Effect of Copper Surface State on the Protective Performance of Triazole Click-Assembly Film on Copper in Circulating Cooling Water of Power Plant
Received date: 2022-09-24
Revised date: 2022-10-15
Accepted date: 2022-11-20
Online published: 2023-03-15
ZHU Cai-chao, LI Jin, ZHANG Da-quan . Effect of Copper Surface State on the Protective Performance of Triazole Click-Assembly Film on Copper in Circulating Cooling Water of Power Plant[J]. Materials Protection, 2023 , 56(3) : 106 -113 . DOI: 10.16577/j.issn.1001-1560.2023.0066
[1] REZA N A,AKHMAL N H,FADIL N A,et al.A Review on Plants and Biomass Wastes as Organic Green Corrosion Inhibitors for Mild Steel in Acidic Environment [J].Metals-Open Access Metallurgy Journal,2021,11(7):1 062.
[2] LIU F,WANG X,LI W,et al.Antibacterial and corrosion protection properties of SA-CuZnO@ODA-GO composite in circulating cooling water [J].Environmental Science and Pollution Research,2021,28(41): 52-69.
[3] 韩跃飞,段国强,吴风岭,等.环境友好型缓蚀剂的最新研究进展[J].全面腐蚀控制,2016,30(5): 57-61.HAN Y F,DUAN G Q,WU F L,et al.Latest Research Progress of Environmentally Friendly Corrosion Inhibitors[J].Total Corrosion Control,2016,30(5): 57-61.
[4] 赵 鑫.有机类铜及其合金缓蚀剂的发展现状与展望[J].当代化工研究,2021(1): 8-10.ZHAO X.Development Status and Prospect of Organic Copper and Its Alloy Corrosion Inhibitors[J].Modern Chemical Research,2021(1): 8-10.
[5] TELEGDI J.Formation of Self - Assembled Anticorrosion Films on Different Metals [J].Materials,2020,13(22):5 098.
[6] 施 成,高立新,张大全.点击化学反应及其在材料保护领域的应用[J].表面技术,2018,47(10): 1-10.SHI C,GAO L X,ZHANG D Q.Click Chemistry and Its Application in Materials Protection Field[J].Surface Technology,2018,47(10): 1-10.
[7] LI J,CHEN D H,ZHANG D Q,et al.Preparation of triazole compounds via click chemistry reaction and formation of the protective self-assembled membrane against copper corrosion[J].Colloids and Surfaces A: Physicochemical and Engineering Aspects,2018,550: 145-154.
[8] LI J,ZHANG D Q,ZHANG K,et al.A novel process for copper protection in the simulated industrial cooling water based on click synthesis and self-assembling method[J].Materials and Corrosion,2019,70(11): 1 964-1 976.
[9] YU Y Z,WANG Y Z,LI J,et al.In situ click-assembling monolayers on copper surface with enhanced corrosion resistance[J].Corrosion Science,2016,113: 133-144.
[10] WANG Y Z,YU Y Z,ZHANG J,et al.Click-assembling triazole membrane on copper surface via one-step or twosteps and their corrosion inhibition performance[J].Applied Surface Science,2018,427: 1 120-1 128.
[11] SHI C,WANG Y Z,YU Y Z,et al.The role of cuprous ions on the click-assembled triazole films against copper corrosion [J].Corrosion Science,2018,145: 100-108.
[12] SHA J Y,GE H H,WAN C,et al.Corrosion inhibition behaviour of sodium dodecyl benzene sulphonate for brass in an Al2O3 nanofluid and simulated cooling water [J].Corrosion Science,2019,148: 123-133.
[13] 刘 琴,刘广义,牛晓雪,等.铜表面三唑硫酮衍生物的自组装及其抗盐酸腐蚀的电化学性能[J].中国有色金属学报,2019,29(5): 1 102-1 117.LIU Q,LIU G Y,NIU X X,et al.Self-assembled monolayer of triazole-thione derivatives and its electrochemical property of corrosion resistance of hydrochloric acid[J].The Chinese Journal of Nonferrous Metals,2019,29 (5):1 102-1 117.
[14] LI J,ZHANG D Q,SHI C,et al.Click-assembling film modified on different copper subtrates and their comprehensive performance[J].Applied Surface Science,2019,493:336-350.
[15] ZHANG D Q,LU J M,SHI C,et al.Anti-corrosion performance of covalent layer - by - layer assembled films via click chemistry reaction on the copper surface[J].Corrosion Science,2021,178:109 063.
[16] ZHANG K,LU J M,LI J,et al.A novel approach for copper protection[J].Chemical Engineering Journal,2020,385:123 406.
[17] 李 瑾,张大全,陈东辉,等.荧光标记铜材料在模拟冷却水中的耐蚀性能研究[J].工业水处理,2020,40(4):28-34.LI J,ZHANG D Q,CHENG D H,et al.Study on corrosion resistance of fluorescently labeled copper materials in simulated cooling water[J].Industrial Water Treatment,2020,40(4): 28-34.
[18] WANG D P,ZHANG D Q,LEE K Y,et al.Performance of AA5052 alloy anode in alkaline ethylene glycol electrolyte with dicarboxylic acids additives for aluminium-air batteries[J].Journal of Power Sources,2015,297: 464-471.
[19] LIU J,WANG D P,ZHANG D Q,et al.Synergistic effects of carboxymethyl cellulose and ZnO as alkaline electrolyte additives for aluminium anodes with a view towards Al-air batteries[J].Journal of Power Sources,2016,335: 1-11.
[20] PAREEK S,JAIN D,HUSSAIN S,et al.A new insight into corrosion inhibition mechanism of copper in aerated 3.5wt.%NaCl solution by eco-friendly imidazopyrimidine dye: experimental and theoretical approach [J].Chemical Engineering Journal,2019,358: 725-742.
[21] 高冬梅,白 洁,闫国辉.新型苯并三氮唑离子液体的合成及其对铜缓蚀性能的研究[J].化学与黏合,2018,40(1): 54-57.GAO D M,BAI J,YAN G H.The Study on Synthesis of New Benzotriazole Ionic Liquids and Its Corrosion Inhibition for Brass [J].Chemistry and Adhesion,2018,40 (1):54-57.
[22] SHA J Y,GE H H,WAN C,et al.Corrosion inhibition behaviour of sodium dodecyl benzene sulphonate for brass in an Al2O3 nanofluid and simulated cooling water [J].Corrosion Science,2019,148: 123-133.
[23] Tasic' Ž Z,Mihajlovic' M B P,Radovanovic' M B,et al.Cephradine as corrosion inhibitor for copper in 0.9%NaCl solution[J].Journal of Molecular Structure,2018,1 159:46-54.
[24] 罗 雪,荆 川,黄海军,等.规整有机分子自聚集体对铜的高效缓蚀的研究[J].化工学报,2020,71(10):4 733-4 749.LUO X,JING C,HUANG H J,et al.Study on highly efficient corrosion inhibition of copper by regular self-aggregates of organic molecule[J].CIESC Journal,2020,71(10):4 733-4 749.
[25] FATEH A,M.ALIOFKHAZRAEI AND A.R.REZVANIAN.Review of corrosive environments for copper and its corrosion inhibitors[J].Arabian Journal of Chemistry,2020,13(1):481-544.
[26] Simonovic' A T,Tasic' Ž Z,Radovanovic' M B,et al.Influence of 5-Chlorobenzotriazole on Inhibition of Copper Corrosion in Acid Rain Solution.[J].ACS Omega,2020,5(22):12 832-12 841.
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