Microstructure and Phase Transformation in Ti-22Al-(27-x)Nb-xZr Alloys During Continuous Heating

Phase transformation during heating in homogenized Ti-22Al-(27-x)Nb-xZr (x = 0, 1, 6) alloys is monitored by dilatometry, differential scanning calorimetry (DSC), and detailed metallographic examination. Moreover, the dissolution of α₂ into the B₂/β matrix is investigated and discussed. In Ti-22Al-27Nb alloy, the sequence of phase transformation during heating can be concluded as follows: B₂/β → O, B₂/β + α₂ → O, B₂/β + O→B₂/β + O + α₂, B₂/β + O + α₂ → B₂/β + α₂, and B₂/β + α₂ → B₂/β. For Ti-22Al-21Nb-6Zr alloy, it is B₂/β → α₂ + O, O + α₂ + B₂/β → B₂/β + α2, and then α₂ dissolves into B₂ matrix. There are considerable shifts in the maxima of the transformation rates in B₂/β + O+α₂ → B₂/β + α₂ and B₂/β + α₂ → B₂/β transformed region to the higher temperatures with increasing x value. In the stage of B₂/β + α₂ → B₂/β, there is a deceleration of reduction in α₂ phase with increasing temperature for Ti-22Al-(27-x)Nb-xZr (x = 0, 1, 6) alloys. And for Ti-22Al-21Nb-6Zr, the dissolution rate of α₂ phase is accelerated.