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Nanoprecipitate strengthened, alumina forming austenitic stainless steels for elevated temperature applications

Haoxiang Zhang, Qingqing Ding, Yongkang Li, Xiao Wei, Ze Zhang, Hongbin Bei

2024Journal of Materials Research and Technology12 citationsDOIOpen Access PDF

Abstract

Low cost stainless steels (SS) with high performance, especially with good mechanical properties and oxidation resistance at high temperature, are continuous pursuit for manufacture industry. To achieve good combination of mechanical properties, oxidation resistance and cost, nanoprecipitate strengthened alumina forming austenitic (NSAFA) SS have been developed by removing expensive elements such as Nb and Ta, lowering Ni concentration in Fe-26Ni-15Cr-1.5Mo-(2.8-3.5)Al-(1-2.35)Ti (wt.%) alloys. Microstructure investigation demonstrates that NSAFA SS are strengthened by L12 structured (Ni, Fe)3(Al, Ti) γ′ nanoprecipitates with volume fraction around 25% - 40%. Oxidation experiments (750oC/480h) in air demonstrates that all the NSAFA steels have alumina forming ability. In addition, it is found that Al and Ti are all necessary for γ′ nanoprecipitates, but additional Al and Ti facilitate formation of the Ni2AlTi phase. To ensure high volume fraction of γ′ nanoprecipitates and reduce Ni2AlTi phase, 2.8-3.0 wt.% Al and 1.8-2.35 wt.% Ti are preferred. Benefit from the high volume fraction of γ′ nanoprecipitates, yield strength of NSAFA steels is much higher than that of Fe-base superalloy (e.g., A286) and can compare to some Ni-base superalloys (e.g., Hayners 282 & Inconel 740H).

Topics & Concepts

Materials scienceSuperalloyVolume fractionMetallurgyInconelAusteniteMicrostructurePhase (matter)Composite materialAlloyChemistryOrganic chemistryHigh-Temperature Coating BehaviorsHigh Entropy Alloys StudiesMicrostructure and Mechanical Properties of Steels
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