AZ31镁合金在含多种阴离子中性水溶液中的电化学行为

IF 2.2 4区工程技术 Q3 ELECTROCHEMISTRY

Journal of electrochemical science and technology Pub Date : 2023-06-14 DOI:10.33961/jecst.2023.00213

Duyoung Kwon, Hien Pham, Pung-Geun Song, S. Moon

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引用次数: 1

摘要

本工作旨在表征AZ31镁合金在中性水溶液中的电化学行为，其中存在Cl-、SO42-、PO43-和F-离子，并将pH调节至6以排除H+和OH-离子的贡献。采用开路电位（OCP）瞬态、电化学阻抗谱（EIS）和动力学极化曲线。OCP值的下降顺序为F-＞Cl-＞SO42-＞PO43-离子，腐蚀电流密度的增加顺序相同。电化学阻抗谱（EIS）数据显示，在所有溶液中都出现了两个电容性电弧，在含有PO43的溶液中又出现了一个感应性电弧。通过对两个电容弧的拟合，得到了致密膜的电容（Cdf）、多孔膜的电阻（Rpf）以及多孔膜下的双层电容（Cdl）和电荷转移电阻（Rct）。提出了一个简化模型，其中假设AZ31镁合金表面存在不同厚度和覆盖率的致密多孔膜，以解释四种不同阴离子对AZ31镁镁合金电化学行为的影响。

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Electrochemical Behavior of AZ31 Mg Alloy in Neutral Aqueous Solutions Containing Various Anions

This work was performed to characterize the electrochemical behavior of AZ31 Mg alloy in neutral aqueous solutions where Cl - , SO 42- , PO 43- , and F - ions were present and pH was adjusted to 6 to exclude the contribution of H + and OH - ions. Open-circuit potential (OCP) transient, electrochemical impedance spectroscopy (EIS) and potnetiodynamic polarization curves were employed. The OCP value appeared to decrease in the order of F - > Cl - > SO 42- > PO 43- ions while corrosion current density increased in the same order. Electrochemical impedance spectroscopy (EIS) data showed two capacitive arcs in all the solutions and one more inductive arc appeared in PO 43- -containing solution. By fitting of two capacitive arcs, capacitance of dense film (C df ), resistance of porous film (R pf ) and double layer capacitance (C dl ) and charge transfer resistance (R ct ) beneath the porous films were obtained. A simplified model in which various thicknesses and coverages of dense and porous films are assumed to be present on the AZ31 Mg alloy surface, is suggested to explain the effects of four different anions on the electrochemical behavior of AZ31 Mg alloy.

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来源期刊

Journal of electrochemical science and technology ELECTROCHEMISTRY-

CiteScore

6.30

自引率

8.10%

发文量

期刊介绍： Covering fields: - Batteries and Energy Storage - Biological Electrochemistry - Corrosion Science and Technology - Electroanalytical Chemistry and Sensor Technology - Electrocatalysis - Electrochemical Capacitors & Supercapcitors - Electrochemical Engineering - Electrodeposition and Surface Treatment - Environmental Science and Technology - Fuel Cells - Material Electrochemistry - Molecular Electrochemistry and Organic Electrochemistry - Physical Electrochemistry - Solar Energy Conversion and Photoelectrochemistry