Add to ORKGThe effects of grain growth and compositional changes on the electrochemical behavior and the resistivity of amorphous iron-boron-silicon (Fe77.5B15Si7.5) alloys after crystallization were studied. Deterioration of the protective passive film was observed, along with increased annealing. Potentiodynamic polarization provided excellent information about microstructural and chemical changes. It was concluded that electrochemical measurements could be used in conjunction with resistivity measurements in direct studies of grain growth and chemical changes occurring in different phases of the devitrified alloy
The goal of this paper is to present the influence of temperature variation and iron substitution wi...
The anodic response of two Fe–Si–B–Cu–Nb alloys was investigated in buffered chloride and fluoride m...
Material characterization of metal induced lateral crystallization (MILC) process of amorphous silic...
Isothermal measurements of magnetic anisotropy and electrical resistivity have been performed on a F...
The crystallization in amorphous Fe40Ni40B20 alloy has been studied by electrical resistivity measur...
The work is focussed on the influence of tungsten on magnetization, electrical transport resistivity...
Surface crystallization in ferromagnetic amorphous ribbons produces a perpendicular magnetic anisotr...
The electrical resistance of amorphous Fe80B20 has been measured as a function of time at various te...
Using electron microscopy and electrical resistivity measurements, structural changes in amorphous a...
The crystallization processes for the amorphous metallic alloys Fe74B17Si2Ni4Mo3 and Fe86B6Zr7Cu1 (a...
Measurements of the electrical resistivity of Fe73.5Cu1Nb3Si13.5B9 have been performed under isother...
Magnetic and electric properties of amorphous alloys based on iron were examined by making use of di...
The synergistic effects of Nb and Cu on the crystallization of Fe-B-Si alloys led to a class of nano...
Iron-based amorphous alloys have been a focus of considerable scientific interest in recent years, ...
Crystallization processes for the amorphous metallic alloys Fe-Si-B-Ni and Fe-B-Zr-Cu were investiga...
The goal of this paper is to present the influence of temperature variation and iron substitution wi...
The anodic response of two Fe–Si–B–Cu–Nb alloys was investigated in buffered chloride and fluoride m...
Material characterization of metal induced lateral crystallization (MILC) process of amorphous silic...
Isothermal measurements of magnetic anisotropy and electrical resistivity have been performed on a F...
The crystallization in amorphous Fe40Ni40B20 alloy has been studied by electrical resistivity measur...
The work is focussed on the influence of tungsten on magnetization, electrical transport resistivity...
Surface crystallization in ferromagnetic amorphous ribbons produces a perpendicular magnetic anisotr...
The electrical resistance of amorphous Fe80B20 has been measured as a function of time at various te...
Using electron microscopy and electrical resistivity measurements, structural changes in amorphous a...
The crystallization processes for the amorphous metallic alloys Fe74B17Si2Ni4Mo3 and Fe86B6Zr7Cu1 (a...
Measurements of the electrical resistivity of Fe73.5Cu1Nb3Si13.5B9 have been performed under isother...
Magnetic and electric properties of amorphous alloys based on iron were examined by making use of di...
The synergistic effects of Nb and Cu on the crystallization of Fe-B-Si alloys led to a class of nano...
Iron-based amorphous alloys have been a focus of considerable scientific interest in recent years, ...
Crystallization processes for the amorphous metallic alloys Fe-Si-B-Ni and Fe-B-Zr-Cu were investiga...
The goal of this paper is to present the influence of temperature variation and iron substitution wi...
The anodic response of two Fe–Si–B–Cu–Nb alloys was investigated in buffered chloride and fluoride m...
Material characterization of metal induced lateral crystallization (MILC) process of amorphous silic...