Rolling parameters, microstructure control, and mechanical properties of powder metallurgy Ti–44Al–3Nb-(Mo, V, Y) alloy: The impact of rolling temperatures

“…The hot rolling process provides a pathway for a further slip of dislocations through mechanisms such as phase transformation, recovery, and recrystallization. [ 11–14 ] Luo et al [ 15 ] indicated that TC4 alloy does not undergo recrystallization and phase transformation until the rolling temperature is above 900 °C and the <0001> direction of the α phase always remains parallel to the normal direction (ND) with the rolling temperature increasing. It was observed that the anisotropy of tensile properties increases with the increase of rolling temperature, which was due to the phase transformation and grain rotation during the hot rolling process.…”

Analysis of Microstructure, Texture Evolution, and the Mechanism of Grain Refinement of Commercially Pure Titanium During Cold Rolling: Experiment and Simulation

“…The hot rolling process provides a pathway for a further slip of dislocations through mechanisms such as phase transformation, recovery, and recrystallization. [ 11–14 ] Luo et al [ 15 ] indicated that TC4 alloy does not undergo recrystallization and phase transformation until the rolling temperature is above 900 °C and the <0001> direction of the α phase always remains parallel to the normal direction (ND) with the rolling temperature increasing. It was observed that the anisotropy of tensile properties increases with the increase of rolling temperature, which was due to the phase transformation and grain rotation during the hot rolling process.…”

Analysis of Microstructure, Texture Evolution, and the Mechanism of Grain Refinement of Commercially Pure Titanium During Cold Rolling: Experiment and Simulation

Solidification microstructure of Ti-43Al alloy by twin-roll strip casting

Effect of inter-pass annealing on the deformation microstructure of Ti-48Al-2Cr-2Nb alloy