Study on the passive film formed on 2205 stainless steel in acetic acid by AAS and XPS 被引量：6

Study on the passive film formed on 2205 stainless steel in acetic acid by AAS and XPS

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摘要 The properties of the passive film formed on 2205 stainless steel in acetic acid at high temperature that contained chloride ions were studied by atomic absorption spectrometry （AAS）, X-ray photoelectron spectroscopy （XPS）, and electrochemical polarization measurements. AAS results show that molybdenum is enriched on the surface as the passive film is dissolved. This enrichment decreases the corrosion resistance because it hinders chloride adsorption and Fe ion dissolution, and acts as a local pH buffer because it consumes protons. The dissolution ratio of Fe/Cr is approximately 10 during the active dissolution of the passive film. XPS results indicate that when the potential is in the passivation region, Cr comprises about 50% of the metal cations in the near-surface region of the passive film and is the main metal constituent in this region. When the polarization potential is much greater than the transpassivation potential, the Mo content accounts for approximately 45% of the metal cations in the nearurface region; Fe and Ni have no obvious influence on the formation, dissolution, or puncture of the passive film. The properties of the passive film formed on 2205 stainless steel in acetic acid at high temperature that contained chloride ions were studied by atomic absorption spectrometry （AAS）, X-ray photoelectron spectroscopy （XPS）, and electrochemical polarization measurements. AAS results show that molybdenum is enriched on the surface as the passive film is dissolved. This enrichment decreases the corrosion resistance because it hinders chloride adsorption and Fe ion dissolution, and acts as a local pH buffer because it consumes protons. The dissolution ratio of Fe/Cr is approximately 10 during the active dissolution of the passive film. XPS results indicate that when the potential is in the passivation region, Cr comprises about 50% of the metal cations in the near-surface region of the passive film and is the main metal constituent in this region. When the polarization potential is much greater than the transpassivation potential, the Mo content accounts for approximately 45% of the metal cations in the nearurface region; Fe and Ni have no obvious influence on the formation, dissolution, or puncture of the passive film.

作者 Xue-qun Cheng Xiao-gang Li Chao-fang Dong

机构地区 Corrosion and Protection Center

出处《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 2009年第2期170-176,共7页 矿物冶金与材料学报（英文版）

基金 the National Natural Science Foundation of China (No.50871020)

关键词 acetic acid corrosion electrochemical behavior stainless steel passive film acetic acid corrosion electrochemical behavior stainless steel passive film

分类号 O657.31 [理学—分析化学] TQ174.758 [化学工程—陶瓷工业]

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International Journal of Minerals,Metallurgy and Materials

2009年第2期

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