Title :
Finite element modelling of giant magnetostriction in thin films
Author :
Benbouzid, Mohamed El Hachemi ; Body, Christophe ; Reyne, Gilbert ; Meunier, Gérard
Author_Institution :
Lab. des Syst. Autom., Picardie Univ., Amiens, France
fDate :
11/1/1995 12:00:00 AM
Abstract :
This paper describes a nonlinear model of giant magnetostriction in thin films by a finite element scheme for magnetostatic cases. Given a thin film structure, the magnetic field is first computed. Magnetic induction over elements is then used to compute the magnetoelastic energy. The minimization of the mechanical functional leads to the determination of displacement, strain, etc., due to the magnetostriction process. However, giant magnetostriction is characterized by a strong magneto-mechanical coupling. The model takes it into account by the use of the experimental data through the surface spline method and an iterative process of successive magnetic and mechanical computations
Keywords :
electromagnetic induction; finite element analysis; iterative methods; magnetic fields; magnetic thin films; magnetoelastic effects; magnetostatic waves; magnetostriction; minimisation; splines (mathematics); finite element modelling; giant magnetostriction; iterative process; magnetic field; magnetic induction; magnetoelastic energy; magnetostatic cases; mechanical functional; minimization; nonlinear model; strong magneto-mechanical coupling; surface spline method; thin films; Couplings; Equations; Finite element methods; Magnetic field induced strain; Magnetic films; Magnetostatics; Magnetostriction; Spline; Stress; Transistors;
Journal_Title :
Magnetics, IEEE Transactions on
