Investigation on the Effect of Martensitic and Austenitic Structures on Two-Way Shape Memory Strain Value in Ni-Ti Alloys Trained under Bending

Document Type : Original Articles

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Abstract

In this article, the influence of martensitic and austenitic structures on two-way shape memory strain in two Ni-Ti alloys with 49.9 and 50.5 at% Ti trained by bending were investigated. The samples prepared with VIM (Vacuum Induction Melting) were trained in martensitic and austenitic conditions by applying bending deformation. The effects of pre-strain level and number of training cycles in martensitic and austenitic conditions were also studied. The results showed that the two-way shape memory strain in the Ni-rich alloy is greater than that of the Ti-rich alloy. In addition, it was observed that training the martensitic microstructure results in higher two-way shape memory strain when compared to the austenitic structure. The pre-strain values of 16.7 and 12.5 % and the optimum training cycles of 10-15 and 15-25 were obtained for the cases of martensitic and austenitic structures, respectively
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