Potential step voltammetry: An approach to corrosion rate measurement of reinforcements in concrete

Identificadores
ISSN: 09589465
DOI: 10.1016/j.cemconcomp.2020.103590
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Autor
Ramón Zamora, José Enrique; Gandía Romero, José Manuel; Bataller Prats, Román; Alcañiz Fillol, Miguel; Valcuende Payá, Manuel Octavio; [et al.]
Fecha
2020
Materia/s

Durabilidad

Ensayo No Destructivo (END)

Hormigón armado

Corrosión

Armadura (Construcción)

Voltamperometría

Potenciostatos

Monitorización estructural

Materia/s Unesco

3303.07 Tecnología de la Corrosión

3305.05 Tecnología del Hormigón

3313.04 Material de Construcción

3312.08 Propiedades de Los Materiales

3312.12 Ensayo de Materiales

3311.02 Ingeniería de Control

3311.17 Equipos de Verificación

3315.03 Productos Electromet0Lurgicos

Resumen

This paper presents a Potentiostatic Step Voltammetry approach to corrosion rate measurement of reinforcements in concrete. We have termed this approach PSV-TE since it is based on the Tafel extrapolation method, but with the added advantage that long and slow potentiodynamic scans are no longer required to obtain the Tafel slopes. In this way, the irreversible polarization of rebars is prevented, so PSV-TE is considered to be a non-destructive method. The Tafel slopes are obtained by fitting the current-time response of the system to a theoretical model which we have outlined and validated previously. In this way, the concrete's electrical resistance and double layer capacity are also obtained. In this study, the optimal PSV-TE design has been established and validated on a range of reinforced concrete specimens. Results show minimal deviation between PSV-TE and reference methods. Therefore, PSV-TE is part of the corrosion monitoring system we have patented. © 2020 Elsevier Ltd

This paper presents a Potentiostatic Step Voltammetry approach to corrosion rate measurement of reinforcements in concrete. We have termed this approach PSV-TE since it is based on the Tafel extrapolation method, but with the added advantage that long and slow potentiodynamic scans are no longer required to obtain the Tafel slopes. In this way, the irreversible polarization of rebars is prevented, so PSV-TE is considered to be a non-destructive method. The Tafel slopes are obtained by fitting the current-time response of the system to a theoretical model which we have outlined and validated previously. In this way, the concrete's electrical resistance and double layer capacity are also obtained. In this study, the optimal PSV-TE design has been established and validated on a range of reinforced concrete specimens. Results show minimal deviation between PSV-TE and reference methods. Therefore, PSV-TE is part of the corrosion monitoring system we have patented. © 2020 Elsevier Ltd

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