Abstract: Micromechanical methods developed to describe the thermomechanical behavior of solids are applied to phase transition related problem. Results obtained are compared with those obtained using a macroscopic phenomenological approach. This micromechanical analysis is based on a kinematical description of the physical strain mechanisms and a definition of a local thermodynamical potential. Volume fractions of the different variants of martensite are chosen as internal variables to describe the evolution of the microstructural state of the material. This analysis determines local constitutive equations for the behavior. Global relationships are obtained using a self consistent scheme. This approach gives results in good agreement with ...
The paper presents a mathematical description of shape memory alloys within the framework of continu...
Proceedings of the 7th European Symposium on Martensitic Transformations, ESOMAT 2006International a...
Abstract. Quantitative micromechanics descriptions of both transformation-induced plasticity (TRIP) ...
Micromechanical methods developed to describe the thermomechanical behavior of solids are applied to...
Shape Memory behavior in polycrystalline material is very sensitive to the local stress state. To ta...
The superelasticity of the Shape Memory Alloys (SMA) is well known nowadays, but few models describe...
Shape Memory AlloysInternational audienceIn this study, a phenomenological model describing superela...
Abstract- Shape Memory Alloys present a large variety of behaviour in function of the thermome-chani...
Shape Memory Alloys present a large variety of behaviour in function of the thermomechanical loading...
The constitutive relation for various phenomena of SMA (superelasticity, rubber-like elasticity, fer...
This paper focuses on the issue plasticity within the framework of a micromechanical model for singl...
A MICROMECHANICS constitutive model has been proposed in this paper to describe the pseudoelastic an...
The purpose of this contribution is the presentation of a micromechanical model for martensitic phas...
Multiscale modeling of structures made from shape memory alloys (SMA) is presented. Starting with co...
The superelastic behavior of shape memory alloys is useful for several industrial applications. To d...
The paper presents a mathematical description of shape memory alloys within the framework of continu...
Proceedings of the 7th European Symposium on Martensitic Transformations, ESOMAT 2006International a...
Abstract. Quantitative micromechanics descriptions of both transformation-induced plasticity (TRIP) ...
Micromechanical methods developed to describe the thermomechanical behavior of solids are applied to...
Shape Memory behavior in polycrystalline material is very sensitive to the local stress state. To ta...
The superelasticity of the Shape Memory Alloys (SMA) is well known nowadays, but few models describe...
Shape Memory AlloysInternational audienceIn this study, a phenomenological model describing superela...
Abstract- Shape Memory Alloys present a large variety of behaviour in function of the thermome-chani...
Shape Memory Alloys present a large variety of behaviour in function of the thermomechanical loading...
The constitutive relation for various phenomena of SMA (superelasticity, rubber-like elasticity, fer...
This paper focuses on the issue plasticity within the framework of a micromechanical model for singl...
A MICROMECHANICS constitutive model has been proposed in this paper to describe the pseudoelastic an...
The purpose of this contribution is the presentation of a micromechanical model for martensitic phas...
Multiscale modeling of structures made from shape memory alloys (SMA) is presented. Starting with co...
The superelastic behavior of shape memory alloys is useful for several industrial applications. To d...
The paper presents a mathematical description of shape memory alloys within the framework of continu...
Proceedings of the 7th European Symposium on Martensitic Transformations, ESOMAT 2006International a...
Abstract. Quantitative micromechanics descriptions of both transformation-induced plasticity (TRIP) ...