The effect of deformation temperature on the strain localization has been evaluated by an adapted digital
image correlation (DIC) technique during tensile deformation. The progress of strain localization was
traced by the corresponding strain maps. The electron backscatter diffraction analysis and tint etching
technique were utilized to determine the impact of martensitic transformation and deformation
twinning on the strain localization in both elastic and plastic regimes. In elastic regime the narrow
strain bands which are aligned perpendicular to the tension direction were observed in temperature
range of 25 to 180 1C due to the stress-assisted epsilon martensite. The strain bands were disappeared by
increasing the temperature to 300 1C and reappeared at 400 1C due to the stress-assisted deformation
twinning. In plastic regime strain localization continued at 25 1C and 180 1C due to the strain-induced
alfa-martensite and deformation twinning, respectively. The intensity of plastic strain localization was
increased by increasing the strain due to the enhancement of martensite and twin volume fraction. The
plastic strain showed more homogeneity at 300 1C due to the lack of both strain-induced martensite and
deformation twinning.