TitleInfluence of the Quenching Rate on the Structure and Magnetic Properties of the Fe-Based Amorphous Alloy
Journal titleArchives of Metallurgy and Materials
NumerNo 1 March
Divisions of PASNauki Techniczne
PublisherInstitute of Metallurgy and Materials Science of Polish Academy of Sciences ; Commitee on Metallurgy of Polish Academy of Sciences
ReferencesNabiałek (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.