[1]朱培珂,桂 晶,路 辉,等.电化学噪声技术对不锈钢表面局部腐蚀监测的应用进展[J].电镀与精饰,2021,(1):11-17.[doi:10.3969/j.issn.1001-3849.2021.01.0030]
 ZHU Peike,GUI Jing,LU Hui,et al.Application Progress of Electrochemical Noise Technology in Local Corrosion Monitoring of Stainless Steel Surface[J].Plating & Finishing,2021,(1):11-17.[doi:10.3969/j.issn.1001-3849.2021.01.0030]
点击复制

电化学噪声技术对不锈钢表面局部腐蚀监测的应用进展()

《电镀与精饰》[ISSN:1001-3849/CN:12-1096/TG]

卷:
期数:
2021年1
页码:
11-17
栏目:
出版日期:
2021-01-09

文章信息/Info

Title:
Application Progress of Electrochemical Noise Technology in Local Corrosion Monitoring of Stainless Steel Surface
作者:
朱培珂1桂 晶2路 辉3杨志文2崔明月1李大朋2*杨军征1王青华1王 艳1
1. 中国石油勘探开发研究院, 北京100083; 2. 安科工程技术研究院(北京)有限公司, 北京 100083; 3. 中国石油国际勘探开发有限公司, 北京, 100034
Author(s):
ZHU Peike1 GUI Jing2 LU Hui3 YANG Zhiwen2 CUI Mingyue1 LI Dapeng2* YANG Junzheng1 WANG Qinghua1 WANG Yan1
1. PetroChina Research Institute of Petroleum Exploration & Development, Beijing 100083, China; 2. Safetech Research Institute, Beijing 100083, China; 3.China National Oil and Gas Exploration and Development Co.,Ltd., Beijing 100034, China
关键词:
电化学噪声局部腐蚀电化学阻抗不锈钢
Keywords:
electrochemical noise local corrosion electrochemical impedance spectroscopy stainless steel
DOI:
10.3969/j.issn.1001-3849.2021.01.0030
文献标志码:
A
摘要:
本文介绍了电化学噪声技术的原理及分析方法,利用恒电流极化在不锈钢表面制造局部腐蚀坑,通过电化学噪声技术对不锈钢表面局部腐蚀进行监测,并通过微观形貌、线性极化、电化学阻抗对电化学噪声的监测效果进行验证。结果表明,采用电化学噪声技术能够有效的对局部腐蚀进行监测,且微观形貌、线性极化与电化学交流阻抗的表征测试结果均与电化学噪声测试结果一致。
Abstract:
In this paper, the principle and analysis method of electrochemical noise technology were introduced. Local corrosion pits were made on the surface of stainless steel by constant current polarization and monitored by electrochemical noise technology, and the monitoring effect of electrochemical noise was verified by micromorphology, linear polarization and electrochemical impedance. The results showed that electrochemical noise technology could effectively monitor the local corrosion. The characterization results of the micromorphology, linear polarization and electrochemical impedance are in good agreement with the electrochemical noise test results.

参考文献/References:

[1] 刘晓方, 王汉功, 权高峰, 等. 电化学系统噪声分析进展[J]. 腐蚀科学与防护技术, 2001, 13(2): 101-105.
Liu X F, Wang H G, Quan G F, et al. Progress in noise analysis of electrochemical system[J]. Corrosion Science and Protection Technology, 2001, 13(2): 101-105 (in Chinese).
[2] 董泽华, 郭兴蓬, 郑家燊. 电化学噪声的分析方法[J]. 材料保护, 2001, 34(7): 20-23.
Dong Z H, Guo X P, Zheng J S. Analytical method of electrochemical noise[J]. Material Protection, 2001, 34(7): 20-23 (in Chinese).
[3] 程列鑫, 董泽, 杜锡勇, 等. 电化学噪声技术在金属腐蚀检测中的应用现状及发展趋势[J]. 材料导报, 2015, 29: 462-465.
Cheng L X, Dong Z, Du X Y, et al. Application status and development trend of electrochemical noise technology in metal corrosion detection[J]. Materials Review, 2015, 29: 462-465 (in Chinese).
[4] 常立民, 陈丹, 石淑云. 3种锌镍合金镀层耐蚀性的电化学研究[J]. 材料保护, 2008, 41(10): 17-19.
Chang L M, Chen D, Shi S Y. Electrochemical study on corrosion resistance of three zinc nickel alloy coatings[J]. Material Protection, 2008, 41(10): 17-19 (in Chinese).
[5] 李全德, 倪荣, 范华. 有机涂层性能电化学测试技术的应用进展[J]. 材料保护, 2013, 46(7): 53-57.
Li Q D, Ni R, Fan H. Application progress of electrochemical testing technology for organic coating performance[J]. Material Protection, 2013, 46 (7): 53-57 (in Chinese).
[6] 胡会利, 李宁, 程瑾宁, 等. 用电化学噪声法研究镀锌层在海水中的腐蚀行为[J]. 材料保护, 2007, 40(8): 1-5.
Hu H L, Li N, Cheng J N, et al. Study on Corrosion Behavior of zinc coating in seawater by electrochemical noise method[J]. Material Protection, 2007, 40(8): 1-5 (in Chinese).
[7] 安丽娟, 李庆芬, 赵永韬. 40Cr钢在海水中抗应力腐蚀的快速评价[J]. 材料保护, 2011, 44(1): 19-21.
An L J, Li Q F, Zhao Y T. Rapid evaluation of stress corrosion resistance of 40Cr steel in seawater[J]. Material Protection, 2011, 44(1): 19-21 (in Chinese).
[8] Loto C A. Analysis of electrochemical noise data of stress corrosion cracking of high-strength carbon steel in acidified NaCl solution[J]. Journal of Failure Analysis and Prevention, 2018, 18: 699-706.
[9] Rajabalizadeh Z, Seifzadeh D, Habibi-Yangjeh A, et al. Electrochemical noise analysis to examine the corrosion behavior of Ni-P deposit on AM60B alloy plated by Zr pretreatment[J]. Surface & Coatings Technology, 2018, 346: 29-39.
[10] 龚金海, 刘德绪, 王晓霖. 普光气田集输系统的腐蚀控制技术[J]. 腐蚀与防护, 2012(4): 317-319.
Gong J H, Liu D X, Wang X L. Corrosion control technology of Puguang gas field gathering system[J]. Corrosion and Protection, 2012(4): 317-319 (in Chinese).
[11] Mandujano-Ruíz A, Morales-Hernández J, Casta?eda-Saldivar F, et al. Electrochemical noise analysis of corrosion behavior of stainless steel 304 exposed in NaCl and FeCl3 solutions[J]. International Journal of Electrochemical Science, 2018(13): 1062-1073.
[12] 张鉴清, 张昭, 王建明, 等. 电化学噪声的分析与应用—I. 电化学噪声的分析原理[J]. 中国腐蚀与防护学报, 2001, 21(5): 310-316.
Zhang J Q, Zhang Z, Wang J M, et al. Analysis and application of electrochemical noise-I. analysis principle of electrochemical noise[J]. Chinese Journal of Corrosion and Protection, 2001, 21(5): 310-316 (in Chinese).
[13] 李大朋, 张雷, 岳小琪, 等. G3合金在高温高H2S/CO2环境下临界点蚀温度研究[J]. 稀有金属材料与工程, 2017, 46(8): 2144-2148.
Li D P, Zhang L, Yue X Q, et al. Study on critical pitting temperature of G3 alloy in high temperature and high H2S / CO2 environment [J]. Rare Metal Materials and Engineering, 2017, 46(8): 2144-2148 (in Chinese).
[14] 韩磊, 张艳玲, 刘小辉, 等. 电化学噪声技术在炼油厂腐蚀监测中的应用[J]. 腐蚀监测, 2015, 15(5): 50-53.
Han L, Zhang Y L, Liu X H, et al. Application of electrochemical noise technology in refinery corrosion monitoring[J]. Corrosion Monitoring, 2015, 15(5): 50-53 (in Chinese).

备注/Memo

备注/Memo:
收稿日期: 2020-02-21;修回日期: 2020-06-23
通信作者: 李大朋, email: lidp@ankosri.com
基金项目: 海外油气田开发关键技术研究与应用(2019D-4413)
更新日期/Last Update: 2021-01-10