Adaptation of eco-friendly approach in the production of soluble pozzolanic material
Silica gel made of natural waste materials of sugarcane bagasse has initiated a new trend in pozzolanic area. The employment of eco-friendly approach by using low concentration acids and natural drying via solar heat-based equipment in the pre-treatment process were projected to minimize the energy...
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Format: | Article |
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WITPress
2017
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Online Access: | https://www.scopus.com/inward/record.uri?eid=2-s2.0-85008471420&doi=10.2495%2fDNE-V12-N2-246-253&partnerID=40&md5=f70d27cd19bd292fa3ddf63bef14d29a http://eprints.utp.edu.my/19791/ |
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Summary: | Silica gel made of natural waste materials of sugarcane bagasse has initiated a new trend in pozzolanic area. The employment of eco-friendly approach by using low concentration acids and natural drying via solar heat-based equipment in the pre-treatment process were projected to minimize the energy consumption in producing silica ash. Conversion of ultrafine silica ash from sugarcane bagasse into silica gel was conducted by-using a modified hydrothermal method. NaOH and HCI solution were employed in the dissolution and gelification of soluble silica. Analysis on the effect of silica gel in cementitious system was evaluated by including it in mortar specimen as a pozzolan to replace certain portions of Portland cement. Inclusion of additional siliceous gel showed enhancement in the cement hydration process, which resulted in early hardening and the consolidated formation of cement matrix to further contribute in the strength development. Measurement of pozzolanic reactivity of silica gel via Chapelle method verified the active consumption of Ca(OH)2 by the soluble silica, which illustrates the possible formation of secondary calcium silicate hydrate (C-S-H) from the pozzolanic reaction. Densification of pore structure via large voids was observed via porosity test at age of 7 and 28 days. Based on the experimental result of this study, silica gel has presented an encouraging prospect to be used as a cement replacement material. Its rapid reaction during the early age would be beneficial in providing early strength properties to the cement-based product. © 2017 WIT Press. |
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