Effect of 1H-benzotriazole on Galvanic Corrosion Behavior of Carbon Steel/Copper Alloy

被引：0

作者：

Wang L. ^{[1
]}

Zhou Y. ^{[2
]}

Li C.-P. ^{[3
]}

Liu J. ^{[3
]}

机构：

[1] Aviation Foundation College, Naval Aviation University, Yantai

[2] Weathering Test and Research Center of Science Technology and Industry for National Defense, Southwest Technology and Engineering Research Institute, Chongqing

[3] School of Chemistry and Chemical Engineering, Yantai University, Yantai

来源：

Surface Technology | 2022年 / 51卷 / 02期

基金：

中国国家自然科学基金;

关键词：

carbon steel; copper alloy; corrosion inhibition; EIS; galvanic corrosion; WBE;

D O I：

10.16490/j.cnki.issn.1001-3660.2022.02.025

中图分类号：

学科分类号：

摘要：

The work aims to study the effect of 1H-benzotriazole (BTA) in NaCl solution on the galvanic corrosion behavior of carbon steel/copper alloy. The potential distribution, current density distribution and EIS evolution of the WBE in NaCl solution with and without BTA were studied by the wire beam electrode (WBE) and electrochemical impedance spectroscopy (EIS) techniques. Meanwhile, the EIS characteristics of the carbon steel area and the copper alloy area were compared and analyzed. After immersion for 72 h under the condition without BTA, the anodic current area on the carbon steel surface accounted for 80%, and the range of current density distribution was narrow. After immersion for 72 h under the condition with BTA, the proportion of anode area on the surface of carbon steel was 86%, and the range of current density distribution was significantly enlarged. The impedance value of the copper alloy under the condition with corrosion inhibitor was greater than that of the copper alloy under the condition without corrosion inhibitor. However, the impedance value of carbon steel in the solution with and without BTA was relatively small. When copper alloy and carbon steel are electrically coupled in NaCl solution, the electrochemical inhomogeneity of carbon steel is increased due to corrosion inhibition effect of BTA. In the galvanic corrosion process of carbon steel/copper alloy, BTA only plays a good corrosion inhibition effect on the copper alloy, and the corrosion inhibition effect of BTA on carbon steel is not obvious. Compared with the carbon steel/copper alloy couple, when the copper alloy is individually immersed in a solution containing BTA, the Cu-BTA molecular film formed on the surface is more stable and the corrosion inhibition effect is better. With the extension of the immersion time, the electrode reaction rates of the WBE in the NaCl solution added with BTA are gradually increased, while the changes of the electrode reaction rates of the WBE under the conditions without BTA are exactly the opposite. © 2022, Chongqing Wujiu Periodicals Press. All rights reserved.

引用

页码：259 / 267

页数：8

共 26 条

[1] GLASS G K, ASHWORTH V., The Corrosion Behaviour of the Zinc-Mild Steel Galvanic Cell in Hot Sodium Bicarbonate Solution, Corrosion Science, 25, 11, pp. 971-983, (1985)
[2] PROSEK T, NAZAROV A, BEXELL U, Et al., Corrosion Mechanism of Model Zinc-Magnesium Alloys in Atmospheric Conditions, Corrosion Science, 50, 8, pp. 2216-2231, (2008)
[3] FINSGAR M, MILOSEV I., Inhibition of Copper Corrosion by 1, 2, 3-Benzotriazole: A Review, Corrosion Science, 52, 9, pp. 2737-2749, (2010)
[4] FINSGAR M, PETOVAR B, XHANARI K, Et al., The Corrosion Inhibition of Certain Azoles on Steel in Chloride Media: Electrochemistry and Surface Analysis, Corrosion Science, 111, pp. 370-381, (2016)
[5] HUANG Hua-liang, BU Fu-rong, Correlations between the Inhibition Performances and the Inhibitor Structures of some Azoles on the Galvanic Corrosion of Copper Coupled with Silver in Artificial Seawater, Corrosion Science, 165, (2020)
[6] WANG Z Z, LI Y Y, ZHANG G A., Inhibitive Effects of Inhibitors on the Galvanic Corrosion between N80 Carbon Steel and 13Cr Stainless Steel under Dynamic Supercritical CO<sub>2</sub> Conditions, Corrosion Science, 146, pp. 121-133, (2019)
[7] SABET BOKATI K, DEHGHANIAN C, YARI S., Corrosion Inhibition of Copper, Mild Steel and Galvanically Coupled Copper-Mild Steel in Artificial Sea Water in Presence of 1H-Benzotriazole, Sodium Molybdate and Sodium Phosphate, Corrosion Science, 126, pp. 272-285, (2017)
[8] COELHO L B, MOUANGA M, DRUART M E, Et al., A SVET Study of the Inhibitive Effects of Benzotriazole and Cerium Chloride Solely and Combined on an Aluminium/ Copper Galvanic Coupling Model, Corrosion Science, 110, pp. 143-156, (2016)
[9] IZQUIERDO J, NAGY L, SANTANA J J, Et al., A Novel Microelectrochemical Strategy for the Study of Corrosion Inhibitors Employing the Scanning Vibrating Electrode Technique and Dual Potentiometric/Amperometric Ope-ration in Scanning Electrochemical Microscopy: Application to the Study of the Cathodic Inhibition by Benzo-triazole of the Galvanic Corrosion of Copper Coupled to Iron, Electrochimica Acta, 58, pp. 707-716, (2011)
[10] LIU Jie, ZHANG Lun-wu, MU Xian-liang, Et al., Studies of Electrochemical Corrosion of Low Alloy Steel under Epoxy Coating Exposed to Natural Seawater Using the WBE and EIS Techniques, Progress in Organic Coa-tings, 111, pp. 315-321, (2017)

← 1 2 3 →