Synthesis and magnetic properties of Al–Cu–Fe quasicrystals prepared by mechanical alloying and heat treatment

Elemental powder mixtures of Al, Cu, and Fe with nominal composition of Al 65 Cu 20 Cu 15 were proceeded in a planetary ball mill for up to 5 h. Phase analysis of as-milled powders shows that only diffraction peaks of metallic elements were detected after milling for 60 min. The long milling times r...

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Published inJournal of materials research Vol. 38; no. 3; pp. 644 - 653
Main Authors Nguyen, Hoang Viet, Do, Nam Binh, Nguyen, Thi Hoang Oanh, Nguyen, Cao Son, Trinh, Van Trung, Le, Hong Thang, Jorge Junior, Alberto Moreira
Format Journal Article
LanguageEnglish
Published Cham Springer International Publishing 14.02.2023
Springer Nature B.V
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Summary:Elemental powder mixtures of Al, Cu, and Fe with nominal composition of Al 65 Cu 20 Cu 15 were proceeded in a planetary ball mill for up to 5 h. Phase analysis of as-milled powders shows that only diffraction peaks of metallic elements were detected after milling for 60 min. The long milling times resulted in formation of an Al (Cu, Fe) solid solution (β-phase), but no icosahedral quasicrystalline phase (i-phase). To induce solid-state transformation, milled powders were annealed at 600–700 °C for 4 h. i-phase, β, and ω-Al 7 Cu 2 Fe 1 phases were detected in samples milled 5–45 min. The maximum amount of i-phase was obtained after milling for 15 min, annealing at 700 °C and after milling for 30 min, and annealing at 650–700 °C. The annealed powders present soft ferromagnetic behavior at room temperature, but the magnetic loss was reduced with the increase of the i-phase and its size and reduced amounts of β and ω phases. Graphical abstract SEM images of mechanically alloyed powders milled for 30 min and annealed at (a-b) 600 °C, (c) 650 °C, and (d) 700 °C. Insets 1-4 in (a) show the coexistence of different QC morphologies (scale bars in the insets represent 10 μm. White arrowheads in (b) indicate the concurrency of two distinct morphologies.
ISSN:0884-2914
2044-5326
DOI:10.1557/s43578-022-00846-1