Inter-martensitic transitions in Ni–Fe–Ga single crystals

The strain–temperature response of Ni–Fe–Ga single crystals underscores the role of the inter-martensitic transformation in creating intersecting heating and cooling segments; the separation of these segments occurs due to irreversibilities at high stresses and at high temperatures. An ultra-narrow tensile (1 C) and compressive (<10 C) thermal hysteresis are observed for the A 10M 14M case, accompanied by a small stress hysteresis (<30 MPa) in compressive and tensile stress–strain responses. The hysteresis levels increase and the intersecting segments disappear at high stresses and at high temperatures. This paper reports the use of a thermo-mechanical formulation to rationalize the role of inter-martensitic transformations. Plotting the transformation stress as a function of temperature indicates that inter-martensitic transformations enable a very wide pseudoelastic temperature range, as high as 425 C. The measured Clausius–Clapeyron curve slope in compression (2.75 MPa C ) is eight times the tensile slope (0.36 MPa C ); the higher slope is attributed to the predominance of A L10 at high temperatures. 2007 Published by Elsevier Ltd on behalf of Acta Materialia Inc.