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Stabilized electrical conductivity in nano-engineered ultra-high performance concrete under prolonged freezing exposure: Nano-reinforcement and cryo-induced water migration mechanism

Weichen Tian, Xianglong Liu, Baoguo Han, Sufen DONG, Ruipeng Qiu

2026Construction and Building Materials8 citationsDOIOpen Access PDF

Abstract

Concrete with stable electrical conductivity is essential for critical intelligent infrastructure functions such as self-monitoring and deicing, but its performance under long-term freezing exposure remains a major challenge. This study developed a multifunctional carbon fiber strengthened ultra-high performance concrete (CFS-UHPC) by incorporating nano carbon blacks (NCBs) and carbon nanofibers (CNFs), achieving exceptional electrical conductivity under prolonged freezing exposure (-7.5°C). Results identified the benefits of low-content CNFs on improving the mechanical strength and highlighted NCBs as the pivotal component for electrical stability, yielding resistances of 455.5 Ω and 533.17 Ω at 28 and 135 days, respectively. A key finding was a dramatic 86.6% reduction in electrical resistance after 128-day freezing exposure. Microstructural and electrochemical analyses revealed that this enhancement was due to a coarsened pore structure and a unique cryo-pumping effect. Furthermore, machine learning models achieved highly accurate predictions of the electrical resistance, with an R-squared value of 0.9839, and confirmed NCBs and freezing exposure as the dominant controlling factors. This research provides a practical and mechanistic framework for engineering the next generation of durable and intelligent concrete composites for resilient infrastructure in cold climates.

Topics & Concepts

Materials scienceComposite materialElectrical resistivity and conductivityMechanism (biology)ConductivityElectrical resistance and conductanceGeotechnical engineeringElectrical conductorThermal conductivityMetallurgySmart Materials for ConstructionConcrete and Cement Materials ResearchMicrobial Applications in Construction Materials