The microstructure,soft magnetic properties and corrosion resistance of Fe_(83)B_(9)C_(6)X_(2)(X=C,Si,Ge,Sn;i.e.,IVA elements)amorphous alloys were systematically investigated.As the atomic mass of the IVA elements(M_...The microstructure,soft magnetic properties and corrosion resistance of Fe_(83)B_(9)C_(6)X_(2)(X=C,Si,Ge,Sn;i.e.,IVA elements)amorphous alloys were systematically investigated.As the atomic mass of the IVA elements(M_(IVA))increased,the saturation magnetization(B_(s))and gyromagnetic ratio(γ)followed a non-monotonic trend.They first increased and then decreased,showing an inverse correlation with the change in their inter-atomic characteristic distance(δ_(c)).The highest B_(s)(1.76 T)and y were observed with a minor addition of Ge.Simultaneously,the corrosion potential(E_(corr)),wetting angle(θ_(w)),permeability(μ),and relaxation rate(ω_(r))initially decreased and then increased.Si addition led to the lowest corrosion resistance,the smallest permeability,and the highest coercivity(H_(c)).This is due to precipitated crystallites and induced structural heterogeneity.Electron paramagnetic resonance(EPR)analysis revealed that Ge doping enhanced structural homogeneity and cluster alignment,contributing to its superior soft magnetic performance.These findings are conducive to developing new low-cost Fe-based amorphous alloys with excellent soft magnetic properties.展开更多
基金financially supported by the key research and development program of China(No.2022YFB2404100)the National Natural Science Foundation of China(Nos.51971093,52171158 and 52101196)+1 种基金the Open Project Program of Shandong Marine Aerospace Equipment Technological Innovation Center(Ludong University)(No.MAETIC2021-11)the key research and development program of Shandong Province(Nos.2021ZLGX01,2022CXGC020308 and 2023CXGC010308)
文摘The microstructure,soft magnetic properties and corrosion resistance of Fe_(83)B_(9)C_(6)X_(2)(X=C,Si,Ge,Sn;i.e.,IVA elements)amorphous alloys were systematically investigated.As the atomic mass of the IVA elements(M_(IVA))increased,the saturation magnetization(B_(s))and gyromagnetic ratio(γ)followed a non-monotonic trend.They first increased and then decreased,showing an inverse correlation with the change in their inter-atomic characteristic distance(δ_(c)).The highest B_(s)(1.76 T)and y were observed with a minor addition of Ge.Simultaneously,the corrosion potential(E_(corr)),wetting angle(θ_(w)),permeability(μ),and relaxation rate(ω_(r))initially decreased and then increased.Si addition led to the lowest corrosion resistance,the smallest permeability,and the highest coercivity(H_(c)).This is due to precipitated crystallites and induced structural heterogeneity.Electron paramagnetic resonance(EPR)analysis revealed that Ge doping enhanced structural homogeneity and cluster alignment,contributing to its superior soft magnetic performance.These findings are conducive to developing new low-cost Fe-based amorphous alloys with excellent soft magnetic properties.
