Shape Memory Alloys: A Material and a Technology

## Abstract In this paper, we present a computationally efficient implementation of a continuum mechanical model for shape memory alloys into a finite element code. The model covers several thermomechanically coupled effects typical for the material behaviour of shape memory alloys, e.g. pseudo‐ela

Akstraet--We present a uniaxial model for shape-memory alloys, cast within the generalizedplasticity framework, previously developed. The model is based on two internal variables (the singlevariant martensite fraction and the multiple-variant martensite fraction), for which evolution equations in ra

An investigation into the computational aspects of a multi-well mixture approach to shape memory modeling is undertaken with the goals of determining its qualitative behavior as well as its eciency in a numerical setting. A basic rate dependent model for the transformation is ®rst introduced, follow