Electrochemical Corrosion Behavior of 10# Carbon Steel in NaOH Solution
摘 要
采用动电位扫描法和电化学阻抗谱法研究了NaOH溶液的温度和含量对10号碳钢耐蚀性的影响,并通过光学金相显微镜,对试样的表面腐蚀形貌进行了观察。结果表明:随着NaOH溶液温度和浓度的升高,10号碳钢的腐蚀电流密度升高,自腐蚀电位降低,腐蚀程度加深。NaOH质量分数≤20%时,极化曲线有明显的钝化区,电化学阻抗谱Nyquist图呈现单一容抗弧,10号碳钢形成的钝化膜致密完整,腐蚀较轻,试样表面在过钝化区发生点蚀。NaOH质量分数≥30%,温度>30℃时,极化曲线出现阳极电流密度峰,电化学阻抗谱Nyquist图高频区容抗弧半径减小,低频区出现扩散阻抗,反应由电化学控制转为扩散控制,10号碳钢点蚀程度加深。
Abstract
The effect of the temperature and content of NaOH on the corrosion behavior of 10# carbon steel was studied through potential dynamic method and electrochemical impendance spectroscopy. The surface corrosion morphology of specimens was observed by an optical microscope. The results showed that with the increase of the temperature and content of NaOH solution, the corrosion current density of 10# carbon steel increased, the corrosion potential decreased, and the corrosion degree increased. When the concentration of NaOH was ≤ 20%, the polarization curves had an evident passivation zone and there was a single capacitive reactance arc on the Nyquist diagrams of electrochemical impedance spectroscopy, the passivation film was complete and dense, the corrosion was relatively light, pitting occured on the surface of 10# carbon steel when it came to transpassivation zone. When the concentration of NaOH was ≥ 30% and the temperature was >30℃, anodic current density peaks appeared on the polarization curves, the radius of capacitive reactance arc in the high frequency area of Nyquist figure decreased and diffusion impedance occurred in the low frequency area of Nyquist figure, the reaction was controlled by diffusion instead of electrochemistry, the pitting degree of 10# carbon steel was deepened.
中图分类号 TG174 DOI 10.11973/fsyfh-201811005
所属栏目 试验研究
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收稿日期 2017/3/7
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引用该论文: ZHAO Tianlei,LU Wei,LÜ,Haiwu,XU Guangyuan,WANG Kuisheng. Electrochemical Corrosion Behavior of 10# Carbon Steel in NaOH Solution[J]. Corrosion & Protection, 2018, 39(11): 833
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参考文献
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【5】CHEN Y M,ORAZEM M E. Impedance analysis of ASTM A416 tendon steel corrosion in alkaline simulated pore solutions[J]. Corrosion Science,2016,104:26-35.
【6】扈显琦,梁成浩. 交流阻抗技术的发展与应用[J]. 腐蚀与防护,2004,25(2):57-60.
【7】YASUDA M,OKADA M,HINE F. Corrosion of carbon steel in hot NaOH solutions under heat transfer conditions[J]. Corrosion,1982,38(5):256-261.
【8】许淳淳,池琳,胡钢. X70管线钢在CO32-/HCO3-溶液中的电化学行为研究[J]. 腐蚀科学与防护技术,2004,16(5):268-271.
【9】张鹏辉,杨仕豪,莫丽儿. 铁和碳钢在浓碱溶液中的阳极极化曲线[J]. 广州化工,2007,35(5):43-45.
【10】谢巧玲,陈文汨,杨权平. 4种钢在含硫拜耳液中的腐蚀行为[J]. 中南大学学报(自然科学版),2014,45(8):2559-2565.
【11】周建龙,李晓刚,杜翠薇,等. X80管线钢在NaHCO3溶液中的阳极电化学行为[J]. 金属学报,2010,46(2):251-256.
【12】熊文兵,陈迎锋,路民旭. 电化学阻抗法研究土壤模拟溶液中CFRP/碳钢体系的腐蚀行为[J]. 腐蚀与防护,2007,28(10):503-508.
【13】楠顶,董俊慧. 温度对5种金属在浓碱中腐蚀行为的影响[J]. 氯碱工业,2007(9):40-45.
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