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Microbial corrosion of high manganese austenitic steel by a sulfate reducing bacterium dominated by extracellular electron transfer and intergranular effect

Zixuan Xu, Tingyue Gu, Yunhu Ding, Renyang He, Yi Fan, Tiansui Zhang, Huihai Wan, Ying He, Yunqing Xiong, Hongfang Liu

2025Corrosion Science18 citationsDOIOpen Access PDF

Abstract

Microbiologically influenced corrosion (MIC) of high manganese steel (25Mn) by a marine sulfate reducing bacterium (SRB) was systematically investigated. Mn² + enhanced SRB activity by H ₂ S detoxification. The culture medium with low carbon source increased MIC by 2.1 times. 4 % Cr in 25Mn provided partial passivation . Riboflavin and nano-magnetite injections validated the dominant contribution of extracellular electron transfer mechanisms. Electron backscatter diffraction showed the intergranular corrosion at austenite boundaries. SRB enhanced hydrogen permeation and decreased tensile strength by 21 %. This study identifies the primary mechanism of 25Mn and provides important insights into material design and corrosion mitigation.

Topics & Concepts

Intergranular corrosionManganeseCorrosionMetallurgySulfate-reducing bacteriaExtracellular polymeric substanceAusteniteMaterials scienceSulfateElectron transferChemistryBacteriaMicrostructureBiologyGeneticsOrganic chemistryBiofilmCorrosion Behavior and InhibitionHydrogen embrittlement and corrosion behaviors in metalsMetal Extraction and Bioleaching