New test methods to determine water absorption by capillarity. Experimental study in masonry mortars

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ISSN: 0950-0618
DOI: 10.1016/j.conbuildmat.2021.125988
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Author
Yedra Álvarez, Engerst; Ferrández Vega, Daniel; Morón Fernández, Carlos; Saiz Martínez, Pablo
Date
2022
Subject/s

Absorción de agua

Capilaridad

Morteros de albañilería

Áridos reciclados

Áridos ligeros

Hormigón reciclado

Ensayos (propiedades o materiales)

Resistencia mecánica

Unesco Subject/s

3313.04 Material de Construcción

3312.02 Aglomerantes

3312.08 Propiedades de Los Materiales

3312.12 Ensayo de Materiales

Abstract

In this work, two alternative methods are presented to evaluate the absorption of water by capillarity in masonry mortars. For this, two different types of sensors of our design have been developed, one capacitive and the other resistive. The measuring equipment has been tested in mortar samples made with three kinds of aggregates: natural, recycled ceramic, and recycled concrete. The results obtained employing the capacitive sensor show how there is a good correlation between the mass of water absorbed by the mortars and the variation in capacitance, taking into account that mortars made with recycled ceramic aggregate were the ones that present a higher capillary absorption coefficient and lower mechanical resistance. On the other hand, with the help of the resistive sensor, it has been possible to monitor in real-time the rise of water by capillarity inside the samples, determining how the percentage of humidity measured at different heights of the samples evolves. As a result, it has been observed that water experiences a greater rise due to capillarity in mortars made with natural aggregate. © 2021 Elsevier Ltd

In this work, two alternative methods are presented to evaluate the absorption of water by capillarity in masonry mortars. For this, two different types of sensors of our design have been developed, one capacitive and the other resistive. The measuring equipment has been tested in mortar samples made with three kinds of aggregates: natural, recycled ceramic, and recycled concrete. The results obtained employing the capacitive sensor show how there is a good correlation between the mass of water absorbed by the mortars and the variation in capacitance, taking into account that mortars made with recycled ceramic aggregate were the ones that present a higher capillary absorption coefficient and lower mechanical resistance. On the other hand, with the help of the resistive sensor, it has been possible to monitor in real-time the rise of water by capillarity inside the samples, determining how the percentage of humidity measured at different heights of the samples evolves. As a result, it has been observed that water experiences a greater rise due to capillarity in mortars made with natural aggregate. © 2021 Elsevier Ltd

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