Journal
FULLERENES NANOTUBES AND CARBON NANOSTRUCTURES
Volume -, Issue -, Pages -Publisher
TAYLOR & FRANCIS INC
DOI: 10.1080/1536383X.2023.2285522
Keywords
Pozzolan; cement-based materials; chemical shrinkage; microstructure; pozzolanic effect
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This paper evaluates the physical properties of natural pozzolan and investigates its effects on the microstructure, compressive strength, and early-age chemical shrinkage of cement pastes. The results show that the addition of pozzolan decreases the compressive strength of hardened cement pastes. The reactivity of pozzolan is closely related to its fineness, and higher pozzolan content leads to lower strength. XRD and TG analysis demonstrate that Ca(OH)2 is consumed by reacting pozzolan, forming new C-S-H. Additionally, the addition of pozzolan increases the porosity and decreases the chemical shrinkage of cement pastes.
Natural pozzolan is a promising supplementary cementitious material for hydraulic concrete due to the pozzolanic effect, especially in the area where fly ash is scarce. In this paper, the physical properties of pozzolan were evaluated. The effects of pozzolan fineness and content on the microstructure, compressive strength, and early-age chemical shrinkage of pozzolan blended cement pastes were investigated. The results showed that the addition of pozzolan decreased the compressive strength of hardened cement pastes. The pozzolanic reactivity was closely related to the fineness of pozzolan, and higher pozzolan content led to lower strength. X-ray diffraction (XRD) and thermogravimetric (TG) analysis proved that Ca(OH)2 was consumed by reacting pozzolan, forming new calcium silicate hydrated (C-S-H). Besides, the addition of pozzolan caused the increase in porosity, which was reflected by the increase in macro-pores content. The chemical shrinkage of cement pastes was mainly determined by the hydration rate of cement, so the early-age chemical shrinkage was notably reduced after adding pozzolan due to its lower reactivity than cement clinker. In addition, finer pozzolan particles resulted in less macro-defects in the cement matrix, which enhanced the deformation resistance of hardened cement paste, and thus the chemical shrinkage was also decreased.
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