Frequency response of a magnetostrictive wire–polymer composite

Abstract: The frequency-dependent magnetostriction of five samples of a ferromagnetic steel wire–polymer composite was investigated from 3 to 70 Hz. The volume fractions, or “loadings,” of steel wires in the samples were 0.02, 0.05, 0.07, 0.10, and 0.20. All samples exhibited a resonance at about 40 Hz, with damping and magnetostriction that generally increases with increased wire loading. A decrease in the overall magnetostriction of the 0.20 loading sample is attributed to mechanical blocking of the wire rotations in … Show more

“…In addition, the magnetostrictive materials used in traditional beam-type MVEHs are often sheet [16] or membrane structures [17], which can lead to poor mechanical properties and cannot withstand large pressures. In recent years, significant progress has been made in the application of magnetostrictive composites and structures [18], such as magnetostrictive fibers, polymers, and so on [19,20]. This may lead to changes in material properties [21,22].…”

Magnetostrictive wires-epoxy resin composite structures for human motion energy harvesting

“…In addition, the magnetostrictive materials used in traditional beam-type MVEHs are often sheet [16] or membrane structures [17], which can lead to poor mechanical properties and cannot withstand large pressures. In recent years, significant progress has been made in the application of magnetostrictive composites and structures [18], such as magnetostrictive fibers, polymers, and so on [19,20]. This may lead to changes in material properties [21,22].…”

Magnetostrictive wires-epoxy resin composite structures for human motion energy harvesting

Photocurrent Frequency Response of TaAs Weyl Semimetal

A magnetostrictive composite exhibiting strains over 0.6