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The pore structure and water absorption in Portland/slag blended hardened cement paste determined by synchrotron X-ray microtomography and neutron radiography

James E. Vigor, Dale P. Prentice, Xianghui Xiao, Susan A. Bernal, John L. Provis

2024RSC Advances11 citationsDOIOpen Access PDF

Abstract

quantitative neutron radiography. The pore structure becomes more constricted as the cement hydrates and its microstructure develops. This mechanism was effective even at a slag content as high as 90 wt% in the cementitious blend, where the lowest total porosity and a significant pore refinement were identified at extended curing ages (360 d). By combining this information with neutron radiographic imaging, and directly quantifying both depth and mass of water uptake, it was observed that 90 wt% slag cement outperformed the 75 wt% slag blend at 90 days in terms of resistance to capillary water uptake, although the higher-slag blend had not yet developed such a refined microstructure at 28 days of curing. The assumptions associated with the "sharp front model" for water ingress do not hold true for highly substituted slag cement pastes. Testing transport properties at 28 days may not give a true indication of the performance of these materials in service in the long term.

Topics & Concepts

Portland cementNeutron imagingMaterials scienceSynchrotronAbsorption of waterCementSynchrotron radiationX-raySlag (welding)Absorption (acoustics)MineralogyComposite materialNeutronOpticsGeologyNuclear physicsPhysicsConcrete and Cement Materials ResearchBuilding materials and conservationDrilling and Well Engineering