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Long-term sulfate resistance of synthesized cement systems with variable C3A/C4AF ratio at low temperature or ambient conditions: Insights into the crystalline and amorphous phase assemblage

Konstantinos Sotiriadis, Radosław Mróz, Petra Mácová, Anton S. Mazur, Andraž Krajnc

2022Cement and Concrete Research34 citationsDOIOpen Access PDF

Abstract

Synthesized cement systems made with variable C3A/C4AF ratios, containing C3S, gypsum and, optionally, calcite, were stored long-term at humid conditions at 5 or 20 °C, without any protection against atmospheric carbonation. Analytical techniques able to assess both the crystalline and amorphous phases were used. Experimental results were compared with thermodynamic simulations. The systems with C3A/C4AF < 1 better preserved the soundness of the CSH phase, which hosted iron, and prevented thaumasite formation. The addition of calcite in these systems inhibited carbonation. When occurred (mixtures without calcite), the carbonation was significantly more intense at ambient temperature. In the systems that underwent extensive deterioration, cross-linking of silicate structures, AFt decomposition, and iron release from the deteriorating CSH, occurred, while Al-incorporating amorphous silica, calcium carbonate polymorphs and hydrous iron oxide formed. The presence of unreacted C3A in the systems with C3A/C4AF = 1, suggested that CSH decomposition was contributed by available sulfates.

Topics & Concepts

CarbonationCalciteAmorphous solidMaterials scienceAmorphous calcium carbonateChemical engineeringCementDecompositionPhase (matter)GypsumSulfateCarbonateDissolutionSilicateMineralogyMetallurgyChemistryComposite materialOrganic chemistryEngineeringConcrete and Cement Materials ResearchMagnesium Oxide Properties and ApplicationsBuilding materials and conservation
Long-term sulfate resistance of synthesized cement systems with variable C3A/C4AF ratio at low temperature or ambient conditions: Insights into the crystalline and amorphous phase assemblage | Litcius