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Bio-functionalization of metakaolin for better performance of metakaolin mortars
Abstract This study was conducted to investigate the influence of gallic acid (GA), the smallest molecular unit of tannic acid, on the performance of metakaolin (MK) mortars. GA was added directly as an admixture (Method I) or pre-mixed with MK (Method II) for bio-functionalization. Experimental results showed that GA improved the dispersion of MK by generating electrostatic repulsion and spatial site resistance between particles. The GA functionalization of MK by Method II displayed superior efficiencies in adjusting the fluidity of mortars owing to better dispersibility. The functionalization of MK by GA could enhance the pore filling effect resulting from the dispersed MK, and enable more products to be generated owing to the formation of GA ∼ Ca intermediates, contributing refined pore structure and increased compressive strength to mortars. The compressive strength of MK mortars has been optimally increased by 13.0—18.0% when using 0.1% GA.
Highlights Two bio-functionalization methods for MK were proposed. GA promoted mortar hydration by dispersing MK and GA ∼ Ca seed. GA functionalized MK reduce the porosity of mortars by filling the pores. Method II achieved better fluidity and higher compressive strength than Method I.
Bio-functionalization of metakaolin for better performance of metakaolin mortars
Abstract This study was conducted to investigate the influence of gallic acid (GA), the smallest molecular unit of tannic acid, on the performance of metakaolin (MK) mortars. GA was added directly as an admixture (Method I) or pre-mixed with MK (Method II) for bio-functionalization. Experimental results showed that GA improved the dispersion of MK by generating electrostatic repulsion and spatial site resistance between particles. The GA functionalization of MK by Method II displayed superior efficiencies in adjusting the fluidity of mortars owing to better dispersibility. The functionalization of MK by GA could enhance the pore filling effect resulting from the dispersed MK, and enable more products to be generated owing to the formation of GA ∼ Ca intermediates, contributing refined pore structure and increased compressive strength to mortars. The compressive strength of MK mortars has been optimally increased by 13.0—18.0% when using 0.1% GA.
Highlights Two bio-functionalization methods for MK were proposed. GA promoted mortar hydration by dispersing MK and GA ∼ Ca seed. GA functionalized MK reduce the porosity of mortars by filling the pores. Method II achieved better fluidity and higher compressive strength than Method I.
Bio-functionalization of metakaolin for better performance of metakaolin mortars
Wang, Yonghui (author) / Fang, Hu (author) / Chen, Peiyuan (author) / Pei, Chunning (author) / Li, Jin (author) / Shen, Xin (author)
Applied Clay Science ; 245
2023-10-04
Article (Journal)
Electronic Resource
English
Durability of mortars modified with metakaolin
| Tema Archive | 2003
Durability of mortars modified with metakaolin
| British Library Online Contents | 2003
Durability of mortars modified with metakaolin
| Elsevier | 2003
Durability of mortars modified with metakaolin
| Online Contents | 2003