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Effect of annealing temperature on the properties of phosphorus micro-alloyed non-oriented electrical steels

Qinyu He, Chengyi Zhu, Yulong Liu, Wen Yan, Xiangliang Wan, Guangqiang Li

2023Journal of Materials Research and Technology19 citationsDOIOpen Access PDF

Abstract

Microstructure, texture, mechanical properties, and magnetic properties of low carbon and silicon non-oriented electrical steels annealed at 800 °C, 820 °C, and 860 °C were studied. Fine precipitates (Al, Si, Mn)xNy-P, a small quantity of (Al, Si, Mn)xNy, and the aforementioned composite precipitates containing MnS were detected in the samples annealed at 820 °C and 860 °C. Compared with the samples annealed at 820 °C, the number density of precipitates decreased by 20% and the average size increased by 25 nm in the samples annealed at 860 °C. The average grain size was 22 μm, 26 μm and 46 μm in the samples annealed at 800 °C, 820 °C, and 860 °C, respectively. The magnetic induction increased by 0.027 T after the annealing temperature of the samples increased from 800 °C to 820 °C. The iron loss reduced 0.94 W/kg when the annealing temperature increased from 800 °C to 860 °C. The tensile strength and yield strength of the samples decreased by 21 MPa and 40 MPa when the annealing temperature increased. The loss iron was 4.27 W/kg(P1.5/50) and magnetic induction was 1.764 T(B50) for the samples annealed at 860 °C. Magnetic properties of the experimental samples were superior to the same grade of commercially available steels.

Topics & Concepts

Materials scienceAnnealing (glass)MicrostructureUltimate tensile strengthGrain sizeMetallurgyAnalytical Chemistry (journal)Electrical resistivity and conductivityEngineeringChromatographyElectrical engineeringChemistryMagnetic Properties and ApplicationsSemiconductor materials and interfacesMetallurgical and Alloy Processes
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