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dc.contributor.authorRamón, J. E.
dc.contributor.authorMartínez, I.
dc.contributor.authorGandía Romero, José Manuel
dc.contributor.authorCastillo, A.
dc.contributor.authorValcuende, M.
dc.date.accessioned2026-07-01T07:48:16Z
dc.date.available2026-07-01T07:48:16Z
dc.date.issued2025
dc.identifier.citationRamón, J. E., Martínez, Gandía Romero, J. M., Castillo, A., y Valcuende, M. (2025). A Concrete Resistivity Method Based on a Simple Measuring Cell for Onsite Corrosion Monitoring: Study on Concrete Under Varying Conditions. Structural Control and Health Monitoring, 2025(1). https://doi.org/10.1155/stc/5522124es
dc.identifier.issn1545-2255
dc.identifier.urihttp://hdl.handle.net/20.500.12251/4327
dc.description.abstractConcrete resistivity (ρ) is commonly monitored in situ using sensors based on the rebar-disc (RDM) or four-electrode (FEM) methods. This study validates, for the first time in reinforced concrete, an innovative corrosion sensor approach (CSA) previously tested only in simulated pore solutions. The CSA uses a single embedded two-electrode sensor that also allows the corrosion rate, offering a significant advantage for structural health monitoring. CSA resistivity values were broadly consistent with those from established reference methods: 2.9% higher than the RDM and 20% lower than the two-electrode method. Larger differences were observed with the FEM, decreasing when a finite-element cell factor (103%) was applied instead of one for semi-infinite elements (208%). This trend aligns with expected differences between FEM surface resistivity and bulk values. Additionally, a simple correction factor is proposed to normalise ρ to the reference temperature (T) of 20°C, expressed as 1/(a·exp((b)·T)), with a and b equal to 1.7251 and 0.027 for low-resistivity concretes and 2.4851 and 0.046 for medium- to high-resistivity concretes. A general model for the full resistivity range yielded a = 2.0687 and b = 0.036. While further research is needed to explore wider corrosion scenarios, the results highlight the potential of the CSA as a practical tool for both laboratory and in situ corrosion assessment. Copyright © 2025 J. E. Ramón et al. Structural Control and Health Monitoring published by John Wiley & Sons Ltd.es
dc.language.isoenges
dc.publisherJohn Wiley and Sons Ltdes
dc.rightsAttribution-NonCommercial-NoDerivatives 4.0 Internacional*
dc.rights.urihttp://creativecommons.org/licenses/by-nc-nd/4.0/*
dc.titleA Concrete Resistivity Method Based on a Simple Measuring Cell for Onsite Corrosion Monitoring: Study on Concrete Under Varying Conditionses
dc.typearticle
dc.identifier.doi10.1155/stc/5522124
dc.identifier.urlhttps://www.scopus.com/results/results.uri?sort=plf-f&src=s&sid=22d9ec99c08674b6585579dd80137bde&sot=a&sdt=a&sl=18&s=AU-ID%2856818983500%29&origin=searchadvanced&editSaveSearch=&txGid=7b115b5a17990d964b167d9ec2e6df4d&sessionSearchId=22d9ec99c08674b6585579dd80137bde&limit=10
dc.issue.number1es
dc.journal.titleStructural Control and Health Monitoringes
dc.rights.accessRightsopenAccesses
dc.subject.keywordHormigónes
dc.subject.keywordEstructuras de hormigón armadoes
dc.subject.keywordAceroes
dc.subject.keywordDurabilidades
dc.subject.keywordCorrosiónes
dc.subject.keywordMonitorización estructurales
dc.subject.unesco1203.26 Simulaciónes
dc.subject.unesco3305.05 Tecnología del Hormigónes
dc.subject.unesco3305.32 Ingeniería de Estructurases
dc.subject.unesco3312.09 Resistencia de Materialeses
dc.volume.number2025


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