Chloride-induced corrosion of steel in concrete—insights from bimodal neutron and X-ray microtomography combined with ex-situ microscopy

Angst, Ueli M.; Rossi, Emanuele; Boschmann Käthler, Carolina; Mannes, David; Trtik, Pavel; Elsener, Bernhard; Zhou, Zhou; Strobl, Markus

doi:10.1617/s11527-024-02337-7

Mater Struct

2024

DOI: 10.1617/s11527-024-02337-7

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Chloride-induced corrosion of steel in concrete—insights from bimodal neutron and X-ray microtomography combined with ex-situ microscopy

Ueli M. Angst,

Emanuele Rossi,

Carolina Boschmann Käthler

et al.

Abstract: The steel–concrete interface (SCI) is known to play a major role in corrosion of steel in concrete, but a fundamental understanding is still lacking. One reason is that concrete’s opacity complicates the study of internal processes. Here, we report on the application of bimodal X-ray and neutron microtomography as in-situ imaging techniques to elucidate the mechanism of steel corrosion in concrete. The study demonstrates that the segmentation of the specimen components of relevance—steel, cementitious matrix, … Show more

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Assessment of corrosion attack morphology on reinforced concrete structures exposed to chlorides

Yilmaz,

Rossi,

Angst

2024

Structural Concrete

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Chloride‐induced corrosion of the reinforcement steel is the main degradation mechanism for reinforced concrete, considerably affecting the load and deformation capacity of structures. Despite its importance, there is limited knowledge about the morphology of corrosion attacks and accordingly, relatively crude assumptions are generally made when considering corrosion in structural analyses. Improved understanding could reduce maintenance costs and extend the service life of structures. This study presents a systematic documentation and analysis of more than 600 corrosion attack morphologies, both from observations on actual engineering structures and from laboratory specimens (X‐ray computed tomography data from previous studies). Findings reveal that corrosion attacks—regardless of age, concrete type, or whether occurring in structures or laboratory specimens—without exception grow laterally and longitudinally along the reinforcement bar, rather than in depth. This shallow morphology deviates from the conventional description of pitting corrosion in the literature. Therefore, we propose using the term ‘corrosion attack’ instead of ‘corrosion pit’ for better differentiation. We discuss different mechanism that may lead to this growth pattern. Moreover, implications for the consideration of corrosion in structural analysis are assessed. A comprehensive database of the documented corrosion attacks is provided to enhance existing service life models, offering substantial data for probabilistic modeling of input parameters.

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Assessment of corrosion attack morphology on reinforced concrete structures exposed to chlorides

Yilmaz,

Rossi,

Angst

2024

Structural Concrete

View full text Add to dashboard Cite

show abstract

Quantitative relationship between microstructure of steel-concrete interface and chloride-induced corrosion rate of steel in unsaturated cementitious materials

Tian,

Kang,

et al. 2025

Cement and Concrete Research

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Microscale chemical imaging to characterize and quantify corrosion processes at the metal-electrolyte interface

Albert,

Mundra,

Ferreira Sanchez

et al. 2024

npj Mater Degrad

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We introduce an experimental setup to chemically image corrosion processes at metal-electrolyte interfaces under stagnant, confined conditions—relevant in a wide range of situations. The setup is based on a glass capillary, in which precipitation of corrosion products in the interfacial aqueous phase can be monitored over time with optical microscopy, and chemically and structurally characterized with microscopic synchrotron-based techniques (X-ray fluorescence, X-ray diffraction, and X-ray absorption spectroscopy). Moreover, quantification of precipitates through X-ray transmission measurements provides in-situ corrosion rates. We illustrate this setup for iron corrosion in a pH 8 electrolyte, revealing the critical role of O2 and iron diffusion in governing the precipitation of ferrihydrite and its transformation to goethite. Corrosion and coupled reactive transport processes can thus be monitored and fundamentally investigated at the metal-electrolyte interface, with micrometer-scale resolution. This capillary setup has potential applications for in-situ corrosion studies of various metals and environments.

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Chloride-induced corrosion of steel in concrete—insights from bimodal neutron and X-ray microtomography combined with ex-situ microscopy

Cited by 3 publications

References 44 publications

Assessment of corrosion attack morphology on reinforced concrete structures exposed to chlorides

Assessment of corrosion attack morphology on reinforced concrete structures exposed to chlorides

Quantitative relationship between microstructure of steel-concrete interface and chloride-induced corrosion rate of steel in unsaturated cementitious materials

Microscale chemical imaging to characterize and quantify corrosion processes at the metal-electrolyte interface

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