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Effects of Graphite on Electrically Conductive Cementitious Composite Properties: A Review

Ting Luo, Qiang Wang

2021Materials54 citationsDOIOpen Access PDF

Abstract

Electrically conductive cementitious composites (ECCCs) have been widely used to complete functional and smart construction projects. Graphite, due to its low cost and wide availability, is a promising electrically conductive filler to generate electrically conductive networks in cement matrixes. Cement-based materials provide an ideal balance of safety, environmental protection, strength, durability, and economy. Today, graphite is commonly applied in traditional cementitious materials. This paper reviews previous studies regarding the effects and correlations of the use of graphite-based materials as conductive fillers on the properties of traditional cementitious materials. The dispersion, workability, cement hydration, mechanical strength, durability, and electrically conductive mechanisms of cementitious composites modified with graphite are summarized. Graphite composite modification methods and testing methods for the electrical conductivity of ECCCs are also summarized.

Topics & Concepts

Materials scienceGraphiteDurabilityCementitiousElectrical conductorComposite materialCementFiller (materials)Composite numberElectrical resistivity and conductivityElectrical engineeringEngineeringSmart Materials for ConstructionAdvanced Energy Technologies and Civil Engineering InnovationsConcrete and Cement Materials Research
Effects of Graphite on Electrically Conductive Cementitious Composite Properties: A Review | Litcius