Glass forming ability and thermodynamic properties in novel La-Al-Cu-Co bulk metallic glasses 被引量：10

Glass forming ability and thermodynamic properties in novel La-Al-Cu-Co bulk metallic glasses

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摘要 The glass forming ability （GFA） and thermodynamic properties of the La-AI-Cu-Co alloy system were investigated, and novel La-AI-Cu-Co bulk metallic glasses （BMGs） with a minimum critical diameter of 8 mm were fabricated. The differing GFAs were examined from a thermodynamic viewpoint. The GFA of the La-A1-Cu-Co alloys was well-correlated with the supercooled liq- uid region, ATx, and the parameter, 7; but not with the reduced glass transition temperature, Trg. In addition, the La62Al14Cu14Co8 BMG exhibited a high GFA, low glass transition temperature of 412 K, and broad supercooled liquid region of 70 K. These novel BMGs, which were fabricated from low-cost raw materials, had the potential to be used in various applications. The GFA of the pre- sent alloys exhibited a dependence on the relative number of AlqEo and AI-Cu atomic pairs, i.e., on the AI：Co and AI：Cu ratios, which were -2.3 and 0.85, respectively. The glass forming ability （GFA） and thermodynamic properties of the La-AI-Cu-Co alloy system were investigated, and novel La-AI-Cu-Co bulk metallic glasses （BMGs） with a minimum critical diameter of 8 mm were fabricated. The differing GFAs were examined from a thermodynamic viewpoint. The GFA of the La-A1-Cu-Co alloys was well-correlated with the supercooled liq- uid region, ATx, and the parameter, 7; but not with the reduced glass transition temperature, Trg. In addition, the La62Al14Cu14Co8 BMG exhibited a high GFA, low glass transition temperature of 412 K, and broad supercooled liquid region of 70 K. These novel BMGs, which were fabricated from low-cost raw materials, had the potential to be used in various applications. The GFA of the pre- sent alloys exhibited a dependence on the relative number of AlqEo and AI-Cu atomic pairs, i.e., on the AI：Co and AI：Cu ratios, which were -2.3 and 0.85, respectively.

作者李培友孟凡莹王永善董敏敏史俊婷宋佩维

机构地区 School of Materials Science and Engineering

出处《Journal of Rare Earths》 SCIE EI CAS CSCD 2015年第9期972-976,共5页 稀土学报（英文版）

关键词 bulk metallic glass La-A1-Cu-Co glass forming ability thermodynamics rare earths bulk metallic glass La-A1-Cu-Co glass forming ability thermodynamics rare earths

分类号 TG139.8 [一般工业技术—材料科学与工程] O623.11 [理学—有机化学]

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Journal of Rare Earths

2015年第9期

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