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Achieving superior mechanical and magnetic properties in non-oriented electrical steel with high coherent nanoprecipitation

F. Fang, D. W. Hou, Sifa Dai, Yuanxiang Zhang, Yupeng Wang, L. L. Li, X. M. Zhang, Guo Yuan, Guodong Wang

2025Materials Research Letters9 citationsDOIOpen Access PDF

Abstract

Non-oriented electrical steel strengthened by NiAl–Cu coprecipitates was successfully processed based on strip casting. Equiaxed grains of ∼ 37 µm with strong {411}〈148〉 texture were obtained after annealing. At the aging peak, a high density of nano-coprecipitates with a mean radius of ∼2.8 nm and low lattice misfit of ∼0.66% was formed and exhibited a core–shell structure consisting of a Cu-rich core and a NiAl shell, effectively reducing interface energy and retarding coarsening. Superior mechanical properties with an ultra-high yield strength of 952.4 MPa, magnetic properties with magnetic induction B50 of 1.677 T and iron loss P10/400 of 22.8 W/kg were achieved.

Topics & Concepts

Materials scienceComposite materialMetallurgyNanotechnologyMagnetic Properties and ApplicationsMicrostructure and Mechanical Properties of SteelsMicrostructure and mechanical properties