AbstractThis paper is concerned with a macroscopic nonlinear constitutive law for magnetostrictive alloys and ferroelectric ceramics. It accounts for the hysteresis effects which occur in the considered class of materials. The uniaxial model is thermodynamically motivated and based on the definition of a specific free energy function and a switching criterion. Furthermore, an additive split of the strains and the magnetic or electric field strength into a reversible and an irreversible part is suggested. Analog to plasticity, the irreversible quantities serve as internal variables. A one-to-one-relation between the two internal variables provides conservation of volume for the irreversible strains. The material model is able to approximate ...
You In the absence of an electric field a mathematical model describing the ferroelastic response of...
AbstractA new approach for modeling hysteretic non-linear ferroelectric ceramics is presented, based...
A magneto-elastic model is presented to calculate the orientation dependence of the magnetostrictive...
AbstractThis paper is concerned with a macroscopic nonlinear constitutive law for magnetostrictive a...
ABSTRACT: The focus of this paper is to investigate the nonlinear behavior exhibited by ferroelectri...
Based on the thermodynamic theory, by introducing the Weiss molecular field and considering current ...
*Author to whom correspondence should be addressed. ABSTRACT: In this paper, we present a nonlinear ...
AbstractThis paper is concerned with a macroscopic constitutive law for domain switching effects, wh...
ABSTRACT: The hysteresis phenomena of ferroelectric–ferroelastic materials in polarization procedure...
The purpose of the paper is to establish a constitutive model for the hysteretic properties in ferro...
The ferroelectric materials have been used in several piezoelectric sensors and actuators applicatio...
This progress report presents a thermodynamically and microscopically motivated constitutive model f...
4 Title: Mathematical modeling of magnetostrictive materials Author: Lukáš Vermach Department: Mathe...
ABSTRACT: We develop a model that quantifies constitutive nonlinearities and hysteresis inherent to ...
Piezoceramics exhibit an electro-mechanical coupling which enables them to produce a proportional e...
You In the absence of an electric field a mathematical model describing the ferroelastic response of...
AbstractA new approach for modeling hysteretic non-linear ferroelectric ceramics is presented, based...
A magneto-elastic model is presented to calculate the orientation dependence of the magnetostrictive...
AbstractThis paper is concerned with a macroscopic nonlinear constitutive law for magnetostrictive a...
ABSTRACT: The focus of this paper is to investigate the nonlinear behavior exhibited by ferroelectri...
Based on the thermodynamic theory, by introducing the Weiss molecular field and considering current ...
*Author to whom correspondence should be addressed. ABSTRACT: In this paper, we present a nonlinear ...
AbstractThis paper is concerned with a macroscopic constitutive law for domain switching effects, wh...
ABSTRACT: The hysteresis phenomena of ferroelectric–ferroelastic materials in polarization procedure...
The purpose of the paper is to establish a constitutive model for the hysteretic properties in ferro...
The ferroelectric materials have been used in several piezoelectric sensors and actuators applicatio...
This progress report presents a thermodynamically and microscopically motivated constitutive model f...
4 Title: Mathematical modeling of magnetostrictive materials Author: Lukáš Vermach Department: Mathe...
ABSTRACT: We develop a model that quantifies constitutive nonlinearities and hysteresis inherent to ...
Piezoceramics exhibit an electro-mechanical coupling which enables them to produce a proportional e...
You In the absence of an electric field a mathematical model describing the ferroelastic response of...
AbstractA new approach for modeling hysteretic non-linear ferroelectric ceramics is presented, based...
A magneto-elastic model is presented to calculate the orientation dependence of the magnetostrictive...