2026-04-17T08:08:56Zhttps://recercat.cat/oai/request

oai:recercat.cat:2117/3432702026-02-09T07:15:36Zcom_2072_1033col_2072_452950

00925njm 22002777a 4500 dc Gil Berrocal, Carlos author Fernández Pérez, Ignacio author Bado, Mattia Francesco author Casas Rius, Joan Ramon author Rempling, Rasmus author 2021-01 The implementation of structural health monitoring systems in civil engineering structures already in the construction phase could contribute to safer and more resilient infrastructure. Due to their lightweight, small size and high resistance to the environment, distributed optical fibre sensors stand out as a very promising technology for damage detection and quantification in reinforced concrete structures. In this article, the suitability of embedding robust distributed optical fibre sensors featuring a protective sheath to accurately assess the performance indicators, in terms of vertical deflection and crack width, of three reinforced concrete beams subjected to four-point bending is investigated. The results revealed that a certain strain attenuation occurs in embedded robust distributed optical fibre sensors compared to commonly used thin polyimide-coated distributed optical fibre sensors bonded to steel reinforcement bars. However, the presence of the protective sheath prevented the appearance of strain reading anomalies which has been a frequently reported issue. Performance wise, the robust distributed optical fibre sensors were able to provide a good estimate of the beam deflections with errors of between 12.3% and 6.5%. Similarly, crack widths computed based on distributed optical fibre sensor strain measurements differed by as little as ±20¿µm with results from digital image correlation, provided individual cracks could be successfully detected in the strain profiles. Finally, a post-processing procedure is presented to generate intuitive contour plots that can help delivering critical information about the element’s structural condition in a clear and straightforward manner. The author(s) disclosed receipt of the following financial support for the research, authorship and/or publication of this article: This research was performed as part of the project: ‘Sensor-driven Cloud-based Strategies for Infrastructure Management – SensIT’ funded by the Swedish Transport Administration (Trafikverket) under the grant TRV/BBT 2017-028. Peer Reviewed Postprint (published version) Àrees temàtiques de la UPC::Enginyeria civil::Materials i estructures::Materials i estructures de formigó Optical fiber detectors Concrete -- Cracking Reinforced concrete Distributed optical fibre sensing Rayleigh backscattering Performance indicators Crack monitoring Detectors de fibra òptica Formigó -- Fissuració Assessment and visualization of performance indicators of reinforced concrete beams by distributed optical fibre sensing