钢在合成粉煤灰孔隙溶液中的腐蚀

Juan Bosch Giner, D. Bastidas, U. Martin, J. Ress
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摘要

本文研究了粉煤灰(FA)合成孔溶液和碳化FA合成孔溶液对钢的腐蚀行为。如果能理清孔隙溶液中的腐蚀机理,将有助于更好地理解钢在FA粘结剂中的腐蚀现象。因此,更可持续的水泥材料将适用于建筑行业。通过循环动电位曲线(CPP)和电化学阻抗谱(EIS)等电化学测试,表征了钢在氯化物污染的FA合成孔溶液中的腐蚀行为以及碳化效应。结果表明,当氯化钠含量为0.1M NaCl时,FA合成孔溶液仍能对钢进行再钝化。在含0.6M NaCl的FA碳化孔溶液中,氯化物和碳化作用的腐蚀速率为3.547 × 10 -5 A/ cm2。
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Corrosion of steel in synthetic fly ash pore solution
s: Herein, the corrosion behavior of steel exposed to fly ash (FA) synthetic pore solution and carbonated FA synthetic pore solution is presented. A better understanding of corrosion phenomena of steel embedded in FA binder will be achieved if the corrosion mechanisms in the pore solution are disentangled. As such a more sustainable cementing material will be suitable for the construction industry. Electrochemical tests such as cyclic potentiodynamic curves (CPP) and electrochemical impedance spectroscopy (EIS) were performed in order to characterize the corrosion behavior of steel in chloride contaminated FA synthetic pore solution as well as the carbonation effect. Results showed that FA synthetic pore solution was able to repassivate the steel even with chloride contents of 0.1M NaCl. Furthermore, the combined effect of chloride and carbonation induced corrosion was observed, showing corrosion rates of 3.547 × 10 ‒5 A/cm 2 in FA carbonated pore solution containing 0.6M NaCl.
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