Abstract
Lightweight aggregates has low density, high permeability than the conventional coarse aggregate. Most commonly available lightweight aggregate (LWA) are Pumice aggregate (PA), which is a natural aggregate, sintered fly ash aggregate (SFA), which is made by sintered processing the fly ash obtained as a by-product of coal based Thermal power plants. Among the many artificial aggregates, SFA is used as a replacement to coarse aggregate to produce lightweight aggregate concrete. This paper presents an experimental study of structural lightweight aggregate concrete (SLWAC) using combination of PA and SFA as a partial replacement for coarse aggregates. In this, the mechanical and durability properties of SLWAC using different percentages i.e., 25%, 50%, 75% and 100% of PA and the rest natural coarse aggregate, fully replacement of coarse aggregate with 50% PA and 50% SFA, are evaluated by conducting comprehensive series of tests on strength and permeability parameters. The test results showed better strength and adequate density, at coarse aggregate replacement with 50% PA and 50% SFA, to be accepted as SLWAC as per ASTM standards. When the coarse aggregate is completely replaced by pumice aggregate alone, the strength achieved is poor and is suitable for non-structural members. In this study, the mixes are designed for M25 grade concrete and the results are then compared with M25 grade of conventional concrete (CC).
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More From: IOP Conference Series: Materials Science and Engineering
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