ABSTRACT
The role of shear strain and deformation temperature on the microstructure and texture evolution in commercially pure (CP) titanium was investigated in the present study. CP titanium samples were subjected to free-end torsion at elevated temperatures, starting from room temperature (298 K) to 873 K, for different shear strains of 0.5–2.5. Deformation twins of {102} type were observed in the samples deformed at lower temperatures (up to 673 K). Deformation bands were seen in some of the grains and the number of such grains was observed to be decreased with increasing the deformation temperature. Such deformation bands were observed to be facilitated prismatic slip at room temperature and basal slip at high temperatures. However, the presence of deformation twinning always favoured basal slip activity in twinned grains. Dynamically recrystallized grains were observed in the samples deformed at higher temperatures. The texture evolution in the samples was observed to be controlled mainly by activities of basal, prismatic and pyramidal <c + a> slips. Further, the ideal C1 and C2 fibres were found to be unstable during torsion of the samples and the ideal B fibres were observed in the samples deformed at a temperature of 873 K for a shear strain of 2.5.
Acknowledgments
The authors would like to thank Prof. I. Samajdar for conducting EBSD measurements of the samples in his laboratory, National Facility on OIM and Texture, at Dept. of Metallurgical Engg. and Materials Science, IIT Bombay, Powai, Mumbai.
Disclosure statement
No potential conflict of interest was reported by the author(s).