Design of precipitation (γ') strengthened Fe-rich medium entropy alloys

A novel Fe-rich medium entropy alloy (MEA) space with a & gamma;+& gamma;'-only phase field at 800 degrees C is proposed where the volume fraction and dissolution temperature of & gamma;'-phase can be tuned by substituting Fe for Ni/Co and Cr. The & gamma;+& gamma;'-structured Fe-35.5Ni-4Cr-6.3Al-3.2Ti alloy (Fe-content of 51 at.%; & gamma;'-volume fraction of 24%) after a recrystallisation and ageing treatment displays a yield strength of 902 MPa, ultimate strength of 1370 MPa and a tensile ductility of 24%. The presented alloy space progresses towards the development of Fe-rich MEAs with good strength retention (>600 degrees C) for heat-resistant structural applications.

Automated summary

A novel Fe-rich medium entropy alloy (MEA) space with a & gamma;+& gamma;'-only phase field at 800 degrees C is proposed where the volume fraction and dissolution temperature of & gamma;'-phase can be tuned by substituting Fe for Ni/Co and Cr. The Fe-35.5Ni-4Cr-6.3Al-3.2Ti alloy in the γ+γ'-structured form (Fe-content of 51 at.%; & gamma;'-volume fraction of 24%) exhibits a yield strength of 902 MPa, ultimate strength of 1370 MPa, and a tensile ductility of 24% after a recrystallisation and ageing treatment. This research contributes to the development of Fe-rich MEAs with good strength retention (>600 degrees C) for heat-resistant structural applications.