Abstract
In this work, superelastic response of laser welded NiTi wires were studied using nanoindentations and cyclic tensile tests. At high power laser condition ~0.4 wt% of Ni content evaporated, which resulted in the formation of the martensite phase due to about 40 °C shift in the Af temperature. This caused in 500 nm residual depth after the cyclic load-unload nanoindentation test and 1.9% residual strain after the cyclic tensile test, both signs of superelasticity deterioration. However, by adopting the possible lowest power laser condition, these parameters became 200 nm and 1%, respectively. By increasing the cyclic tensile test temperature to 60 °C (above Af), similar superelastic responses were achieved due to the elimination of any unfavorable martensite phases inside their fusion zones.
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