Niobium stabilizes the beta phase and increases symmetry in alpha double-prime martensite while oxygen suppresses omega phase at low niobium but inhibits long-range martensitic transformation at high niobium levels in Ti-Nb-O alloys.
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High-throughput experiments on Al-Ti-Nb-Zr-Ta alloys identify dominant BCC and B2 phases plus Zr/Ta-rich nanoscale precipitates, with measured compositions showing systematic deviations from CALPHAD predictions.
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The effect of Nb and O on the martensitic transformation in the Ti-Nb-O alloys
Niobium stabilizes the beta phase and increases symmetry in alpha double-prime martensite while oxygen suppresses omega phase at low niobium but inhibits long-range martensitic transformation at high niobium levels in Ti-Nb-O alloys.
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Phase Equilibria of the Al-Ti-Nb-Zr-Ta System
High-throughput experiments on Al-Ti-Nb-Zr-Ta alloys identify dominant BCC and B2 phases plus Zr/Ta-rich nanoscale precipitates, with measured compositions showing systematic deviations from CALPHAD predictions.