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Preparation of MnAlC flakes by surfactant-assisted ball-milling and the effects of annealing
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Abstract
An alternative approach for preparing anisotropic MnAlC powders is reported. [001] textured MnAlC flakes with various sizes and thicknesses were fabricated by surfactant-assisted ball-milling (SABM) of bulk ingots. After ball-milling for 8 h the flakes have thicknesses below 200 nm and aspect ratios as high as 10 2∼10 3. After being annealed at suitable temperatures, both bulk and SABMed powders can transform from ∊-phase to τ-phase completely. C-doping cannot prevent the decomposition of the τ-phase into the β+γ 2 phases after annealing at above 500°C. The magnetic properties are strongly dependent on both the fraction of the τ-phase and the thickness. A high coercivity of ∼242.8 kA m −1 has been achieved in SABMed powders. The coercivity value is 128.8% higher than the experimental value for bulk materials.
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Formation of SmCo5 single-crystal submicron flakes and textured polycrystalline nanoflakes
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Phase transitions and hard magnetic properties for rapidly solidified MnAl alloys doped with C, B, and rare earth elements
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