Abstract:The microstructure, phase transition and texture evolution of TA15 titanium alloy after β phase region heating through hot deformation under different process parameters and water quenching were investigated by OM, XRD and EBSD. The results indicate that the microstructure is mainly composed of α′ martensite phase transformed from flatted and elongated β grains and clear β grain boundaries. There are some tiny grain boundary α grains distributed along original β grain boundaries through hot deformation below the phase transition point. Al and V elements were dissolved in α′ martensite phase formed by the shear mode, and resulted in crystal lattice contraction and the diffraction peak moving to high-angle. The grain orientation distributions are similar owing to the crystal orientations between martensite α′ and original β complying with the Burgers orientation relationship. The grain orientations of material are enhanced with increasing temperature and strain rate. The average grain size is less than 7 μm and α′ grains inherit the misorientation of parent β grains when the peaks of the number fraction locate at 10°, 60° and 90°.

Key words: TA15 titanium alloy; β phase region heating institution; hot deformation; phase transition; texture; microstructure evolution