Strain-induced α-to-β phase transformation during hot compression in Ti-5Al-5Mo-5V-1Cr-1 Fe alloy

The dynamic phase transformation of Ti-5Al-5Mo-5V-1Cr-1Fe alloy during hot compression below the beta transus temperature was investigated. Strain-induced alpha-to-beta transformation is observed in the samples compressed at 0-100 K below the beta transus temperature. The deformation stored energy by compression provides a significant driving force for the alpha-to-beta phase transformation. The re-distribution of the solute elements induced by defects during deformation promotes the occurrence of dynamic transformation. Orientation dependence for the alpha-to-beta phase transformation promotion is observed between {100}-orientated grains and {111}-orientated grains. Incomplete recovery in {111}-orientated grains would create a large amount of diffusion channels, which is in favor of the alpha-to-beta transformation. The effects of reduction ratio and strain rate on the dynamic phase transformation were also investigated.