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Making ultra-high-yield-strength and high-ductility austenitic stainless steel by grain refinement and regularly arranging Cu-nanoprecipitates

Chengyang Hu, Xiangliang Wan, Yongjie Zhang, Rui Ke, Tadashi Furuhara

2025Materials Research Letters8 citationsDOIOpen Access PDF

Abstract

This study achieves an unprecedented combination of ultra-high yield strength (1300 MPa) and high ductility (25%) in austenitic stainless steel (ASS) through grain refinement and innovative Cu microalloying. Unlike conventional random dispersion, nano-scale Cu precipitates form in ordered rows during recrystallization, enabling coherent strengthening (∼300 MPa) without sacrificing ductility. This unique microstructure overcomes the strength-ductility trade-off, outperforming grain-refined ASSs in the literature. The findings reveal a new precipitation mechanism involving periodic nucleation at the moving grain boundary during recrystallization via discontinuous precipitation, offering a scalable strategy for designing high-performance ASS.

Topics & Concepts

Materials scienceAustenitic stainless steelMetallurgyRecrystallization (geology)MicrostructureGrain boundaryNucleationPrecipitationUltimate tensile strengthAusteniteDuctility (Earth science)Grain boundary strengtheningDynamic recrystallizationGrain sizeStrengthening mechanisms of materialsYield (engineering)Deformation (meteorology)Grain growthAnnealing (glass)DiffractionDeformation mechanismSevere plastic deformationMicrostructure and Mechanical Properties of SteelsHydrogen embrittlement and corrosion behaviors in metalsHigh Temperature Alloys and Creep