Strengthening of iron aluminide alloys by atomic ordering and Laves phase precipitation for high-temperature applications

Strengthening of iron aluminide alloys by atomic ordering and Laves phase precipitation for high-temperature applications

The ternary system Fe–Al–Ta allows the formation of the hard and brittle ternary Laves phase Ta(Fe 0.5+ x ,Al 0.5− x ) 2 with hexagonal C14 structure. The present study concentrates on Fe–Al–Ta alloys with small Ta contents between 2 and 6 at.% and various Al contents between 0 and 45 at.%. The phas...

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Veröffentlicht in:Intermetallics 2005-12, Vol.13 (12), p.1313-1321
Hauptverfasser: Risanti, D.D., Sauthoff, G.
Format: Artikel
Sprache:eng
Schlagworte:
A. Iron aluminides (based on Fe 3Al)
A. Iron aluminides (based on FeAl)
B. Brittleness and ductility
B. Mechanical properties at high temperatures
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Zusammenfassung:The ternary system Fe–Al–Ta allows the formation of the hard and brittle ternary Laves phase Ta(Fe 0.5+ x ,Al 0.5− x ) 2 with hexagonal C14 structure. The present study concentrates on Fe–Al–Ta alloys with small Ta contents between 2 and 6 at.% and various Al contents between 0 and 45 at.%. The phase equilibria in the ternary Fe–Al–Ta system at 1000 °C are studied experimentally for determination of the solubility limits of Ta in iron aluminide matrices and types of phases and structures which may occur at high temperatures. It is observed that small amounts of Laves phase together with atomic ordering increase the yield stress and affect ductility in a complex way.
ISSN:0966-9795
1879-0216
DOI:10.1016/j.intermet.2004.12.029