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http://dspace.mediu.edu.my:8181/xmlui/handle/10261/4950| Title: | Modifications of the C–S–H Gel by Hydration at 40ºC of Belite Cements from Coal Fly Ash Class C |
| Keywords: | Temperature of hydration BET-N2 surface area and pore-size distribution Capillary porosity C-S-H gel porosity Mechanical strength Fly ash belite cement |
| Publisher: | American Ceramic Society John Wiley & Sons |
| Description: | 6 pages.-- Final full-text version of the paper available at: http://dx.doi.org/10.1111/j.1551-2916.2007.02108.x. The influence of the temperature on two types of hydrated fly ash belite cement (FABC) pastes were investigated at a nanoscale (1–100 nm) by measuring the specific surface area and pore-size distribution by the sorption isotherms of nitrogen gas and the BET method, and at a microscale from the pore-size distribution measured by mercury intrusion porosimetry. The two belite cements were fabricated by the hydrothermal–calcination route of fly ash class C in NaOH 1M solution (FABC-2-N) and demineralized water (FABC-2-W). In the case of FABC-2-W, a densification of the C–S–H gel was produced at the temperature of 40ºC, which favored the formation of pores of 3 nm in diameter leading to higher surface area values, compared with the C–S–H gel formed at 20ºC. At a microscale, the temperature led to an increase of capillary porosity (higher than 0.05 um)at a later age of hydration and, consequently, a decrease of compressive mechanical strength. In the case of FABC-2-N, the densification of the gel was less evident, but the increase of capillary porosity (pores of diameter higher than 0.05 um) was higher. Significant direct linear quantitative correlations were found among these nanostructure characteristics of the C–S–H gel and macrostructural engineering property such as the compressive mechanical strength, for the two FABC-2-W and FABC-2-N cements under normal conditions. At 40ºC, the correlations were not so clear probably due to another microstructural factor such as the increase of the larger capillary porosity (higher than 0.05 um). The authors gratefully acknowledge the financial support by the Minister of Science and Technology (Project no. MAT 2002-04023-CO3) and the Thermal Station of Cercs (Catalonia) for the fly ash supplied. Peer reviewed |
| URI: | http://dspace.mediu.edu.my:8181/xmlui/handle/10261/4950 |
| Other Identifiers: | J. Am. Ceram. Soc., 91(1): 209–214 (2008) 0002-7820 http://hdl.handle.net/10261/4950 10.1111/j.1551-2916.2007.02108.x |
| Appears in Collections: | Digital Csic |
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