Details Details PDF BIBTEX RIS Title Effect of structural relaxations within the amorphous structure on the magnetic properties of amorphous tapes from FeCoB family Journal title Archives of Metallurgy and Materials Yearbook 2017 Volume vol. 62 Issue No 1 Authors Szota, 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 2017 Identifier DOI: 10.1515/amm-2017-0031 ; e-ISSN 2300-1909 Source Archives of Metallurgy and Materials; 2017; vol. 62; No 1 References Goll (2007), Micromagnetism - Microstructure Relations and the Hysteresies Loop Handbook of Magnetism and Advanced Magnetic Materials Edited by, and, 2. ; Brown (1940), Theory of the Approach to Magnetic Saturation, Phys Rev, 58. ; Gondro (2015), Magnetocaloric Effect in Amorphous and Partially Crystallized Fe Alloy, Acta Phys Pol A, 127. ; Błoch (2015), Approach to Ferromagnetic Saturation for the Bulk Amorphous Alloy Co Ti -, Acta Phys Pol A, 61, 127. ; Gondro (2014), Microstructure and some thermomagnetic properties of amorphous and partially crystallized Fe - - - alloys, Physica B Condensed Matter, 22, 445. ; Szewieczek (2001), Changes of mechanical properties and fracture morphology of amorphous tapes involved by heat treatment, Mater Process Tech, 109. ; Lesz (2011), The characterization of structure thermal stability and magnetic properties of Fe - Co Nb bulk amorphous and nanocrystalline alloys, Alloy Compd, 509. ; Masumoto (1971), The mechanical properties of palladium a silicon alloy quenched from the liquid state, Acta Met, 20, 19. ; Błoch (2015), The Influence of Heat Treatment on Irreversible Structural Relaxation in Bulk Amorphous Fe Co - Alloy, Acta Phys Pol A, 10, 127. ; Błoch (2015), Crystallization of Fe - based bulk amorphous alloys, Arch Metall Mater, 60. ; Gruszka (2015), Effect of heat treatment on the shape of the hyperfine field induction distributions and magnetic properties of amorphous soft magnetic Fe Co alloy, Nukleonika, 62, 23. ; Szewieczek (2005), Influence of structure on the evolution of magnetic and mechanical properties of amorphous and nanocrystalline Fe alloy, Mater Process Tech, 1, 85. ; Chen (1970), A rapid quenching technique for the preparation of thin uniform films of amorphous solids, Rev Sci Instrum, 41. ; Kronmüller (1981), Micormagnetism and Microstructure of Amorphous Alloys, Appl Phys, 52, 1859, doi.org/10.1063/1.329552 ; Wang (2007), Roles of minor additions in formation and properties of bulk metallic glasses, Prog Mater Sci, 52. ; Köster (1994), Crystalization of highly undercooled metallic metals and metallic glasses around the glas transition temperature, Mat Sci Eng, 178. ; Kulik (1991), Effect of flash - and furnace annealing on the magnetic and mechanical properties of metallic glasses, Mat Sci Eng, 133. ; Duwez (1963), Rapid Quenching of Liquid Alloys, and Metall Soc Aime, 227. ; Inoue (1998), Bulk amorphous alloys : Preparation and fundamental characteristic, Mater Sci Fundations Trans Tech, 6, 1. ; Błoch (2015), Magnetic properties of the suction - cast bulk amorphous alloy Co, Mang Magn Mater, 61, 390. ; Pond (1969), A method of producting rapidly solidified filamentary castings, Trans Metall Soc AIME, 245. ; Nabiałek (2015), Influence of the production method of Fe Co amorphous alloy on the resulting microstructure and hyperfine field distribution, Alloy Compd, 61, 628. ; Gondro (2016), Curie Temperature and Microstructural Changes due to the heating treatment of magnetic amorphous materials, Arch Metall Mater, 61. ; Garus (2014), The Influence of Heat Treatment on Soft Magnetic Properties of the Fe Co Alloy, Acta Phys Pol A, 60, 126. ; Nabiałek (2014), Influence of the cooling speed on the soft magnetic and mechanical properties of Fe Co amorphous Allom, Alloy Compd, 61, 615. ; Holstein (1940), Field Dependence of the IntristicDomain Magnetization of a Ferromagnet, Phys Rev, 58. ; Lenge (1986), Low Temperature Magnetization of Sputtered Amorphous Fe Films, Phys Status Solidi A, 95. ; Kohmoto (1982), High - field Magnetization Curves of Amorphous Alloys, Appl Phys, 53. ; Nabiałek (2015), An investigation into the effect of isothermal annealing on magnetic properties in the alloy : Fe Co, Arch Metall Mater, 10, 60. ; Lesz (2004), The structure and magnetoelastic properties of the Fe - based amorphous alloy with Hf addition, Mater Process Tech, 157. ; Garus (2014), The Study of Magnetization in Strong Magnetic Fields for Alloys Fe Co, Acta Phys Pol A, 60, 0. ; Nabiałek (2015), Soft magnetic and microstructural investigation in Fe - based amorphous alloy, Alloy Compd, 642. ; Egami (1980), Structural Defects in Amorphous Solids A computer Simulation study, Philosophical Magazine, 41. ; Inoue (4000), Fe - and Co - based bulk glassy alloys with ultrahigh strength of over MPa, Intermetallics, 14, 936, doi.org/10.1016/j.intermet.2006.01.038 ; Pietrusiewicz (2015), Influence of Addition of Nb and W on the Relaxation Process in Classical Fe - Based Amorphous Alloys, Acta Phys Pol A, 1. ; Vazquez (1989), Approach to ferromagnetic Saturation in rapidly quenched amorphous alloys, Phys Stat Sol, 115. ; Brown (1941), The Effect of Dislocations on Magnetization Near Sturation, Phys Rev, 60. ; McHenry (1999), Amorphous and nanocrystalline materials for applications as soft magnets, Prog Mater Sci, 44.