Evolution of lattice strain in Ti–6Al–4V during tensile loading at room temperature Original Research Article

The evolution of intergranular lattice strains in a textured, forged bar (Bar) sample of the α − β titanium alloy Ti–6Al–4V has been characterised using in situ X-ray diffraction. A two-phase elastic–plastic self-consistent (EPSC) model has been developed to rationalise the results. Of the orientations analysed, it is found that the {2 0 0} β orientation is the most compliant and that load partitions to this orientation during plasticity. The results from the bar material have then been used to predict the response of unidirectionally rolled plate (UD) Ti–6Al–4V. It is predicted that the residual lattice strains in the image and image orientations will be significantly higher in the UD material.