Microstructure, Texture, and Mechanical Properties of β Solution-Treated and Aged Metastable β Titanium Alloy, Ti-5Al-5Mo-5V-3Cr

The current study describes the aging characteristics and mechanical properties of a metastable beta titanium alloy Ti-5Al-5Mo-5V-3Cr. The aged microstructures consist of fine alpha-phase precipitates (lath morphology) in equiaxed beta grains. The sizes of the alpha-phase precipitates increase with the increasing aging temperature. The beta ST WQ and 823 K (550 A degrees C)-aged material exhibits maximum hardness due to precipitation hardening. The low- and high-temperature aging conditions result in strong c-type basal and prismatic textures in the alpha-phase, respectively. The beta-phase of the alloy aged at low temperature reveals the presence of texture with moderate intensity. In contrast, high-temperature-aged material exhibits very strong beta-phase texture. The strengths of the alloy under beta ST WQ- and 923 K (650 A degrees C)-aged conditions are the maximum and minimum along TD and RD, while the ductility values are the maximum and minimum along the RD and TD direction samples, respectively. The flow curves follow typical Holloman equation along three sample directions, and the work hardening rate curves display two distinctive regimes, namely, stage I and stage II. The yield locus plots of the beta ST WQ and aged materials exhibit the presence of anisotropy.