Analysis of the Utilization of Air-Cooled Blast Furnace Slag as Industrial Waste Aggregates in Self-Compacting Concrete
Copyright policy )Analysis of the Utilization of Air-Cooled Blast Furnace Slag as Industrial Waste Aggregates in Self-Compacting Concrete
In this work, the effects of replacing the aggregates of self-compacting concrete by air-cooled blast furnace slag have been analysed. Different mixes have been manufactured by substituting the fine and coarse natural aggregates by air-cooled blast furnace slag. The fracture energy and the tensile and compressive strength have been determined for each mix. The self-compacting properties of the mixes, or the absence of them, have been observed. The main goals of this research are the decrease of the price of aggregates, reduction of the industrial waste, and attenuation the rate of consumption of natural resources. The results show that the self-compactability of the concrete is gradually lost as the slag content is increased, thus, when the ratio of replacement is low, the concrete keeps the self-compacting properties. Nevertheless, the loss of self-compaction affects the mechanical properties by increasing its strength. An air-cooled blast furnace slag did not present problems of heavy metals leaching.
- University of Seville Spain
Environmental effects of industries and plants, self-compacting concrete, fracture behaviour, Fracture behaviour, TJ807-830, TD194-195, Renewable energy sources, Environmental sciences, heavy metals leaching, Air-cooled blast furnace slag, Self-compacting concrete, Concrete manufacturing, GE1-350, concrete manufacturing, air-cooled blast furnace slag, Heavy metals leaching
Environmental effects of industries and plants, self-compacting concrete, fracture behaviour, Fracture behaviour, TJ807-830, TD194-195, Renewable energy sources, Environmental sciences, heavy metals leaching, Air-cooled blast furnace slag, Self-compacting concrete, Concrete manufacturing, GE1-350, concrete manufacturing, air-cooled blast furnace slag, Heavy metals leaching
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