Magnetostriction and Inverse Magnetostriction

Magnetostriction is a property of ferromagnetic materials that causes their deformation during the process of magnetization. The structure of such materials is divided into domains, each of which is a region of uniform magnetic polarization. When a magnetic field is applied, the domains rotate causing a change in the material's dimensions. This change in the material's dimensions is due to the anisotropic crystalline structure of the material – it takes more energy to magnetize a crystalline material in one direction than another. For example, the steel used for the thin laminations in transformers is manufactured by passing it through a series of rollers to achieve the desired thickness. Consequently its crystalline structure – and associated magnetic domains – differs along the direction in which it was rolled (the rolling direction) versus the transverse direction.

Magnetostriction – and Inverse Magnetostriction – can be regarded as an energy transduction (or transformation) from magnetic to mechanical and vice-versa. It can also be described as a bidirectional magneto-mechanical coupling between the mechanical and magnetic fields in the magnetostrictive material. It is magnetostriction that causes the low-pitched humming sound that can be heard coming from transformers – caused by the changing magnetic field produced by oscillating AC currents. For detailed information on these properties, refer to Magnetostriction Modeling of Magnetic Materials in the technical notes section.

Magnetostriction/inverse magnetostriction properties can be applied to Maxwell 2D/3D magnetostatic and transient solutions through customizable Magnetostriction and Inverse Magnetostriction material properties.
Maxwell Desktop supplies the magnetostriction and inverse magnetostriction material properties to the Maxwell solver. The solver then calculates force density with magnetostriction force components included.
For Maxwell magnetostatic solutions, if any material used has the Inverse Magnetostriction property defined, Maxwell Desktop saves the initial H field, which is generated by the solver without exterior stress/strain applied, in the project results.
Magnetostriction and inverse magnetostriction are applicable to Maxwell 2D/3D Magnetostatic design one-way and two-way coupling with Ansys Mechanical system.

Note: Inverse magnetostriction for materials having cylindrical and spherical coordinate systems is not supported.

Magnetostriction and Inverse Magnetostriction

Related Topics