This paper describes a continuum model, developed recently by R. Abeyaratne and the author, for the response of elastic solids capable of undergoing stress-induced phase transitions. Models of the kind sketched here and their generalizations are intended to apply to both quasi-static and dynamic experiments for shape memory alloys and to impact-induced phase changes in ceramics. The present discussion is confined to a purely mechanical theory, omitting thermal effects, so that the natural setting is the nonlinear theory of elasticity. The presentation below is limited to one space dimension
The paper presents a mathematical description of shape memory alloys within the framework of continu...
A new continuum model for the description of the general mechanical behavior of polycrystalline Shap...
Shape-memory alloys undergo a solid-to-solid phase transformation involving a change of crystal stru...
This paper summarizes some recent work carried out jointly by the author and R. Abeyaratne of MIT o...
A continuum model of the macroscopic behaviour of solids capable of undergoing displacive phase tra...
In this paper, we describe a simple phenomenological thermoelastic model for stress-induced solid-so...
We construct explicitly a Helmholtz free energy, a kinetic relation and a nucleation criterion for a...
Abstract- A Maxwell's rate-type viscoelastic constitutive equation is used to describe stress-i...
The use of shape memory alloys for a large number of applications in many fields of engineering has ...
The mechanical behaviour of a solid capable of undergoing internal phase change is considered. Rever...
The macroscopic model of solid-solid phase change presented makes use of internal variables to repre...
The macroscopic model of solid-solid phase change presented makes use of internal variables to repre...
The paper presents a mathematical description of shape memory alloys within the framework of continu...
A new continuum model for the description of the general mechanical behavior of polycrystalline Shap...
Shape-memory alloys undergo a solid-to-solid phase transformation involving a change of crystal stru...
This paper summarizes some recent work carried out jointly by the author and R. Abeyaratne of MIT o...
A continuum model of the macroscopic behaviour of solids capable of undergoing displacive phase tra...
In this paper, we describe a simple phenomenological thermoelastic model for stress-induced solid-so...
We construct explicitly a Helmholtz free energy, a kinetic relation and a nucleation criterion for a...
Abstract- A Maxwell's rate-type viscoelastic constitutive equation is used to describe stress-i...
The use of shape memory alloys for a large number of applications in many fields of engineering has ...
The mechanical behaviour of a solid capable of undergoing internal phase change is considered. Rever...
The macroscopic model of solid-solid phase change presented makes use of internal variables to repre...
The macroscopic model of solid-solid phase change presented makes use of internal variables to repre...
The paper presents a mathematical description of shape memory alloys within the framework of continu...
A new continuum model for the description of the general mechanical behavior of polycrystalline Shap...
Shape-memory alloys undergo a solid-to-solid phase transformation involving a change of crystal stru...