Investigation of the hydrate formation and mechanical performance of limestone calcined clay cement paste incorporating nano-CaCO3 and nano-SiO2 as partial limestone substitutes
- Authors
- Kim, Gyeongryul; Cho, Seongmin; Moon, Jaegeun; Suh, Heongwon; Her, Sungwun; Sim, Sungwon; Bae, Sungchul
- Issue Date
- Mar-2024
- Publisher
- Elsevier BV
- Keywords
- Limestone calcined clay cement; Calcium-(alumino) silicate-hydrate; Carboaluminate; Nano-SiO2; Nano-CaCO3
- Citation
- Construction and Building Materials, v.418, pp 1 - 16
- Pages
- 16
- Indexed
- SCIE
SCOPUS
- Journal Title
- Construction and Building Materials
- Volume
- 418
- Start Page
- 1
- End Page
- 16
- URI
- https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/196915
- DOI
- 10.1016/j.conbuildmat.2024.135335
- ISSN
- 0950-0618
1879-0526
- Abstract
- This study investigates the impact of nano-CaCO3 and nano-SiO2 on limestone calcined clay cement (LC3), focusing on its hydration kinetics and mechanical properties. Nano-CaCO3 incorporation accelerated early-stage hydration and induced extensive carboaluminate formation; however, it reduced the mechanical strength at later hydration stages due to its effect on calcium-(alumino)silicate-hydrate (C -(A -)S -H) characteristics and hydrate composition. A higher CaCO3 dissolution rate increased the Ca/Si ratio in the matrix, and a large amount of carboaluminate formation consumed the Ca(OH)2 and water required for the pozzolanic reaction of metakaolin. Conversely, nano-SiO2 incorporation improved the mechanical strength across all hydration stages through the filler effect, good dispersion quality, and pozzolanic reactivity. Nano-SiO2 accelerated the early-stage hydration and produced ample C -(A -)S -H, which effectively refined the pore structure and enhanced the mechanical strength. However, the combined use of nano-CaCO3 and nano-SiO2 adversely affected the mechanical strength and pore structure of the cement pastes owing to strong agglomeration, despite accelerated hydration in the early-stages.
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