J Knisz, R Eckert, L M Gieg, A Koerdt, J S Lee, E R Silva, T L Skovhus, B A An Stepec & S A Wade. (2023) Microbiologically influenced corrosion—more than just microorganisms. FEMS Microbiology Reviews 47:5.
Crossref
Min Qin, Guoxi He, Kexi Liao, Qing Zou, Shuai Zhao, Xinhui Jiang & Shijian Zhang. (2022) CO2-O2-SRB-Cl− Multifactor Synergistic Corrosion in Shale Gas Pipelines at a Low Liquid Flow Rate. Journal of Materials Engineering and Performance 31:6, pages 4820-4835.
Crossref
Larry L. Barton & Guy D. FauqueLarry L. Barton & Guy D. Fauque. 2022. Sulfate-Reducing Bacteria and Archaea. Sulfate-Reducing Bacteria and Archaea
427
462
.
Abdulhaqq Ibrahim, Kelly Hawboldt, Christina Bottaro & Faisal Khan. (2021) Simulation of sour‐oxic‐nitrite chemical environment in oil and gas facilities. The Canadian Journal of Chemical Engineering 99:S1.
Crossref
Hoang C. Phan, Linda L. Blackall & Scott A. Wade. (2021) Effect of Multispecies Microbial Consortia on Microbially Influenced Corrosion of Carbon Steel. Corrosion and Materials Degradation 2:2, pages 133-149.
Crossref
M. E. Emetere, S. A. Afolalu, L. M. Amusan & A. Mamudu. (2021) Role of Atmospheric Aerosol Content on Atmospheric Corrosion of Metallic Materials. International Journal of Corrosion 2021, pages 1-15.
Crossref
Tangqing Wu, Cheng Sun, Maocheng Yan, Jin Xu & Fucheng Yin. (2019) Sulfate-reducing bacteria-assisted cracking. Corrosion Reviews 37:3, pages 231-244.
Crossref
Paresh Kumar Samantaray, Giridhar Madras & Suryasarathi Bose. 2019. Next Generation Biomanufacturing Technologies. Next Generation Biomanufacturing Technologies
321
351
.
Muhammad Wasim, Shahrukh Shoaib, N. M. Mubarak, Inamuddin & Abdullah M. Asiri. (2018) Factors influencing corrosion of metal pipes in soils. Environmental Chemistry Letters 16:3, pages 861-879.
Crossref
Ji-Dong Gu. 2018. Handbook of Environmental Degradation of Materials. Handbook of Environmental Degradation of Materials
273
298
.
Hao Zhang & Hui-qing Lan. (2017) A review of internal corrosion mechanism and experimental study for pipelines based on multiphase flow. Corrosion Reviews 35:6, pages 425-444.
Crossref
S.A. Wade, M.A. Javed, E.A. Palombo, S.L. McArthur & P.R. Stoddart. (2017) On the need for more realistic experimental conditions in laboratory-based microbiologically influenced corrosion testing. International Biodeterioration & Biodegradation 121, pages 97-106.
Crossref
Volkan Cicek. 2017. Corrosion Engineering and Cathodic Protection Handbook. Corrosion Engineering and Cathodic Protection Handbook
317
338
.
Volkan Cicek. 2017. Corrosion Engineering and Cathodic Protection Handbook. Corrosion Engineering and Cathodic Protection Handbook
203
211
.
Balakrishnan Anandkumar, Rani P. George, Sundaram Maruthamuthu, Natarajan Parvathavarthini & Uthandi Kamachi Mudali. (2016) Corrosion characteristics of sulfate-reducing bacteria (SRB) and the role of molecular biology in SRB studies: an overview. Corrosion Reviews 34:1-2, pages 41-63.
Crossref
Yajie Chen, Qiong Tang, John M. Senko, Gang Cheng, Bi-min Zhang Newby, Homero Castaneda & Lu-Kwang Ju. (2015) Long-term survival of Desulfovibrio vulgaris on carbon steel and associated pitting corrosion. Corrosion Science 90, pages 89-100.
Crossref
Yajie Chen, Rebecca Howdyshell, Stanford Howdyshell & Lu-Kwang Ju. (2014) Characterizing Pitting Corrosion Caused by a Long-Term Starving Sulfate-Reducing Bacterium Surviving on Carbon Steel and Effects of Surface Roughness. CORROSION 70:8, pages 767-780.
Crossref
Volkan Cicek. 2014. Corrosion Engineering. Corrosion Engineering
231
261
.
Dennis Enning & Julia Garrelfs. (2014) Corrosion of Iron by Sulfate-Reducing Bacteria: New Views of an Old Problem. Applied and Environmental Microbiology 80:4, pages 1226-1236.
Crossref
B.J. Little, R.I. Ray & J.S. Lee. 2014. Understanding Biocorrosion. Understanding Biocorrosion
329
340
.
Tristan Rees-WhiteRichard BeavenWilliam PowrieDarren Cole. (2013) Investigating clogging failure mechanisms of leachate extraction wells in landfills. Canadian Geotechnical Journal 50:11, pages 1179-1187.
Crossref
Volkan Cicek. 2013. Cathodic Protection. Cathodic Protection
309
326
.
A. Almaguer-Flores. 2013. Bio-Tribocorrosion in Biomaterials and Medical Implants. Bio-Tribocorrosion in Biomaterials and Medical Implants
169
186
.
Ji-Dong Gu & Ralph Mitchell. 2013. The Prokaryotes. The Prokaryotes
309
341
.
Ji-Dong Gu. 2012. Handbook of Environmental Degradation of Materials. Handbook of Environmental Degradation of Materials
243
282
.
D. Çetin, S. Bilgiç, S. Dönmez & G. Dönmez. (2007) Determination of biocorrosion of low alloy steel by sulfate-reducingDesulfotomaculum sp. isolated from crude oil field. Materials and Corrosion 58:11, pages 841-847.
Crossref
Leonardo De Silva Muñoz, Alain Bergel & Régine Basséguy. (2007) Role of the reversible electrochemical deprotonation of phosphate species in anaerobic biocorrosion of steels. Corrosion Science 49:10, pages 3988-4004.
Crossref
Iwona B. Beech & Jan A. Sunner. 2009. Sulphate-Reducing Bacteria. Sulphate-Reducing Bacteria
459
482
.
Ji-Dong Gu & Ralph Mitchell. 2006. The Prokaryotes. The Prokaryotes
864
903
.
M. M. Al-Darbi, K. Agha & M. R. Islam. (2008) Comprehensive Modelling of the Pitting Biocorrosion of Steel. The Canadian Journal of Chemical Engineering 83:5, pages 872-881.
Crossref
Xiutong Wang, Jizhou Duan, Yan Li, Jie Zhang, Shide Ma & Baorong Hou. (2005) Corrosion of steel structures in sea-bed sediment. Bulletin of Materials Science 28:2, pages 81-85.
Crossref
Ji-Dong Gu. 2005. Handbook of Environmental Degradation of Materials. Handbook of Environmental Degradation of Materials
179
206
.
Brenda J. Little, Florian B. Mansfeld, Peggy J. Arps & James C. Earthman. 2010. Encyclopedia of Electrochemistry. Encyclopedia of Electrochemistry.
Iwona B. Beech. 2003. Encyclopedia of Environmental Microbiology. Encyclopedia of Environmental Microbiology.
Brenda J. Little & Patricia A. Wagner. 2002. Modern Aspects of Electrochemistry. Modern Aspects of Electrochemistry
205
246
.
B.J. Little, R.I. Ray & R.K. Pope. 2001. Encyclopedia of Materials: Science and Technology. Encyclopedia of Materials: Science and Technology
533
537
.
Ralf Cord-Ruwisch. 2000. Environmental Microbe-Metal Interactions. Environmental Microbe-Metal Interactions
159
173
.
D. Starosvetsky, O. Khaselev, J. Starosvetsky, R. Armon & J. Yahalom. (2000) Effect of iron exposure in SRB media on pitting initiation. Corrosion Science 42:2, pages 345-359.
Crossref
Satoshi Okabe, Tsukasa Itoh, Hisashi Satoh & Yoshimasa Watanabe. (1999) Analyses of Spatial Distributions of Sulfate-Reducing Bacteria and Their Activity in Aerobic Wastewater Biofilms. Applied and Environmental Microbiology 65:11, pages 5107-5116.
Crossref
D E Nivens, R J PalmerJrJr & D C White. (1995) Continuous nondestructive monitoring of microbial biofilms: A review of analytical techniques. Journal of Industrial Microbiology 15:4, pages 263-276.
Crossref
W. Allan Hamilton & Whonchee Lee. 1995. Sulfate-Reducing Bacteria. Sulfate-Reducing Bacteria
243
264
.