A Study on the Low Temperature Internal Friction Relaxation Peak in a Ti_49.8Ni_50.2 Alloy

抄録

The low temperature relaxation peak appearing around 200 K in Ti_49.8Ni_50.2 shape memory alloy is a multiple relaxation process with activation energy Q=0.39 eV and frequency factor f₀=6.2×10⁹ s⁻¹ and is associated with the interaction of dislocations with pinning vacancies. Due to the increase of dislocation density and the annihilation of quenched-in vacancies after thermal cycling, the height of relaxation peak P_R decreases with increasing the number of thermal cycling. Higher amounts of dislocation-vacancy reaction cause a higher relaxation damping under the condition of higher quenching temperature. The quenched-in vacancies can have a significant effect on the transformation rate, and thus the heights of transformation peaks P_H1 and P_C1 decrease with increasing quenching temperature. Dislocations introduced by both thermal cycling and quenching from high temperature will depress the martensitic transformation, and hence decrease the peak temperatures of P_H1 and P_C1.