A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Combined effect of NaAlO2 and NaOH on the early age hydration of Portland cement with a high concentration of borate solution
Abstract The early age hydration of ordinary Portland cement in 5 M borate solution, with or without the addition of NaAlO2 and/or NaOH, was investigated. Hydration was measured using calorimetry, X-ray diffraction, thermogravimetric analysis, 11B and 27Al magic angle spinning NMR analysis, and scanning transmission electron microscopy. The purpose of this study was to reveal the mechanisms behind the retardation caused by a high concentration borate solution and the restoration of hydration through the combined addition of NaOH and NaAlO2. Amorphous ulexite, which formed on the surface of the cement particles and prevented the further dissolution of anhydrous phases, was identified as the retardation product. The mechanism of the combined addition of NaAlO2 and NaOH in overcoming retardation was to transform amorphous ulexite into B-AFt and gowerite (CaB6O10·5H2O). Formation of gowerite is favorable because of the much higher boron immobilization capacity in weight percentage, comparing to usual boron-containing phases reported previously.
Combined effect of NaAlO2 and NaOH on the early age hydration of Portland cement with a high concentration of borate solution
Abstract The early age hydration of ordinary Portland cement in 5 M borate solution, with or without the addition of NaAlO2 and/or NaOH, was investigated. Hydration was measured using calorimetry, X-ray diffraction, thermogravimetric analysis, 11B and 27Al magic angle spinning NMR analysis, and scanning transmission electron microscopy. The purpose of this study was to reveal the mechanisms behind the retardation caused by a high concentration borate solution and the restoration of hydration through the combined addition of NaOH and NaAlO2. Amorphous ulexite, which formed on the surface of the cement particles and prevented the further dissolution of anhydrous phases, was identified as the retardation product. The mechanism of the combined addition of NaAlO2 and NaOH in overcoming retardation was to transform amorphous ulexite into B-AFt and gowerite (CaB6O10·5H2O). Formation of gowerite is favorable because of the much higher boron immobilization capacity in weight percentage, comparing to usual boron-containing phases reported previously.
Combined effect of NaAlO2 and NaOH on the early age hydration of Portland cement with a high concentration of borate solution
Li, Qiu (author) / Ma, Haosen (author) / Tang, Yanjie (author) / Chen, Wei (author)
2021-03-10
Article (Journal)
Electronic Resource
English
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