Abstract
This research investigates the fresh behaviour and mechanical properties of self-compacting concrete (SCC) containing high volume of limestone, metakaolin, silica fume, zeolite, and viscosity modifying admixture. Two fine aggregates with different fineness modulus were also utilized to evaluate the effect of sand’s gradation on the mechanical and flow properties of SCC containing inert and pozzolanic powder. Slump flow, V-funnel for fresh concrete and 5-minute-old concrete, J-ring, Orimet with and without J-ring, and L-box and U-box tests were performed on all 14 fresh concrete mixtures to examine the fresh properties of self-compacting concrete. Compressive strength of hardened specimens was measured at 7 and 35 days and tensile strength was also determined at the age of 28 days. The results show that sand grading significantly affects the fresh properties of SCC. It is also concluded that high volume of active powders including metakaolin, zeolite, and silica fume could not improve both the flow and mechanical properties of SCC at the same time. Limestone can be effectively used as filler in SCC in high volume content. A new set of limits for the L-box and U-box tests for SCC containing silica fume is also recommended as the existing criteria are not satisfactory.
Highlights
Self-compacting concrete (SCC) is a well-known construction material developed in the last two decades to address the engineer requests demanding more workable concrete [1]
This study investigates the effect of viscosity modifying admixture (VMA) on the properties of SCC as well
The effect of different powder materials incorporated at high volume and fine aggregate with different fineness modulus on the flow and mechanical properties of SCC was investigated
Summary
Shi [24] investigated the effects of four mineral powders including coal fly ash, limestone dust, blast furnace slag, and ground glass on the properties of SCC. He found that the morphology and particle size of the mineral powders play an important role in flowability and workability of SCCs. The spherical particles of fly ash can facilitate the flow of concrete mixture. Another goal of this study was to examine the influence of sand’s fineness on the flow and mechanical properties of SCC. The compressive strength test was conducted at 7 and 35 days when the tensile test was carried out at 28 days
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