Superelastic behavior of nanostructured Ti50Ni48Co2 shape memory alloy with cold rolling processing
(1. Department of Materials Engineering, Malek Ashtar University of Technology, Shahin Shahr 83145115, Iran;
2. Department of Materials Engineering, Isfahan University of Technology, Isfahan 8415683111, Iran)
2. Department of Materials Engineering, Isfahan University of Technology, Isfahan 8415683111, Iran)
Abstract: Effects of cold rolling followed by annealing on microstructural evolution and superelastic properties of the Ti50Ni48Co2 shape memory alloy were investigated. Results showed that during cold rolling, the alloy microstructure evolved through six basic stages including stress-induced martensite transformation and plastic deformation of martensite, deformation twinning, accumulation of dislocations along twin and variant boundaries in martensite, nanocrystallization, amorphization and reverse transformation of martensite to austenite. After annealing at 400 °C for 1 h, the amorphous phase formed in the cold-rolled specimens was completely crystallized and an entirely nanocrystalline structure was achieved. The value of stress level of the upper plateau in this nanocrystalline alloy was measured as high as 730 MPa which was significantly higher than that of the coarse-grained Ni50Ti50 and Ti50Ni48Co2 alloys. Moreover, the nanocrystalline Ti50Ni48Co2 alloy had a high damping capacity and considerable efficiency for energy storage.
Key words: shape memory alloy; superelasticity; nanocrystalline material; thermomechanical processing