Effects of NaHCO₃ as the activator and the in-situ carbonate seeding on the properties of high-dosage Ca(OH)₂ + slag (HCHS) cement

Abstract

This study investigated the effects of the addition of NaHCO₃ (5, 10, and 15% molar amount of Ca(OH)₂) on the setting time, compressive strength, drying shrinkage, and hydration process of high-dosage Ca(OH)₂ + Slag (HCHS) cement. The results indicated that the NaHCO₃ addition could significantly increase the 1-day compressive strength of HCHS cement from almost 0 to 10 MPa and decrease the drying shrinkage of HCHS cement up to 46.1% compared to it without NaHCO₃. But the addition of NaHCO₃ above 5% would result in accelerated setting, increased porosity, and decreased strength in the later stages. NaHCO₃ played an in-situ carbonate seeding effect, forming CaCO₃ crystals through the initial reaction of Ca(OH)₂, and the activator that increased solution alkalinity promoted the formation of hydration products. These could contribute to the HCHS cement with high early compressive strength, good volume stability and certain porosity, suitable for further carbon capture.

Keywords:

• NaHCO₃
• high-dosage Ca(OH)₂
• ground granulated blast-furnace slag
• in-situ carbonate
• alkaline activator
• eco-cement

Acknowledgments

The authors appreciate Babar Iqbal et al. for their contributions to the study. The authors would also like to express gratitude to the reviewers for their valuable comments.

Additional information

Funding

The financial support from the National Key R&D Program of China (2022YFB2602602) is gratefully acknowledged.