The effect of stress on soft modes for the phase transformation in a Ti-Ni alloy I. The stress-induced transformation and soft modes

Abstract

The in situ transmission electron microscopy observation of stress-induced phase transformations in an approximately equiatomic Ti-Ni alloy and a related theoretical analysis have been made. The results show that the stress has strong effects on the lattice instability. A tensile stress promotes soft modes which relate to the nucleation of the R phase and the martensite phase so that the tensile stress helps the formation of the R and the martensite phases. The theoretical analysis shows that a compressive stress has negative effects (experimental confirmation will be given in Part II). The investigation shows that the effect of stress on the effective elastic constant in 〈111〉_B2 directions, given by C _eff〈111〉=⅓(C ₁₁ + 2C ₁₂ + 4C ₄₄), is much larger than that on the shear elastic constant, given by C=½(C ₁₁-C ₁₂), which relates to the martensitic transformation. Therefore the tensile stress particularly enhances the R transformation which relates to the softening of C _eff〈111〉. It has been identified that the diffuse streaks in the electron diffraction associated with the increase in the amount of R phase induced by the tensile stress arise from the softening of phonons with 〈111〉 polarization vectors which results from the softening of C _eff〈111〉.