Micromechanical analysis of precipitate effects on shape memory alloys behaviour

An extensive study of the effects of frequency and strain amplitude as well as temperature on the damping behaviour of superelastic NiTi shape memory alloy wires was undertaken. A full factorial design taking into account the two-level interactions between these variables has been conducted. The dis

## Abstract This paper takes into account the localized deformation behaviour of a pseudoelastic NiTi shape memory alloy with finite element method. A three‐dimensional micromechanical model has been developed, in which the difference between the elastic properties of austenite and martensite is co

Cu-Al-Mn shape memory alloys with 10-14.5 wt.% of Al and 0-10 wt.% of Mn, were chosen for the present study. The transformation temperatures, shape memory effect and superelasticity of these alloys are highly sensitive to variations in composition. The influence of composition on these properties ha

The predicted strengthening effect of precipitates of different shape and habit on the basal, prismatic and f1 0 1 2g twinning deformation systems in magnesium has been calculated. In parent material, rod precipitates parallel to the c-axis are predicted to be more effective than plates parallel to