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Piezoresistive response and self-sensing properties of UHPC reinforced with recycled carbon fibers

D. Valverde, N. Álvarez García, J.M. Torrents, Ignacio Segura

2024Construction and Building Materials14 citationsDOIOpen Access PDF

Abstract

This research explores Ultra-High-Performance Concrete (UHPC) reinforced with recycled carbon fibers to verify its potential application in self-sensing concrete for structural health monitoring. The improved electrical conductivity due to the inclusion of carbon fibers enables the emergence of piezoresistivity, transforming UHPC into a sensitive sensor for detecting mechanical stresses. By incorporating various characterization tests alongside investigations into fiber type (loose versus fibrillated sheets) and content variations, the study aims to establish a correlation between the electrical properties and the resulting piezoresistive response. Resistivity will be measured using impedance scanning, while piezoresistivity will be determined through loading and unloading cycles with a datalogger recording the variations in electrical resistance. The inclusion of carbon fibers suggests an improvement in mechanical performance, up to 42 % in flexural strength and 26 % in compression compared to UHPC without fibers. Resistivity ranges from 1 to 2 Ω⋅m and gauge factor reach 38. These results are comparable to those reported in other studies on UHPC with carbonaceous additions, highlighting the potential of recycled carbon fibers as a sustainable and effective reinforcement strategy. • Recycled carbon fibers enhance UHPC mechanical and electrical properties. • UHPC with recycled carbon fibers exhibits promising self-sensing capabilities. • Study establishes potential for sustainable, self-monitoring concrete structures.

Topics & Concepts

Piezoresistive effectMaterials scienceComposite materialCarbon fibersComposite numberSmart Materials for ConstructionAdvanced Energy Technologies and Civil Engineering InnovationsTransition Metal Oxide Nanomaterials