Litcius/Paper detail

Genesis of Nanogalvanic Corrosion Revealed in Pearlitic Steel

Steven C. Hayden, Claire Chisholm, Shannon L. Eichmann, Rachael O. Grudt, G. S. Frankel, Brian S. Hanna, Tatiana Headrick, Katherine Jungjohann

2022Nano Letters22 citationsDOIOpen Access PDF

Abstract

Nanoscale, localized corrosion underpins billions of dollars in damage and material costs each year; however, the processes responsible have remained elusive due to the complexity of studying degradative material behavior at nanoscale liquid-solid interfaces. Recent improvements to liquid cell scanning/transmission electron microscopy and associated techniques enable this first look at the nanogalvanic corrosion processes underlying this widespread damage. Nanogalvanic corrosion is observed to initiate at the near-surface ferrite/cementite phase interfaces that typify carbon steel. In minutes, the corrosion front delves deeper into the material, claiming a thin layer of ferrite around all exposed phase boundaries before progressing laterally, converting the ferrite to corrosion product normal to each buried cementite grain. Over the following few minutes, the corrosion product that lines each cementite grain undergoes a volumetric expansion, creating a lateral wedging force that mechanically ejects the cementite grains from their grooves and leaves behind percolation channels into the steel substructure.

Topics & Concepts

CementiteCorrosionMaterials scienceMetallurgyGrain boundaryFerrite (magnet)Carbon steelSubstructureNanoscopic scaleTransmission electron microscopyComposite materialMicrostructureNanotechnologyAusteniteEngineeringStructural engineeringCorrosion Behavior and InhibitionHydrogen embrittlement and corrosion behaviors in metalsAnodic Oxide Films and Nanostructures