Abstract
This paper investigates the cement hydration, and the slag reaction contributes to the compressive strengths of mortars mixed with ground river sand (GRS) and ground-granulated blast furnace (GGBF) slag with different particle sizes. GRS (inert material) and GGBF slag (reactive material) were ground separately until the median particle sizes of 32 ± 1, 18 ± 1, and 5 ± 1 micron and used to replace Portland cement (PC) in large amount (40–60%) by weight of the binder. The results showed that, at the early age, the compressive strength obtained from the cement hydration was higher than that obtained from the slag reaction. The results of compressive strength also indicated that the GGBF slag content and particle size play important roles in the slag reaction at the later ages, whereas cement hydration is more prominent at the early ages. Although the results could be expected from the use of GGBF slag to replace PC in mortar or concrete, this study had presented the values of the compressive strength along with ages and the finenesses of GGBF slag that contributed from cement hydration and from GGBF slag reaction.
Highlights
Blast furnace slag (BFS) is an industrial by-product of the manufacturing of pig iron
ground-granulated blast furnace (GGBF) slag has been used as a supplementary cementitious material (SCM) in blended cement, and annual worldwide production of GGBF slag is estimated at 250 million tons a year [2]
Erefore, the aim of this paper is to evaluate the compressive strength of mortar obtained from the cement hydration and from the slag reaction when ground river sand (GRS) and GGBF slag with different particle sizes are used to replace Portland cement (PC) in large amounts (40 to 60%) by weight of the binder. is study based on the assumption that the packing effect value of GRS and GGBF slag is little or no in the mortar, if PC, GRS, and GGBF slag have the same particle size. ese results lead to a better understanding of the factors affecting the rate of reaction of GGBF slag. e results of this study may be helpful for cement and concrete manufacturers in selecting suitable fineness of GGBF slag to replace a portion of PC
Summary
Blast furnace slag (BFS) is an industrial by-product of the manufacturing of pig iron. In the production of the pig iron process, iron ore and limestone (as a flux) are burnt together by coke at 1500°C in a blast furnace. Liquid slag and liquid pig iron are products. After being separated from the liquid pig iron, the liquid slag was quenched with water to form glassy granular particles called granulated blast furnace (GBF) slag. GBF slag exhibits hydraulic cementing properties when it is finely ground, and it is called ground-granulated blast furnace (GGBF) slag or slag cement [1]. GGBF slag has been used as a supplementary cementitious material (SCM) in blended cement, and annual worldwide production of GGBF slag is estimated at 250 million tons a year [2]
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