Magnetostrictive behavior is characterized by a complex coupling between magnetic and mechanical quantities. While this behavior can be quite easily exploited for both actuation and sensing or energy conversion purposes, the complex hysteresis interaction between magnetization and magnetic field and mechanical stress and strain is hard to model. Nevertheless, magnetic and magnetostrictive experimental curves are quite self-similar, assuming stress as self-similarity parameter. The quantification of this concept would help modeling. Here, this concept is quantified and experimentally confirmed over different types of magnetostrictive samples
The magnetostriction in electrical steel under rotational magnetization is usually measured with cro...
In this paper, we propose a method to identify the magnetostrictive behavior of electrical steel she...
A magnetomechanical coupling constitutive relation of the giant magnetostrictive material was invest...
Anhysteretic, coupled, linear and nonlinear constitutive relationship for magnetostrictive material ...
Abstract: Anhysteretic, coupled, linear and nonlinear constitutive relationship for magnetostrictive...
The macroscopic behavior of magnetostrictive materials results from domain evolutions occurring at a...
The macroscopic behavior of magnetostrictive materials results from domain evolutions, often occurri...
We discuss which magnetoelastic material properties are essential to measure in order to model magne...
The magnetostriction effect has been known for over 100 years. The first observation was made by Jou...
It is demonstrated that hysteresis in the magnetostriction k is coupled to hysteresis in the magneti...
The physical concepts magnetostriction and magnetoelasticity are presented. Spontaneous volume magne...
The magnetic material's deformation caused by magnetostriction is represented by an equivalent set o...
A novel theoretical framework for analysis of indentation of magnetostrictives, based upon a linear ...
International audienceMagnetic and mechanical behaviour are strongly coupled: an applied stress modi...
In real electromagnetic devices the non-oriented electrical steel is often subjected to various mech...
The magnetostriction in electrical steel under rotational magnetization is usually measured with cro...
In this paper, we propose a method to identify the magnetostrictive behavior of electrical steel she...
A magnetomechanical coupling constitutive relation of the giant magnetostrictive material was invest...
Anhysteretic, coupled, linear and nonlinear constitutive relationship for magnetostrictive material ...
Abstract: Anhysteretic, coupled, linear and nonlinear constitutive relationship for magnetostrictive...
The macroscopic behavior of magnetostrictive materials results from domain evolutions occurring at a...
The macroscopic behavior of magnetostrictive materials results from domain evolutions, often occurri...
We discuss which magnetoelastic material properties are essential to measure in order to model magne...
The magnetostriction effect has been known for over 100 years. The first observation was made by Jou...
It is demonstrated that hysteresis in the magnetostriction k is coupled to hysteresis in the magneti...
The physical concepts magnetostriction and magnetoelasticity are presented. Spontaneous volume magne...
The magnetic material's deformation caused by magnetostriction is represented by an equivalent set o...
A novel theoretical framework for analysis of indentation of magnetostrictives, based upon a linear ...
International audienceMagnetic and mechanical behaviour are strongly coupled: an applied stress modi...
In real electromagnetic devices the non-oriented electrical steel is often subjected to various mech...
The magnetostriction in electrical steel under rotational magnetization is usually measured with cro...
In this paper, we propose a method to identify the magnetostrictive behavior of electrical steel she...
A magnetomechanical coupling constitutive relation of the giant magnetostrictive material was invest...