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Ti-Fe Phase Evolution and Equilibria Toward β-Ti Superalloys

Peter O’Kelly, Andy Watson, Gerald Schmidt, Mathias C. Galetz, Alexander J. Knowles

2023Journal of Phase Equilibria and Diffusion17 citationsDOIOpen Access PDF

Abstract

Abstract Recent design and development of precipitate reinforced refractory metal alloys demonstrate the possibility of A2 + B2 bcc superalloys as a new class of high temperature materials. Existing β-Ti alloys do not typically employ reinforcement with intermetallics, as in other high temperature alloys; to this effect sufficient additions of Fe, a low cost β-Ti stabiliser, can promote formation of an ordered-bcc intermetallic phase, β′-TiFe (B2), offering scope to develop a β + β′ dual-phase field. However, key uncertainties exist in the base Ti-Fe binary. The current research evaluates the formation of ordered-bcc TiFe precipitates within a disordered-bcc β-Ti matrix through variable heat treatment strategies. The microstructure optimisation has revealed new insight into the Ti-Fe phase equilibria at near eutectoid temperatures in the purported dual-phase field, where a complex interplay between β-Ti, β′-TiFe and α-Ti exists.

Topics & Concepts

IntermetallicSuperalloyMaterials scienceEutectic systemPhase (matter)MicrostructureThermodynamicsMetallurgyAlloyChemistryOrganic chemistryPhysicsIntermetallics and Advanced Alloy PropertiesHigh Temperature Alloys and CreepTitanium Alloys Microstructure and Properties
Ti-Fe Phase Evolution and Equilibria Toward β-Ti Superalloys | Litcius