摘要
为研究Fe-Cr合金在含Cl-和SO2-4离子溶液中浸泡的腐蚀行为,采用显微激光拉曼光谱技术进行腐蚀产物分析,并进行线性极化和交流阻抗电化学测试明确腐蚀机理。研究结果表明,Fe-Cr合金含有大量Cr更容易形成钝化膜,在浸泡初期Fe-Cr合金腐蚀速度很小。随着浸泡时间增加,维钝电流密度呈现先增加而后明显减小的趋势,说明钝化膜不断加强,钝化膜起到较好的阻碍Cl-和SO2-4阴离子侵蚀作用。在酸性溶液中,Fe-Cr合金钝化的同时也发生着点蚀,且随着浸泡时间的增长而加剧。Fe-Cr合金在浸泡150 h后,在三角晶界及其附近的晶界更易出现腐蚀产物,这是由于模拟溶液中含有大量Cl-离子,致使钝化膜破损。而在Fe-Cr合金的腐蚀产物中出现CrOOH,对腐蚀有抑制作用。
The corrosion behaviors of Fe-Cr alloy in the acidic solutions with Cl and SO4^2- are investigated. The corrosion mechanisms are characterized by the linear polarization and the electrochemical impedance spectroscopy measurements, and the corrosion products are analyzed by the laser Raman spectrometry. It is shown that the Fe-Cr alloy is attributed for the passive film, which is formed more easily when the alloy contains a large quantity of Cr element. In the early immersion, the corrosion rate of Fe-Cr alloy is very small. With the immersion time increases, the passive current density firstly increases, and then decreases. The passive film can well prevent the Cl- and SO4^2- anion erosions. For Fe-Cr alloy, pitting occurs in an acidic solution, and it increases its extent with the increase of the immersion time. If the Fe-Cr alloy is immersed in the solutions for 150 h, the corrosion products appear in the near grain boundary, and are more likely to occur in the triangle grain boundary. The corrosion products of the Fe-Cr alloy contain CrOOH.
出处
《科技导报》
CAS
CSCD
北大核心
2014年第21期26-30,共5页
Science & Technology Review
基金
国家自然科学基金项目(50871021)
关键词
Fe—Cr合金
腐蚀行为
线性极化
交流阻抗
Fe-Cr Alloy
corrosion behavior
linear polarization
electrochemical impedance spectroscopy
