomeric Cylinders in Uniform Magnetic Fields

“…Hitherto, several basic methods are available to measure the deformation of conventional ferromagnetic samples subjected to external magnetic fields: strain gauges [25,26] and optical [27,28] and capacitive [29,30] methods. The use of a particular method of strain measurements depends on the expected magnitude of the magnetostrictive effect, the temperature range, and the shape and size of the specimens.…”

Giant Extensional Strain of Magnetoactive Elastomeric Cylinders in Uniform Magnetic Fields

“…A similar experimental method was developed by Boley et al [34], with the aim of being sufficiently accurate to rank different ferromagnetic materials according to their magnetostriction properties. This is a significant consideration in producing effective magnetoelastic torque sensors.…”

An overview of magnetostriction, its use and methods to measure these properties

Magnetostrictive Materials