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Study of Piezoresistive Behavior of Smart Cement Filled with Graphene Oxide

Rongxin Guo, Yuxia Suo, Haiting Xia, Yang Yang, Qianmin Ma, Yan Feng

2021Nanomaterials46 citationsDOIOpen Access PDF

Abstract

A cement-based piezoelectric composite, modified by graphene oxide (GO), was prepared to study piezoresistive capacity. The testing confirms that GO is more effective than other carbon nanomaterials at improving piezoresistive sensitivity of cement-based composites, because the content of GO in cement paste was much lower than other carbon nanomaterials used in previously published research. Further investigation indicates that the addition of GO significantly improved the stability and repeatability for piezoresistive capacity of cement paste under cycle loads. Based on experiment results, the piezoresistive sensitivity of this composite depended on GO content, water-to-cement weight ratio (w/c) and water-loss rate, since the highest piezoresistive gauge factor value (GF = 35) was obtained when GO content was 0.05 wt.%, w/c was 0.35 and water-loss rate was 3%. Finally, microstructure analysis confirmed that conductivity and piezoresistivity were achieved through a tunneling effect and by contacting conduction that caused deformation of GO networks in the cement matrix.

Topics & Concepts

Piezoresistive effectMaterials scienceGrapheneComposite materialCementGauge factorOxideMicrostructureNanomaterialsComposite numberNanotechnologyMetallurgyFabricationMedicinePathologyAlternative medicineSmart Materials for ConstructionAdvanced Energy Technologies and Civil Engineering InnovationsConcrete Corrosion and Durability
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