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Exceptionally High Saturation Magnetic Flux Density and Ultralow Coercivity via an Amorphous–Nanocrystalline Transitional Microstructure in an FeCo‐Based Alloy

Xuesong Li, Jing Zhou, Laiquan Shen, Baoan Sun, H. Y. Bai, Weihua Wang

2022Advanced Materials151 citationsDOI

Abstract

Abstract High saturation magnetic flux density ( B s ) of soft magnetic materials is essential for increasing the power density of modern magnetic devices and motor machines. Yet, increasing B s is always at the expense of high coercivity ( H c ), presenting a general trade‐off in the soft magnetic material family. Here, superior comprehensive soft magnetic properties, i.e., an exceptionally high B s of up to 1.94 T and H c as low as 4.3 A m −1 are unprecedentedly combined in an FeCo‐based alloy. This alloy is obtained through a composition design strategy to construct a transitional microstructure between amorphous and traditional nanocrystalline alloys, with nanocrystals (with < 5 nm‐sized crystal‐like regions around) sparsely dispersed in an amorphous matrix. Such transitional microstructure possesses extremely low magnetic anisotropy caused by the annihilation of quasi‐dislocation dipoles, and a strong magnetic exchange interaction, which leads to excellent comprehensive magnetic properties. The results provide useful guidelines for the development of the next generation of soft magnetic materials, which are promising for applications of high‐frequency, high‐efficiency, and energy‐saving devices.

Topics & Concepts

Materials scienceCoercivityNanocrystalline materialMicrostructureAlloySaturation (graph theory)Amorphous solidMetallurgyCondensed matter physicsNanotechnologyCrystallographyCombinatoricsMathematicsPhysicsChemistryMetallic Glasses and Amorphous AlloysMagnetic properties of thin filmsMagnetic Properties of Alloys
Exceptionally High Saturation Magnetic Flux Density and Ultralow Coercivity via an Amorphous–Nanocrystalline Transitional Microstructure in an FeCo‐Based Alloy | Litcius