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Assessment of Electrical Resistivity and Oxygen Diffusion Coefficient of Cementitious Materials from Microstructure Features

Renzhan Zhou, Qiang Li, Jiandong Wang, Kewen Zhou, Rui He, Chuanqing Fu

2021Materials10 citationsDOIOpen Access PDF

Abstract

A newly proposed modified non-contact electrical resistivity measurement was used to test the resistivity of concrete and cement mortar. The oxygen diffusion coefficients of concrete and mortar were determined by a gas diffusion measurement, and the capillary porosity of concrete and cement mortar was measured by mercury intrusion porosimetry (MIP) measurement. The obtained electrical resistivity and capillary porosity results were verified with other researchers' data, the measured electrical resistivity results can be estimated by a simple equation from the capillary porosity results. The obtained oxygen diffusion coefficient results were quantitatively correlated with capillary porosity and electrical resistivity measurement results. The proposed equations can be practically used to assess the electrical resistivity and oxygen diffusion coefficient.

Topics & Concepts

Electrical resistivity and conductivityPorosityMaterials scienceCementitiousDiffusionCapillary actionComposite materialMicrostructureCementPorosimetryMortarMineralogyPorous mediumChemistryThermodynamicsElectrical engineeringPhysicsEngineeringConcrete and Cement Materials ResearchSmart Materials for ConstructionConcrete Corrosion and Durability
Assessment of Electrical Resistivity and Oxygen Diffusion Coefficient of Cementitious Materials from Microstructure Features | Litcius