Influence of Aluminum Content in g-TiAl with L10 Structure during Ordering Processes

TG146; Based on EAM (embedded atom method) interatomic potential, the effect of aluminum content on the type of order-disorder transformation (ODT) and the structure properties (lattice constants, volume, c/a ratio and configuration energy) during ordering processes was investigated for g-TiAl based...

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Veröffentlicht in:稀有金属(英文版) 2001, Vol.20 (4), p.230-235
Hauptverfasser: Timothée Nsongo, Xiaodong Ni, Guoliang Chen, Keh-minn Chang
Format: Artikel
Sprache:eng
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Zusammenfassung:TG146; Based on EAM (embedded atom method) interatomic potential, the effect of aluminum content on the type of order-disorder transformation (ODT) and the structure properties (lattice constants, volume, c/a ratio and configuration energy) during ordering processes was investigated for g-TiAl based alloys. Results show that for the alloys with lower than 50%Al (all composition is in atom number fraction), the ODT is the first order transition, and the second order transition for the alloys with equal or higher than 50% Al. The increase of aluminum content results in the critical temperature increasing. The aluminum content has a very little effect on the lattice constants, the volume and the c/a ratio, but has a significant effect on the configuration energy. A metastable disordered state was found for the alloys with less than 50%Al.
ISSN:1001-0521