Details Details PDF BIBTEX RIS Title Influence of the Quenching Rate on the Structure and Magnetic Properties of the Fe-Based Amorphous Alloy Journal title Archives of Metallurgy and Materials Yearbook 2016 Issue No 1 March Authors Nabiałek, M. Divisions of PAS Nauki Techniczne Publisher Institute of Metallurgy and Materials Science of Polish Academy of Sciences ; Committee of Materials Engineering and Metallurgy of Polish Academy of Sciences Date 2016 Identifier DOI: 10.1515/amm-2016-0079 ; e-ISSN 2300-1909 Source Archives of Metallurgy and Materials; 2016; No 1 March References Nabiałek (2015), Influence of the production method of Fe Co amorphous alloy on the resulting microstructure and hyperfine field distribution, Alloy Compd, 22, 628. ; Holstein (1940), Field Dependence of the Intrinsic Domain Magnetization of a Ferromagnet, Rev, 21, 58. ; Chen (1974), Thermodynamic considerations on the formation and stability of metallic glasses, Acta Metall, 3, 22. ; Nabialek (2014), Effect of manufacturing method on the magnetic properties and formation of structural defects in Fe Co amorphous alloy, Alloy Compd, 11, 615. ; Cao (2013), Transmission electron microscopy study of the microstructure of a Ti alloy, Mater Charact, 17, 83. ; Nabiałek (2014), The structural stability of the Fe Co bulk amorphous alloy, Arch Metall Mater, 15, 59. ; Huang (2008), Formation of bulk metallic glasses in the Fe transition metal ) system, Alloys Compd, 1, 460. ; Inoue (1995), High strength bulk amorphous alloys with low critical cooling rates JIM, Trans, 10, 36. ; Haitao Miao (2015), Fabrication and properties of soft magnetic Fe - Co bulk metallic glasses with high glass - forming ability, Cryst Solids, 2, 421. ; Wang (2015), Fabrication of Fe - based bulk metallic glasses from low - purity industrial raw materials, Alloys Compd, 4, 62. ; Błoch (2015), Magnetic properties of the suction - cast bulk amorphous alloy : Co, Magn Mater, 5, 390. ; Corb (1983), Chemical bonding magnetic moments and local symmetry in transition - metal - metalloid alloys, Rev B, 25, 27. ; Kronmüller (1981), Micromagnetism and microstructure of amorphous alloy, Appl Phys, 19, 1859, doi.org/10.1063/1.329552 ; Nabiałek (2014), Influence of the cooling speed on the soft magnetic and mechanical properties of Fe Co amorphous alloy, Alloy Compd, 12, 615. ; Tan (2007), Magnetic properties of Fe - Co magnet prepared by suction casting, Cryst Solids, 7, 353. ; Wolfgang Wallisch (2015), Synthesis and characterisation of ( Fe Co microcrystalline alloys, Alloy Compd, 14, 644. ; Chen (2005), Enhanced glass forming ability of Fe - Co alloys with Ni addition, Sci Eng, 8, 402. ; Hirotsu (2004), Intermetallics, 23, 1081, doi.org/10.1016/j.intermet.2004.04.002 ; Huang (2009), Are there two glass transitions in Fe bulk metallic glasses, and Scripta Mater, 9, 60. ; Xingjie Jia (null), Synthesis and properties of ferromagnetic Fe - based ( Fe Co ) - Mo bulk metallic glasses with large supercooled liquid region http dx doi org, Physica, 6, doi.org/10.1016/j.physb.2015.05.004 ; Gupta (2011), Structural evolution and the kinetics of Cu clustering in the amorphous phase of Fe alloy, Appl Phys, 18, 110. ; Kaul (1981), Magnetic properties of amorphous ( fe ni fe ni si fe ni alloys, IEEE Trans Magn, 24, 17. ; Nabiałek (2010), Influence of structural defects on the magnetization process in high - magnetic fields in the Fe Co alloy in the form of ribbons and plates, Magn Mater, 13, 322.