H. Al-Mazeedi, A. Al-Farhan, N. Tanoli, L. Abraham
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引用次数: 4
摘要
采用电化学技术研究了碳钢(CS)与316 SS、321 SS、incoly 825和2205 SS 4种不同合金在60℃脱氧3.5%二硫化铵溶液(ABS)中的电偶腐蚀。电化学工作包括测量单独合金的电势,以及测量偶联金属的电势和电流随时间的函数和埃文斯(极化)图。测定了电偶联对阳极和阴极反应速率的影响。结果表明,当CS与所选合金耦合时,CS均受到电偶腐蚀,但腐蚀速率不同;因此,在60℃的滞气脱氧3.5% ABS中,建议避免CS与任何贵金属合金的电偶。结果表明,在60°C的停滞无氧3.5% ABS溶液中,与CS一起使用的最佳合金是SS2205,因为电偶的CR最低,Ecorr负值较小,表明CS在该环境中与SS2205耦合时腐蚀速率较低。
A Study of Galvanic Corrosion in Stagnant Ammonium Bisulfide Solution
Galvanic corrosion of carbon steel (CS) coupled to four different alloys, namely, 316 SS, 321 SS, Incoloy 825, and 2205 SS, was studied in deaerated 3.5% ammonium bisulfide solution (ABS) at 60°C by electrochemical techniques under stagnant condition. The electrochemical work included the measurements of the potential of separate alloys as well as the measurements of galvanic potential and galvanic current as a function of time and Evans (polarization) diagrams of coupled metals. The impact of galvanic coupling on the anodic and cathodic reaction rates was determined. It was found that the CS suffered galvanic corrosion when it was coupled to all of the selected alloys but at different rates; so, it is recommended to avoid the galvanic coupling of CS with any of the noble alloys in stagnant deaerated 3.5% ABS at 60°C. Results indicated that the best alloy to be used with the CS in stagnant deaerated 3.5% ABS solution at 60°C is SS 2205 since the galvanic couple has the lowest CR with a less negative Ecorr value, indicating that CS corrodes at a lower rate when it is coupled to SS2205 in this environment.
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