Abstract:The effects of cold deformation on the superelasticity and microstructure of Ni-43.5Ti-0.5V shape memory alloys (SMA) were investigated by recovery rate test, tensile test and microstructure observation. The results indicate that cold deformation has an evidence influence on the superelasticity of NiTiV SMA. With the increase of the deformation, the superelasticity of the alloy increases first and then decreases. When the deformation is more than 15.4%, a large number of dislocation appears, and the microstructures of martensite variants and deformation twins increase with their compacted distribution, which can strengthen the parent phase, inhibit slip deformation and make the superelasticity of the alloy improved significantly. When the deformation is more than 29.1%, the serious distortion of microstructure makes the supersaturated high density dislocation generated, which promotes the microstructure to turn to the amorphous. The superelasticity of the alloy begins to decrease. When deformation is in the range of 23%-25%, the best non-linear superelasticity of the alloy can be obtained. In a word, non-linear superelasticity of the alloy cannot be obtained only under the condition of cold deformation. In addition, the recovery rate test can improve the superelasticity of the alloy and the variation of the stability of superelasticity was found.

Key words: Ni-43.5Ti-0.5V alloy; shape memory alloy; cold deformation; superelasticity; microstructure