Ultra-thin Fe–Si alloy sheet with excellent high frequency magnetic properties fabricated by partial decarburization combined with multi-stage cold rolling

Transformers with high operating frequencies are highly advantageous owing to their compact sizes. To improve their performance, we successfully fabricated ultra-thin Fe–Si alloy sheets using a novel partial decarburization and multistage cold rolling method. The sheets comprised a high volume fract...

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Published in:Scripta materialia 2023-02, Vol.224, p.115145, Article 115145
Main Authors: Na, Jungkyun, Ko, Hyun-seok, Koo, Yangmo, Park, Semin
Format: Article
Language:English
Subjects:
Annealing
Electron backscattering diffraction
Magnetic properties
Soft magnetic materials
Texture
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Ko, Hyun-seok
Koo, Yangmo
Park, Semin
description Transformers with high operating frequencies are highly advantageous owing to their compact sizes. To improve their performance, we successfully fabricated ultra-thin Fe–Si alloy sheets using a novel partial decarburization and multistage cold rolling method. The sheets comprised a high volume fraction of uniform grains under 50 μm with 〈001〉 // rolling direction (RD) texture (78%) and displayed excellent magnetic properties at 20 kHz. Importantly, it was verified that core loss could be controlled by the growth of 〈001〉 // RD grains, and grain size was affected by the sheet thickness and annealing time. The 〈001〉 // RD grains were well developed for sheet thicknesses of 0.05mm–0.07 mm; however, under 0.05 mm, Goss grain growth was hindered by the thickness of the thin sheet. Our specimen achieved a core loss (P0.5/20,000) improvement of about 20% (4.54 W/kg) and one of the highest magnetic flux densities (1.80T) compared with commercial Fe-Si alloy sheets. [Display omitted]
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subjects Annealing
Electron backscattering diffraction
Magnetic properties
Soft magnetic materials
Texture
title Ultra-thin Fe–Si alloy sheet with excellent high frequency magnetic properties fabricated by partial decarburization combined with multi-stage cold rolling
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