金属材料海洋环境生物污损腐蚀研究进展

中国腐蚀与防护学报

2002, Vol. 22

Issue (3): 184-188

综述

本期目录 | 过刊浏览

金属材料海洋环境生物污损腐蚀研究进展

王庆飞;宋诗哲

天津大学材料学院

PROGRESS IN MARINE BIOLOGICALLY INFLUENCED CORROSION STUDY

Qingfei Wang;Shizhe Song

天津大学材料学院

全文: PDF(229 KB)

摘要: 海生物因素是影响海洋环境金属材料腐蚀行为的主要因素之一.综述了金属材料海生物腐蚀研究领域中有关生物膜的结构与功能、海水环境微生物腐蚀机理研究和宏观海生物附着引起的局部腐蚀等几个方面近年来的进展情况.并结合我国开展海生物腐蚀研究的现状提出建议和讨论.

关键词 ：生物腐蚀, 生物膜, 微生物腐蚀, 海洋污损生物

Abstract：Biofouling is one of the main factors that influenc e metal corrosion in marine environment.Biocorrosion has been receiving more and more attention in recent years.In this paper，some respects of this field such as the structure and function of biofilm，mechanism of microbiologically influen ced corrosion in seawater and corrosion induced by marine foulings(banacles etc. ) were reviewed.Also，according to the present situation of this field in our c ountry，some research topics on marine biocorrosion,including local corrosion in duced by macrofoulings and studying MIC in simulated biofilm environment,were di scussed.

Key words： metal corrosion biofilm microbiologically influenced corrosion marine foulings

收稿日期: 2000-09-03

ZTFLH:

TG174

通讯作者: 王庆飞

Corresponding author: Qingfei Wang

	服务

	把本文推荐给朋友
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	王庆飞
	宋诗哲
44.8K

引用本文:

王庆飞; 宋诗哲 . 金属材料海洋环境生物污损腐蚀研究进展[J]. 中国腐蚀与防护学报, 2002, 22(3): 184-188 .
Qingfei Wang, Shizhe Song. PROGRESS IN MARINE BIOLOGICALLY INFLUENCED CORROSION STUDY. J Chin Soc Corr Pro, 2002, 22(3): 184-188 .

链接本文:

https://www.jcscp.org/CN/ 或 https://www.jcscp.org/CN/Y2002/V22/I3/184

[1]LittleB ,WagnerP ,MansfeldF .Microbiologicallyinfluencedcorro sionofmetalsandalloys[J].Intern.Mater.Revi.,1991,36(6):253-272
[2]LittleB ,WagnerP ,MansfeldF .Anoverviewofmicrobiologicallyinfluencedcorrosion[J].ElectrochemicalActa,1992,37(12):2185-2194
[3]MansfeldF ,LittleB .Electrochemicaltechniquesappliedtomicrobi ologicallyinducedcorrosion[J].Corros.Sci.,1991,32(3):247-272
[4]ChenLP .Biofilmandbiofouling[J].CorrosionandProtection,1996,17(1):3-8(陈六平.生物膜与生物污损[J].腐蚀与防护,1996,17(1):3-8)
[5]FlemmingHC .Mikrobiellewerkstofferrstoyung-biofilmundbio fouling[J].WerkstoffeundKorrosion,1994,45(1):29-39
[6]LawrenceJR ,etal.Opticalsectioningofmicrobialbiofilms[J].J .Bacteriology,1991,173(20):6558-6572
[7]DurkdeBeer,PaulStooldley,etal.Effectsofbiofilmstructuresonoxygendistributionandmasstransport[J].BiotechnologyandBio engineering,1994,43(11):1131-1138
[8]LewandowskiZ .Structureandfunctionofbacterialbiofilms[A].NACECorrosion/98[C],Houston,296
[9]RoeFL ,LewandowskiZ ,FunkT .Simulatingmicrobiologicallyin ducedcorrosionbydepositingextracellularbiopolymersonmildsteelsurface[J].Corrosion,1996,52(10):744-752
[10]L’HostisE ,CompereC ,DesloaisC .Characterizationofbiofilmsformedongoldinnaturalseawaterbyoxygendiffusionanalysis[J].Corrosion,1997,53(1):4-10
[11]PedersenA ,HermanssonM .Inhibitionofmetalcorrosionbybacte ria[J].Biofouling,1991,3(1):1-11
[12]ZhangY ,DaiMA .Anelectrochemicalevaluationofsteelcorrosioninducedbytwosulphur-oxidizingbacteria[J].J.ChineseSocietyforCorrosionandProtection,1994,14(2):168-174(张炎,戴明安.两种硫氧化细菌诱导钢铁腐蚀的电化学评估[J].中国腐蚀与防护学报,1994,14(2):168-174)
[13]McNeilMB ,etal.Mackinawiteformationduringmicrobialcorro sion[J].Corrosion,1990,46(7):599-600
[14]KingRA ,etal.Corrosionofmildsteelbyironsulphides[J].Br.Corros.J .,1973,8(3):137-141
[15]IversonWP ,etal.MicrobialCorrosion[M ].London:TheMetalsSociety,1983:46
[16]DaumasS ,etal.MicrobiologicalbatteryinducedbySRB [J].Corros.Sci.,1988,28(11):1041-1050
[17]EashwarM ,ChandrasekaranP .Microbiologicallyinfluencedcorro sionofsteelduringputrefactionofseawaterevidenceforanewmechanism[J].Corrosion,1993,49(2):108-113
[18]EashwarM ,ChandrasekaranP .Mechanismforbarnacle-inducedcrevicecorrosioninstainlesssteel[J].Corrosion,1992,48(7):608-612
[19]DickinsenWH ,DaccavoJrF ,LewandowskiZ .Theennoblementofstainlesssteelbymanganicoxidebiofouling[J].Corros.Sci.,1996,38(8):1407-1422
[20]ChandrasekaranP ,DexterSC .Bacterialmetabolisminbiofilmconsortia:consequenceforpotentialennoblement[A].NACECor rosion/94[C],Houston,276
[21]GillGGeesey,etal.Roleofbacterialexopolymerinthedeteriora tionofmetalliccoppersurfaces[J].MaterialsPerformance,1986,25(2):37-40
[22]ChenG ,KagwadeSV ,FrenchGE ,ClaytonCR .Metalionandexopolymersinteraction:asurfaceanalyticalstudy[J].Corrosion,1996,52(12):891-899
[23]LittleBJ .Spatialrelationshipsbetweenbacteriaandlocalizedcor rosion[A].NACECorrosion/96[C],Houston,278
[24]ChidambramK ,PalariswamyN ,BalakrishnanK .Microfoulingandpotentialexcursions-arapidtechniquetomonitorbacteria[J].BulletinofElectrochemistry,1994,10(2-3):73-78
[25]MFLdeMele,SGGomezdeSaravia,VidelaHA .Anoverviewonbiofilmsandcalcareousdepositsinterrelationsoncathodicallyprotectedsteelsurfaces[A].Proceedingsofthe1995InternationalConferenceonMicrobiallyInfluencedCorrosion[C].NACEBook,1995
[26]PengCG ,ParkJK .Principlefactorsaffectingmicrobiologicallyin fluencedcorrosionofcarbonsteel[J].Corrosion,1994,40(9):669-675
[27]DexterSC ,LaFontaineJP .Effectofnaturalmarinebiofilmsongalvaniccorrosion[J].Corrosion,1998,54(11):851-861
[28]SchmidtR .Mathematischemodellierungvonzerstorungsmechanismen[J].WerkstoffeundKorrosion,1994,45(1):21-28
[29]HuangZG ,CaiRX .MarineBiofoulingandIt’sPrevention[M ].Beijing:ChinaOceanPress,1984(黄宗国,蔡如星.海洋污损生物及其防除[M ].北京:海洋出版社,1984)
[30]MaruthamuthuS .CorrosionandbiofoulinginTuticozinhabour[J].CorrosionProtectionandControl,1993,40(1):6-10
[31]SuRX .Studyoncharacterizationofcorrosionimagesofmetallicmaterialinmarineenvironment(Ph.D .Dissertation)[D].Tianjin:TianjinUniversity,1999(苏润西.海洋环境金属材料腐蚀图象特征研究[D].天津大学博士学位论文,天津,1999)
[32]MaSD ,etal.Theeffectofbarnacleadhesiononmetalcorrosioninseawater[J].J .ChineseSocietyforCorrosionandProtection,1995,15(1):74-78(马士德等.藤壶附着对海水中金属腐蚀的影响[J].中国腐蚀与防护学报,1995,15(1):74-78)
[33]SongSZ ,TangZL .CorrosionbehaviorofAl-MgalloysinNaClsolutionswithvariationofpH[J].CorrosionScienceandProtectionTechnology,1995,7(3):218-229(宋诗哲,唐子龙.铝镁合金在不同pH的NaCl溶液中的腐蚀行为[J].腐蚀科学与防护技术,1995,7(3):218-229)
[34]TangHQ ,GuoZH .Effectsofsulfatereducingbacteriaonanaero biccorrosionofmildsteel[J].J.ChineseSocietyforCorrosionandProtection,1991,11(1):46-54(唐和清,郭稚弧.硫酸盐还原菌对碳钢腐蚀的影响[J].中国腐蚀与防护学报,1991,11(1):46-54)
[35]WangQF ,SuiJ ,SongSZ .Studyonsteelcorrosioninsimulatedbiofilmenvironmentinseawater[J].Electrochemistry,1999,5(1):55-58(王庆飞,隋静,宋诗哲.模拟生物膜方法研究钢在海水中的腐蚀行为[J].电化学,1999,5(1):55-58)

[1]	董续成, 管方, 徐利婷, 段继周, 侯保荣. 海洋环境硫酸盐还原菌对金属材料腐蚀机理的研究进展[J]. 中国腐蚀与防护学报, 2021, 41(1): 1-12.
[2]	张雨轩, 陈翠颖, 刘宏伟, 李伟华. 铝合金霉菌腐蚀研究进展[J]. 中国腐蚀与防护学报, 2021, 41(1): 13-21.
[3]	王欣彤, 陈旭, 韩镇泽, 李承媛, 王岐山. 硫酸盐还原菌作用下2205双相不锈钢在3.5%NaCl溶液中应力腐蚀开裂行为研究[J]. 中国腐蚀与防护学报, 2021, 41(1): 43-50.
[4]	王玉, 吴佳佳, 张盾. 海水环境中异化铁还原菌所致金属材料腐蚀的研究进展[J]. 中国腐蚀与防护学报, 2020, 40(5): 389-397.
[5]	胥聪敏,罗立辉,王文渊,赵苗苗,田永强,宋鹏迪. D-tyrosine对碳钢表面铁细菌生物膜的杀菌增强作用机理研究[J]. 中国腐蚀与防护学报, 2020, 40(1): 63-69.
[6]	卫晓阳,杨丽景,吕战鹏,郑必长,宋振纶. 磁场对纯Cu微生物腐蚀行为的影响[J]. 中国腐蚀与防护学报, 2019, 39(6): 484-494.
[7]	陈嘉晨,王忠维,乔利杰,岩雨. 机械摩擦磨损与电化学腐蚀在特殊环境中的作用机制[J]. 中国腐蚀与防护学报, 2019, 39(5): 404-410.
[8]	吴堂清,周昭芬,王鑫铭,张德闯,尹付成,孙成. 微生物致裂的热力学和动力学分析[J]. 中国腐蚀与防护学报, 2019, 39(3): 227-234.
[9]	史显波,杨春光,严伟,徐大可,闫茂成,单以银,杨柯. 管线钢的微生物腐蚀[J]. 中国腐蚀与防护学报, 2019, 39(1): 9-17.
[10]	李鑫,陈旭,宋武琦,杨佳星,吴明. pH值对X70钢在海泥模拟溶液中微生物腐蚀行为的影响[J]. 中国腐蚀与防护学报, 2018, 38(6): 565-572.
[11]	管方, 翟晓凡, 段继周, 侯保荣. 阴极极化对硫酸盐还原菌腐蚀影响的研究进展[J]. 中国腐蚀与防护学报, 2018, 38(1): 1-10.
[12]	梅朦, 郑红艾, 陈惠达, 张鸣, 张大全. 硫酸盐还原菌对Cu在循环冷却水中腐蚀行为的影响[J]. 中国腐蚀与防护学报, 2017, 37(6): 533-539.
[13]	陈菊娜,吴佳佳,王鹏,张盾. 脱硫弧菌和溶藻弧菌对船体结构材料907钢海水腐蚀行为的影响研究[J]. 中国腐蚀与防护学报, 2017, 37(5): 402-410.
[14]	刘宏伟,刘宏芳. 铁氧化菌引起的钢铁材料腐蚀研究进展[J]. 中国腐蚀与防护学报, 2017, 37(3): 195-206.
[15]	吕亚林,郑碧娟,刘宏伟,熊福平,刘宏芳,胡裕龙. 磁场对硫酸盐还原菌生物膜在304不锈钢表面吸附性能的影响[J]. 中国腐蚀与防护学报, 2016, 36(6): 652-658.

Viewed

Full text

Abstract

Cited

Shared

Discussed