Effect of inhibitors on corrosion behavior of copper-nickel in concentrated lithium bromide solution at high temperature 被引量：5

Effect of inhibitors on corrosion behavior of copper-nickel in concentrated lithium bromide solution at high temperature

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摘要 The conventional mass loss tests and the electrochemical techniques were used to study the inhibition action of LiOH and Na 2MoO 4 either individually or in different combination for copper nickel alloy in boiling 65% LiBr solution. It indicates that the corrosion rate of copper nickel is decreased when LiOH or Na 2MoO 4 is added to the solution individually. LiOH concentration has a double effect on the corrosion behavior of copper nickel. Low concentration is benefit to forming oxide film. High concentration results in dissolution of oxide film. The optimal concentration of LiOH is 0.15?mol/L. The dissolution of copper nickel is effectively prevented when adding 200?mg/L Na 2MoO 4 to boiling 65% LiBr solution with 0.15?mol/L LiOH. The inhibition mechanism is considered that the films of Cu, Ni, Mo oxides and deposited nonprotective in soluble CuBr on the surface of metal could prevent Br - ion from absorption, which prevent alloy dissolving. The conventional mass loss tests and the electrochemical techniques were used to study the inhibition action of LiOH and Na 2MoO 4 either individually or in different combination for copper nickel alloy in boiling 65% LiBr solution. It indicates that the corrosion rate of copper nickel is decreased when LiOH or Na 2MoO 4 is added to the solution individually. LiOH concentration has a double effect on the corrosion behavior of copper nickel. Low concentration is benefit to forming oxide film. High concentration results in dissolution of oxide film. The optimal concentration of LiOH is 0.15?mol/L. The dissolution of copper nickel is effectively prevented when adding 200?mg/L Na 2MoO 4 to boiling 65% LiBr solution with 0.15?mol/L LiOH. The inhibition mechanism is considered that the films of Cu, Ni, Mo oxides and deposited nonprotective in soluble CuBr on the surface of metal could prevent Br - ion from absorption, which prevent alloy dissolving.

作者黄乃宝梁成浩佟大维

出处《中国有色金属学会会刊：英文版》 CSCD 2002年第3期424-428,共5页 Transactions of Nonferrous Metals Society of China

关键词镀镍镀铜缓蚀剂溴化锂腐蚀 inhibitor copper nickel lithium bromide corrosion

分类号 TG174.42 [金属学及工艺—金属表面处理]

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参考文献1

1郭建伟,梁成浩.碳钢在高温高浓度溴化锂溶液中腐蚀行为[J].大连理工大学学报,2000,40(5):554-556. 被引量：11

二级参考文献1

1郭建伟,梁成浩.溴化锂吸收式制冷机的腐蚀与常用缓蚀剂[J].制冷,1999,18(2):22-26. 被引量：10

共引文献10

1扈显琦,梁成浩,黄乃宝.Inhibition effects of PMA/SbBr_3 complex inhibitor on copper and copper-nickel alloy in LiBr solutions[J].中国有色金属学会会刊：英文版,2005,15(3):626-630.
2LIANG Chenghao,HUANG Naibao,GUO Jianwei,HU Xianqi.INHIBITION MECHANISM OF Na_2MoO_4 FOR CARBON STEEL IN 55% LiBr SOLUTION[J].Chinese Journal of Mechanical Engineering,2007,20(4):15-18. 被引量：1
3LIANG Cheng-hao,HU Xian-qi.Inhibition Performance of Enhanced-Mo Inhibitor for Carbon Steel in 55% LiBr Solution[J].Journal of Iron and Steel Research International,2008,15(1):49-54. 被引量：2
4黄乃宝,梁成浩.溴化锂吸收式制冷机中铜及其合金的腐蚀研究进展[J].制冷,2001,20(2):25-28. 被引量：3
5郭建伟,梁成浩.高温高浓度溴化锂溶液中碳钢钝化膜形成机理研究[J].材料科学与工艺,2001,9(4):413-416. 被引量：5
6郭建伟,梁成浩.LiNO_3对高温高浓度LiBr溶液中碳钢的缓蚀机理[J].腐蚀科学与防护技术,2002,14(4):197-201.
7郑秀瑾,张锦梅,张苗苗.离子色谱法测定制冷吸收剂溴化锂溶液中的阴离子[J].理化检验（化学分册）,2017,53(12):1464-1466.
8武卓杰,侯利锋,杜华云,邹勇,武敏,范光伟,卫英慧.445J2超纯铁素体不锈钢和316L超低碳奥氏体不锈钢在溴化锂溶液的点蚀分析[J].特殊钢,2023,44(1):65-71. 被引量：2
9黄乃宝,梁成浩.用于预测高温高浓度溴化锂溶液中碳钢腐蚀行为的BP神经网络(英文)[J].电化学,2003,9(2):228-234.
10扈显琦,梁成浩,黄乃宝.三效溴化锂吸收式制冷机的发展概况[J].制冷,2003,22(4):27-30.

同被引文献10

1Desmond Tromans,Sun Ru-hong.Anodic polarization behavior of copper in acqueous chloride/benzotriazole solutions[J].Journal of The Electrochemistry Society,1991,138(11):3235.
2Terence Aben,Desmond Tromans.Anodic polarization behavior of copper in acqueous bromide and bromide/benzotriazole solutions[J].Journal of The Electrochemistry Society,1995,142(2):398.
3Desmond Tromans.Aqueous potential-pH equilibria in copperbenzotriazole systems[J].Journal of The Electrochemistry Society,1998,145(3):L42.
4Walter J Hamer,Yung-Chi Wu.Osmotic coefficients and mean activity coefficients of uni-univalent electrolytes in water at 25℃[J].Journal of The Physical Chemistry Reference Data,1972,1(4):1047.
5Allen J Bard,Roger Parsons,Joseph Jordan.Standard potentials in aqueous solution[M].New York:Marcel Dekker,Inc.,1985:287.
6Igual-Munoz A,Garcia-Anton J,Guinón J L,et al.Corrosion studies of Cu-Ni alloys in aqueous LiBr solutions[A].EUROCORR[C],London:Queen Mary and Westfield College,University of London,UK,2000.781.
7郭建伟,梁成浩.碳钢在高温高浓度溴化锂溶液中腐蚀行为[J].大连理工大学学报,2000,40(5):554-556. 被引量：11
8黄乃宝,梁成浩.溴化锂吸收式制冷机中铜及其合金的腐蚀研究进展[J].制冷,2001,20(2):25-28. 被引量：3
9徐群杰,周国定,陆柱,刘峰名,任斌,田中群,林昌健.苯并三氮唑及其衍生物在硫酸溶液中对铜的缓蚀作用[J].中国腐蚀与防护学报,2001,21(3):172-176. 被引量：24
10黄乃宝,梁成浩.高温高浓度溴化锂溶液中磷脱氧铜耐蚀性研究[J].大连理工大学学报,2001,41(6):667-670. 被引量：4

引证文献5

1黄乃宝,梁成浩.55%溴化锂溶液中缓蚀剂对磷脱氧铜缓蚀行为研究[J].大连理工大学学报,2004,44(5):646-650. 被引量：1
2扈显琦,梁成浩,黄乃宝.Inhibition effects of PMA/SbBr_3 complex inhibitor on copper and copper-nickel alloy in LiBr solutions[J].中国有色金属学会会刊：英文版,2005,15(3):626-630.
3梁成浩,黄乃宝,扈显琦.铜在55%LiBr溶液中的电势-pH图[J].腐蚀科学与防护技术,2006,18(3):157-160. 被引量：6
4徐君莉,石忠宁,邱竹贤.Corrosion behavior of Cu-Ni-Ag-Al alloy anodes in aluminium electrolysis[J].中国有色金属学会会刊：英文版,2004,14(2):397-400.
5黄乃宝,梁成浩.LiBr溶液中4种缓蚀剂对磷脱氧铜协同效应研究[J].中国腐蚀与防护学报,2004,24(3):179-182.

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1周春生,陈三平,谢钢,高胜利.泡佩克斯电势图及其应用[J].商洛学院学报,2008,22(2):24-29. 被引量：2
2曾英,马旻锐.高浓度V-H_2O体系的溶解组分优势区域图和Pourbaix图[J].物理化学学报,2009,25(5):953-957. 被引量：6
3黄旺银,桑世华,饶胡敏.水体中25℃时Fe-H_2O体系溶解组分优势区域图和Pourbaix图[J].西北师范大学学报（自然科学版）,2015,51(5):59-63. 被引量：3
4黄旺银,桑世华,饶胡敏.不同浓度Pb-H_2O体系的溶解组分优势区域图和Pourbaix图[J].无机盐工业,2015,47(11):20-23.
5黄旺银,桑世华,饶胡敏.不同浓度Fe-H_2O体系的溶解组分优势区域图和Pourbaix图[J].无机盐工业,2016,48(2):13-17. 被引量：2
6王红艳,刘季铨,李成博,刘志宏.提升教育功能的“氧化还原反应与电化学应用”教学新策略[J].大学化学,2023,38(10):150-161.
7孟路,胡泳波.溴化锂吸收式冷水机组吸收器传热管腐蚀特性研究[J].世界有色金属,2024(8):56-59.

1LIANG Chenghao,HUANG Naibao,GUO Jianwei,HU Xianqi.INHIBITION MECHANISM OF Na_2MoO_4 FOR CARBON STEEL IN 55% LiBr SOLUTION[J].Chinese Journal of Mechanical Engineering,2007,20(4):15-18. 被引量：1
2郑勇,于海军,卜海健.Mechanism of grain growth control in Ti(C, N)-based cermet during sintering[J].中国有色金属学会会刊：英文版,2005,15(S3):144-147.
3梁成浩.Effects of Mo Composites on the Corrosion Behaviors of Low Alloy Steel[J].Journal of Wuhan University of Technology(Materials Science),2007,22(1):12-16. 被引量：1
4梁成浩,黄乃宝,扈显琦.铜在55%LiBr溶液中的电势-pH图[J].腐蚀科学与防护技术,2006,18(3):157-160. 被引量：6
5李杰兰,梁成浩,黄乃宝.55%溴化锂溶液中Na_2MoO_4-B复合缓蚀剂对碳钢的缓蚀行为研究[J].材料科学与工艺,2013,21(5):134-138.
6李萍.鞍钢1780热轧带钢厂溴化锂制冷系统先进技术的应用[J].鞍钢技术,1999(9):28-29.
7HU Xian-qi,LIANG Cheng-hao,HUANG Nai-bao.Anticorrosion Performance of Carbon Steel in 55% LiBr Solution Containing PMA/SbBr_3 Inhibitor[J].Journal of Iron and Steel Research International,2006,13(4):56-60. 被引量：1
8扈显琦,梁成浩,黄乃宝.Inhibition effects of PMA/SbBr_3 complex inhibitor on copper and copper-nickel alloy in LiBr solutions[J].中国有色金属学会会刊：英文版,2005,15(3):626-630.
9黄乃宝,梁成浩.溴化锂溶液中苯并三氮唑对碳钢缓蚀作用研究[J].材料科学与工艺,2004,12(2):205-208. 被引量：3
10郭建伟,梁成浩.高温高浓度溴化锂溶液对低合金钢的电化学行为作用[J].电化学,2000,6(4):451-457. 被引量：6

中国有色金属学会会刊：英文版

2002年第3期

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