Hydraulic activity of cement mixed with slag from vitrified solid waste incinerator fly ash

This study investigates the effects of the slag composition on the hydraulic activity in slag blended cement pastes that incorporate synthetic slag prepared by melting CaO-modified municipal solid waste incinerator fly ash. Two types of composition-modified slag were prepared for this study. First,...

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Bibliographic Details
Published in:Waste management & research 2003-12, Vol.21 (6), p.567-574
Main Authors: Lin, Kae-Long, Wang, Kuen-Sheng, Tzeng, Bor-Yu, Lin, Chung-Yei
Format: Article
Language:English
Subjects:
Carbon
Coal Ash
Conservation of Natural Resources
Construction Materials
Incineration
Materials Testing
Particulate Matter
Refuse Disposal - methods
Temperature
Water Movements
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Summary:This study investigates the effects of the slag composition on the hydraulic activity in slag blended cement pastes that incorporate synthetic slag prepared by melting CaO-modified municipal solid waste incinerator fly ash. Two types of composition-modified slag were prepared for this study. First, fly ash was mixed with the modifier (CaO) at 5% and 15% (by weight) respectively, resulting in two fly ash mixtures. These mixtures were then melted at 1400°C for 30 minutes and milled to produce two types of slag with different modifier contents, designated as C1-slag and C2-slag. These synthetic slags were blended with ordinary Portland cement at various weight ratios ranging from 10% to 40%. The synthetic slags presented sufficient hydraulic activity, and the heavy metal leaching concentrations all met the EPA's regulatory thresholds. The pore size distribution was determined by mercury intrusion porosimetry, and the results correlated with the compressive strength. The results also indicate that the incorporation of the 10% C1-slag tended to enhance the hydration degree of slag blended cement pastes during the early ages (3-28 days). However, at later ages, no significant difference in hydration degree was observed between ordinary Portland cement pastes and 10% C1-slag blended cement pastes. In the 10% C2-slag case, the trend was similar, but with a more limited enhancement during the early ages (3-28 days). Thus vitrified waste incinerator fly ash is a technically useful additive to cement, reducing the disposal needs for the toxic fly ash.
ISSN:0734-242X
1096-3669
DOI:10.1177/0734242X0302100609