| A study has been made on the fracture behavior of a two-phase (α₂+β) Ti₃Al-Nb alloy, with particular emphasis on the effect of morphology. The coarse colony structure obtained by continuously annealing in the two-phase region directly from the β region results in poor elongation ductility. The fine colony structure obtained by two-phase annealing th β-quenched specimen also results in poor elongation ductility. However, upon obtaining a fine equiaxed or basket-weave structures by following different transformation paths, improvements occur in elongation ductility without any sacrifice in strength. For the fine equiaxed structure, maximum elongation is obtained at the intermediate volume fraction of α₂, while for the basket-weave structure, increase in the volume fraction of α₂ increases the elongation. Detailed fracture analysis shows that different fracture mechanism operates for different morphology and the critical microstructural unit for arresting fracture also varies depending on the morphology. |
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