PROGRESS IN MARINE BIOLOGICALLY INFLUENCED CORROSION STUDY

J Chin Soc Corr Pro

2002, Vol. 22

Issue (3): 184-188 DOI:

Review

Current Issue | Archive | Adv Search

PROGRESS IN MARINE BIOLOGICALLY INFLUENCED CORROSION STUDY

Qingfei Wang;Shizhe Song

天津大学材料学院

Download:

PDF(229KB)
Export: BibTeX | EndNote (RIS)

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

Received: 03 September 2000

ZTFLH:

TG174

Corresponding Authors: Qingfei Wang

	Service

	E-mail this article
	Add to citation manager
	E-mail Alert
	RSS
	（）
	Articles by authors
	Qingfei Wang
	Shizhe Song

Cite this article:

Qingfei Wang; Shizhe Song. PROGRESS IN MARINE BIOLOGICALLY INFLUENCED CORROSION STUDY. J Chin Soc Corr Pro, 2002, 22(3): 184-188 .

URL:

https://www.jcscp.org/EN/ OR https://www.jcscp.org/EN/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]	ZHAO Pengxiong, WU Wei, DAN Yong. *Application of Spatial-resolution Technology for In-situ* Monitoring of Metal Corrosion**[J]. 中国腐蚀与防护学报, 2020, 40(6): 495-507.
[2]	CHEN Jiachen,WANG Zhongwei,QIAO Lijie,YAN Yu. Interaction between Friction-wear and Corrosion in Special Environment[J]. 中国腐蚀与防护学报, 2019, 39(5): 404-410.
[3]	Dan YANG,Dinglin LI,Yanliang HUANG,Pilong HUA,Xia ZHAO,Peng PENG,Xiutong WANG. Research Progress on Corrosion Issue and Metallic Material Selection Related with Seawater Pumped Storage Power Plant[J]. 中国腐蚀与防护学报, 2019, 39(1): 1-8.
[4]	Hongwei LIU,Hongfang LIU. Research Progress of Corrosion of Steels Induced by Iron Oxidizing Bacteria[J]. 中国腐蚀与防护学报, 2017, 37(3): 195-206.
[5]	Yalin LV,Bijuan ZHENG,Hongwei LIU,Fuping XIONG,Hongfang LIU,Yulong HU. Effect of Static Magnetic Field on Adhesion of Sulfate Reducing Bacteria Biofilms on 304 Stainless Steel[J]. 中国腐蚀与防护学报, 2016, 36(6): 652-658.
[6]	WANG Yongxia, XIANG Hongliang, YANG Caiping, LIU Dong. Corrosion Resistance of Copper-bearing Duplex Stainless Steel in Culture Medium without and with Bacteria[J]. 中国腐蚀与防护学报, 2014, 34(6): 558-565.
[7]	NIE Yuanyuan, DUAN Jizhou, DU Min, HOU Baorong. Influence of NaN₃ on Cathodic Oxygen Reduction Induced by Microbe-assisted Catalysis on Surface of 316LSS in Seawater[J]. 中国腐蚀与防护学报, 2014, 34(4): 359-365.
[8]	LIU Tong, ZHANG Yanfei, CHEN Xu, WANG Dan, CHEN Yu, WANG Guangfu. Effect of SRB on Corrosion Behavior of X70 Steel in a Simulated Soil Solution[J]. 中国腐蚀与防护学报, 2014, 34(2): 112-118.
[9]	DU Xiangqian,DUAN Jizhou,ZHAI Xiaofan,LUAN Xin,ZHANG Jie,HOU Baorong. Corrosion Behavior of 316L Stainless Steel Influenced by Iron-reducing Bacteria Shewanella Algae Biofilms[J]. 中国腐蚀与防护学报, 2013, 33(5): 363-370.
[10]	LIU Bin, DUAN Jizhou, HOU Baorong. MICROBIOLOGICALLY INFLUENCED CORROSION OF 316L SS BY MARINE BIOFILMS IN SEAWATER[J]. 中国腐蚀与防护学报, 2012, 32(1): 48-53.
[11]	DUAN Dongxia, CHEN Xiguang, LIN Cunguo. 907A STEEL CORROSION IN ARTIFICIAL SULFATE REDUING BACTERIA BIOFILM[J]. 中国腐蚀与防护学报, 2011, 31(6): 453-456.
[12]	CHEN Juan1, LEI Yanhua1, GAO Guanhui1, KONG Moli1, YIN Yansheng2. CORROSION BEHAVIOR OF Cu-Ni-Sn ALLOY UNDER SULFATE-REDUCING BACTERIABIOFILM[J]. 中国腐蚀与防护学报, 2011, 31(3): 231-235.
[13]	LIU Hongfang LIU Tao. GROWTH CHARACTERISTICS OF THERMOPHILE SULFATE-REDUCING BACTERIA AND ITS EFFECT ON CARBON STEEL[J]. 中国腐蚀与防护学报, 2009, 29(2): 93-98.
[14]	DU Yili LI Jin GE Xiaopeng YUAN Weishuang. AFM STUDY OF MICROBIOLOGICALLY INFLUENCED CORROSION OF COPPER ALLOYS[J]. 中国腐蚀与防护学报, 2008, 28(6期): 321-324.
[15]	. The effect of the sulfate reducing bacteria biofilm on phase boundary between HSn70-1AB copper alloy and solution[J]. 中国腐蚀与防护学报, 2008, 28(5): 265-270 .

No Suggested Reading articles found!

Viewed

Full text

Abstract

Cited

Shared

Discussed