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




No 1

Publication authors

Divisions of PAS

Nauki Techniczne


Institute of Metallurgy and Materials Science of Polish Academy of Sciences ; Commitee on Metallurgy of Polish Academy of Sciences




ISSN 1733-3490


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, ; 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, ; 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.