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Multi-scale investigation on composition-structure of C-(A)-S-H with different Al/Si ratios under attack of decalcification action

Ming Jin, Yuefeng Ma, Wen‐Wei Li, Jiale Huang, Yu Yan, Haoyu Zeng, Chao Lü, Jiaping Liu

2023Cement and Concrete Research139 citationsDOIOpen Access PDF

Abstract

This paper examines the deteriorating behavior of C-(A)-S-H samples with three Al/Si ratios from atomic to mesopore scales under the decalcification action. The composition, chemical structure , pore structure , micro/nanomorphology of samples were studied using XRD , FTIR, 29 Si and 27 Al NMR, TEM, SEM and N 2 adsorption. Results indicate bridging Al(IV) in alumino-silicate chain and most of Al-incorporated phases (e.g., Doyleite and Zeolite) dissolve in NH 4 Cl solution. Furthermore, the decalcification action improves polymerization and elongates chain length with simultaneous transformation of C-(A)-S-H into amorphous Al-Si gel. Therefore, the crystallinity of C-(A)-S-H is damaged and the nanomorphology becomes flocculent from foil-like, with large reduction on Ca/Si ratio but slight reduction on Al/Si ratio. The dissolution of C-(A)-S-H coarsens but the generation of amorphous Al-Si gel refines pore structure. Samples with moderate Al/Si ratio exhibit stronger resistance to structural evolutions than samples with other Al/Si ratios. Our work paves the way for understanding Ca-leaching induced multiscale deteriorating mechanism of blended cement-based/alkali-activated materials and the improvement on structural stability by moderate Al addition.

Topics & Concepts

Materials scienceAmorphous solidCrystallinityMesoporous materialChemical engineeringTobermoriteDissolutionFourier transform infrared spectroscopyLeaching (pedology)CrystallographyCementChemistryComposite materialOrganic chemistrySoil waterSoil scienceEnvironmental scienceCatalysisEngineeringConcrete and Cement Materials ResearchBuilding materials and conservationRecycling and utilization of industrial and municipal waste in materials production