Shape memory properties of highly textured Cu?Al?Ni?(Ti) alloys

C.E. SOBRERO; P. LA ROCA; A ROATTA,; R. E. BOLMARO; J. MALARRÍA

MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING

ELSEVIER SCIENCE SA

Lugar: Amsterdam; Año: 2012 vol. 536 p. 207 - 215

0921-5093

A strong α-fiber I texture with components from {001}á110ñβ1 to {112}á110ñβ1 was developed in a polycrystalline Cu-13Al-5.5Ni-1Ti (wt%) shape memory alloy by hot extrusion at 800°C (followed by recrystallization). Nearly fully recoverable strains up to the order of 6%, associated with cubic to monoclinic martensitic transformation β1→ β1´, have been measured by thermal cycling under constant load experiments. Such a degree of strain recovery is typical of single crystals or polycrystalline arrays with a low degree of grain constraint, such as highly textured, ?bamboo? like, extruded materials. The reversible transformation strains reached about 68% of the upper bound predicted by a Sachs-type model which averages the most favourable martensite variants in each grain, taking into account their orientation and disregarding interactions between them. Due to the strong texture introduced in the material, such high values of recoverable transformation strains are obtained even for specimens having a grain size/thickness ratio of ~ 0.05, producing relatively high grain constraint.