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Reaction mechanism of dolomite powder in Portland-dolomite cement
Highlights Dedolomitization didn’t take place when dolomite as a filler was used. The dolomite reaction consuming portlandite produced hydrotalcite (Ht) and calcite. The Ht formed may cause a decrease in Al-bearing products, i.e. AFt and AFm phases. The dolomite reaction contributed to strength due to the formation of Ht and calcite.
Abstract The purpose of this study is to provide a better understanding of the reaction mechanism of dolomite powder in Portland-dolomite cement (PDC). The hydration products and microstructure of PDC pastes were investigated by using XRD, TGA, MIP, and SEM, with Portland-limestone cement (PLC) as a comparison. Results show that dolomite exhibited a considerably higher chemical reactivity than limestone as the curing temperature increased. Different from the conventional dedolomitization reaction with brucite formation, the dolomite reaction in PDC at 40 and 60 °C produced hydrotalcite and calcite at the expense of portlandite. Moreover, the formed hydrotalcite was found to result in the decomposition of the Al-bearing products, such as monosulfate, monocarbonate and ettringite, due to its lower solubility. Overall, the reaction of dolomite increased the solid volume, densified the microstructure, and thus resulted in a refined pore structure and a higher long-term compressive strength of PDC compared to PLC.
Reaction mechanism of dolomite powder in Portland-dolomite cement
Highlights Dedolomitization didn’t take place when dolomite as a filler was used. The dolomite reaction consuming portlandite produced hydrotalcite (Ht) and calcite. The Ht formed may cause a decrease in Al-bearing products, i.e. AFt and AFm phases. The dolomite reaction contributed to strength due to the formation of Ht and calcite.
Abstract The purpose of this study is to provide a better understanding of the reaction mechanism of dolomite powder in Portland-dolomite cement (PDC). The hydration products and microstructure of PDC pastes were investigated by using XRD, TGA, MIP, and SEM, with Portland-limestone cement (PLC) as a comparison. Results show that dolomite exhibited a considerably higher chemical reactivity than limestone as the curing temperature increased. Different from the conventional dedolomitization reaction with brucite formation, the dolomite reaction in PDC at 40 and 60 °C produced hydrotalcite and calcite at the expense of portlandite. Moreover, the formed hydrotalcite was found to result in the decomposition of the Al-bearing products, such as monosulfate, monocarbonate and ettringite, due to its lower solubility. Overall, the reaction of dolomite increased the solid volume, densified the microstructure, and thus resulted in a refined pore structure and a higher long-term compressive strength of PDC compared to PLC.
Reaction mechanism of dolomite powder in Portland-dolomite cement
Xu, Jiangtao (author) / Lu, Duyou (author) / Zhang, Shaohua (author) / Xu, Zhongzi (author) / Hooton, RD (author)
2020-10-18
Article (Journal)
Electronic Resource
English
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