Electrochemical characteristics of stainless steel using impressed current cathodic protection in seawater 被引量：3

Electrochemical characteristics of stainless steel using impressed current cathodic protection in seawater

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摘要 Stainless steels such as STS 304,316 and 630 are frequently used as shaft materials in small fiber reinforced polymer(FRP) fishing boats.If the shaft material is exposed to a severely corrosive environment such as seawater,it should be protected using appropriate methods.The impressed current cathodic protection was used to inhibit corrosion in shaft materials.In anodic polarization,passivity was remarkably more evident in STS 316 stainless steel than in STS 304 and STS 630.The pitting potentials of STS 304,316,and 630 stainless steels were 0.30,0.323,and 0.260 V,respectively.The concentration polarization due to oxygen reduction and activation polarization due to hydrogen generation were evident in the cathodic polarization trends of all three stainless steeds.STS 316 had the lowest current densities in all potential ranges,and STS 630 had the highest.Tafel analysis showed that STS 316 was the most noble in the three.In addition,the corrosion current density was the lowest for STS 316. Stainless steels such as STS 304, 316 and 630 are frequently used as shaft materials in small fiber reinforced polymer （FRP） fishing boats. If the shaft material is exposed to a severely corrosive environment such as seawater, it should be protected using appropriate methods. The impressed current cathodic protection was used to inhibit corrosion in shaft materials. In anodic polarization, passivity was remarkably more evident in STS 316 stainless steel than in STS 304 and STS 630. The pitting potentials of STS 304, 316, and 630 stainless steels were 0.30, 0.323, and 0.260 V, respectively. The concentration polarization due to oxygen reduction and activation polarization due to hydrogen generation were evident in the cathodic polarization trends of all three stainless steeds. STS 316 had the lowest current densities in all potential ranges, and STS 630 had the highest. Tafel analysis showed that STS 316 was the most noble in the three. In addition, the corrosion current density was the lowest for STS 316.

作者 Seok-Ki JANG Min-Su HAN Seong-Jong KIM

机构地区 Division of Marine Engineering

出处《中国有色金属学会会刊：英文版》 EI CSCD 2009年第4期930-934,共5页 Transactions of Nonferrous Metals Society of China

关键词外加电流阴极保护 316不锈钢电化学特性海水腐蚀电流密度材料腐蚀阳极极化 STS stainless steel shaft material impressed current cathodic protection passivity

分类号 TG174.4 [金属学及工艺—金属表面处理]

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参考文献12

1KIM S J,WOO Y B,HAN M S,JANG S K,KIM J I.Development of corrosion protection technology by thermal spray coating for STS 304 in sea water[C]//Proceedings of the Korean Marine Engineering Autumn Conference.2006:73-74.
2KIM S J,WOO Y B,KIM J I.Evaluation of electrochemical characteristics of shaft system materials for small vessel[C]// Proceedings of the Korean Marine Engineering Spring Conference.2007:61-62.
3KIM S J,KO J Y.Electrochemical properties of Al and Al alloys relevant to corrosion protection in seawater environments[J].The Korean Journal of Chemical Engineering,2006,23(5):847-853.
4KIM S J,KO J Y,HAN M S.Evaluation of the characteristics using slow strain rate tests of 5456 Al-Mg alloy for ship construction[J].The Korean Journal of Chemical Engineering,2006,23(6):1028-1033.
5KIM S J,MOON K M.Hydrogen embrittlement properties of heat affected zone of high strength steel in shielded metal arc welding[J].Metals and Materials International,2002,8(4):395-401.
6KIM S J,MOON K M.The relationship between corrosion protection and hydrogen embrittlement properties of HAZ in flux core arc welding[J].Metals and Materials International,2002,8(4):387-393.
7KIM S J,OKIDO M,MOON K M.An electrochemical study of cathodic protection of steel used for marine structures[J].The Korean Journal of Chemical Engineering,2003,20(3):560-565.
8KIM S J,OKIDO M,MOON K M.The electrochemical study on mechanical and hydrogen embrittlement properties of HAZ part as a function of post-weld heat treatment in SMAW[J].Surface and Coatings Technology,2003,169/170:163-167.
9MOON K M,LEE M H,KIM K J,KIM S J.The effect of post-weld heat treatment affecting corrosion resistance and hydrogen embrittlement of HAZ part in FCAW[J].Surface and Coatings Technology,2003,169/170:675-678.
10KIM S J,JANG S K,KIM J I.Electrochemical study of hydrogen embrittlement and optimum cathodic protection potential of welded high strength steel[J].Metals and Materials International,2005,11(1):63-69.

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2李光福 ,吴忍耕 ,雷廷权 .高强钢海洋环境应力腐蚀破裂敏感性的控制因素[J].装备环境工程,2004,1(2):26-30. 被引量：6
3孟超,曲政,庞其伟.1Cr18Ni9Ti海水循环水泵阴极保护参数[J].腐蚀与防护,2004,25(11):473-474. 被引量：5
4刘晓坤,王建军,路民旭.不同等温处理后40CrMnSiMoVA超高强度钢的SCC及CF特性[J].中国腐蚀与防护学报,1993,13(2):189-193. 被引量：1
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6吴继勋,傅争光,张普强,张文奇,孙传水.用交流阻抗技术确定船用钢的最佳阴极保护电位[J].中国腐蚀与防护学报,1989,9(2):160-164. 被引量：14
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9Sung-Hyeon PARK,Jong-Shin KIM,Min-Su HAN,Seong-Jong KIM.Corrosion and optimum corrosion protection potential of friction stir welded 5083-O Al alloy for leisure ship[J].中国有色金属学会会刊：英文版,2009,19(4):898-903. 被引量：4
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中国有色金属学会会刊：英文版

2009年第4期

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Electrochemical characteristics of stainless steel using impressed current cathodic protection in seawater 被引量：3

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