Atmospheric Corrosion Monitoring of Field-exposed Q235B and T91 Steels in Zhoushan Offshore Environment Using Electrochemical Probes
来源期刊:Journal Of Wuhan University Of Technology Materials Science Edition2017年第6期
论文作者:夏大海 SONG Shizhe JIN Weixian LI Jian 高志明 WANG Jihui HU Wenbin
文章页码:1433 - 1440
摘 要:This work aimed to in-situ monitor the atmospheric corrosion of steels exposed to Zhoushan offshore environment by using electrochemical noise(EN) technique. A portable EN monitoring system was established and two electrochemical probes(named as Q235 B and T91) were designed. Experimental results indicated that the noise resistance of T91 steel was higher than that of Q235 B steel, revealing that the corrosion resistance of T91 was higher than that of Q235 B. A 60-day monitoring result indicated that the noise resistance was well correlated with the weight loss data. Wavelet analyses results of EN data indicated that Q235 B underwent uniform corrosion and T91 suffered from localized corrosion, which was further confirmed by the surface observation. It is concluded that EN can be used as a new method to identify the corrosion form and corrosion resistance in atmospheric conditions.
夏大海1,2,SONG Shizhe1,2,JIN Weixian3,LI Jian4,高志明1,WANG Jihui1,HU Wenbin1
1. School of Materials Science and Engineering, Tianjin University2. CAS Key Laboratory of Nuclear Materials and Safety Assessment, Institute of Metal Research, Chinese Academy of Sciences3. Zhoushan Marine Corrosion Institute of Central Research Institute of Iron and Steel4. State Key Laboratory of Precision Measurement Technology and Instrument, Tianjin University
摘 要:This work aimed to in-situ monitor the atmospheric corrosion of steels exposed to Zhoushan offshore environment by using electrochemical noise(EN) technique. A portable EN monitoring system was established and two electrochemical probes(named as Q235 B and T91) were designed. Experimental results indicated that the noise resistance of T91 steel was higher than that of Q235 B steel, revealing that the corrosion resistance of T91 was higher than that of Q235 B. A 60-day monitoring result indicated that the noise resistance was well correlated with the weight loss data. Wavelet analyses results of EN data indicated that Q235 B underwent uniform corrosion and T91 suffered from localized corrosion, which was further confirmed by the surface observation. It is concluded that EN can be used as a new method to identify the corrosion form and corrosion resistance in atmospheric conditions.
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