Surface Characterization of Ni64P20Fe16Amorphous Alloy by X-ray Photoelectron Spectroscopy and Auger Electron Spectroscopy
来源期刊:JOURNAL OF MATERIALS SCIENCE TECHNOLOG1992年第3期
论文作者:姜洪刚 王景唐 丁炳哲
文章页码:157 - 162
摘 要:<正> The nature of the native oxides formed on thesurface layer of amorphous alloy Ni64P20Fe16hasbeen studied by X-ray photoelectron spectroscopy(XPS)and Auger electron spectroscopy(AES)withdepth profiling by ion bombardment.There aregreat distinctions in compositions and chemicalstates between the surface layer and the bulk.Themain constituents Ni,P and Fe are lower in the sur-face layer,and they are mostly in oxidized states,whereas C,O and N are enriched in the surface lay-er.The thickness of surface oxide layer isapproximately 20 nm,this layer was assumed to beof great significance to various properties of amor-phous alloy Ni64P20Fe16,expecially to the chemicaland catalytic properties.Experiments proved thattransitional element Fe cannot improve oxidationresistance of the amorphous Ni-P system.
姜洪刚,王景唐,丁炳哲
摘 要:<正> The nature of the native oxides formed on thesurface layer of amorphous alloy Ni64P20Fe16hasbeen studied by X-ray photoelectron spectroscopy(XPS)and Auger electron spectroscopy(AES)withdepth profiling by ion bombardment.There aregreat distinctions in compositions and chemicalstates between the surface layer and the bulk.Themain constituents Ni,P and Fe are lower in the sur-face layer,and they are mostly in oxidized states,whereas C,O and N are enriched in the surface lay-er.The thickness of surface oxide layer isapproximately 20 nm,this layer was assumed to beof great significance to various properties of amor-phous alloy Ni64P20Fe16,expecially to the chemicaland catalytic properties.Experiments proved thattransitional element Fe cannot improve oxidationresistance of the amorphous Ni-P system.
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