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4798432 
Journal Article 
Two-stage-like glass transition and the glass-forming ability of a soft magnetic Fe-based glassy alloy 
Zhang, Wei; Jia, Fei; Zhang, X; Xie, G; Kimura, H; Inoue, A 
2009 
Yes 
Journal of Applied Physics
ISSN: 0021-8979
EISSN: 1089-7550 
105 
WOS:000264156300038 
The structure, thermal stability, and crystalline behavior of (Fe(0.9)Co(0.1))(67.5)Nb(4)Gd(3.5)B(25) glassy alloy, which exhibits a two-stage-like glass transition phenomenon, were investigated using x-ray diffraction, transmission electron microscopy, and differential scanning calorimetry. The nanoscale metastable (Fe,Co)(23)B(6) phase precipitated in the glassy matrix after annealing, while the two-stage-like glass transition disappeared, indicating the two-stage-like glass transition results from the overlap of the endothermic reaction for the glass transition with the exothermic reaction for the formation of the (Fe,Co)(23)B(6) phase in the supercooled liquid region. The (Fe(0.9)Co(0.1))(67.5)Nb(4)Gd(3.5)B(25) glassy alloy exhibits high glass-forming ability, enabling the formation of glassy alloy rods with diameters exceeding 3.0 mm, rather high saturation magnetization of 0.91 T, low coercive force of 2.5 A/m, and high fracture strength of 3870 MPa. 
amorphous magnetic materials; annealing; boron alloys; cobalt alloys; coercive force; differential scanning calorimetry; ferromagnetic materials; fracture toughness; gadolinium alloys; glass structure; glass transition; iron alloys; metallic glasses; niobium alloys; soft magnetic materials; thermal stability; transmission electron microscopy; vitrification; X-ray diffraction 
IRIS
• Cobalt
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