Influence of Partial Replacement of Cement and Sand with Coal Bottom Ash on Concrete Properties

The carbon dioxide emissions from Portland cement production have increased signi cantly and Portland cement is the main binder used in self-compacting concrete, so there is an urgent need to nd environmental friendly materials as alternative resources. In most developing countries, the availability of huge amounts of agricultural waste has paved the way for studying how these materials can be processed into self-compacting concrete as binder and aggregates compositions. Therefore, this experimental program was carried out to study the properties of self-compacting concrete (SCC) made with local metakaolin, coal bottom ash separately and combined. Total 25 mixes were prepared with four mixes as 5,10, 15 and 20% replacement of cement with metakaolin, four mixes as 10, 20, 30 and 40% of coal bottom ash as partial replacement of ne aggregates separately and 16 mixes prepared combined with metakaolin and coal bottom ash. The fresh properties were explored by slump ow, T 50 ow, Vfunnel, L-box, J-Ring sieve segregation test. Moreover, the hardened properties of concrete were performed for compressive, splitting tensile and exural strength and permeability of SCC mixtures. Fresh concrete test results show that even if no viscosity modi er is required, satisfactory fresh concrete properties of SCC can be obtained by replacing the ne aggregate with coal bottom ash content. At 15% replacement of cement with local metakaolin is optimum and gave better results as compared to control SCC. At 30% replacement of ne aggregate is optimum and gave better results as compared to control SCC. In the combined mix 10% replacement of cement with metakaolin combined with 30% replacement of ne aggregate with coal bottom ash is optimum and gave better results as compared to control SCC.

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Effect of local metakaolin developed from natural material soorh and coal bottom ash on fresh, hardened properties and embodied carbon of self-compacting concrete

Keerio

Saand

Kumar

et al. 2021

Environ Sci Pollut Res

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Strength characterization and sustainability assessment of coal bottom ash concrete

Ankur,

Singh

2024

Environ Sci Pollut Res

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Optimisation and prediction modeling of hardened concrete characteristics incorporating coal bottom Ash (CBA) via the response surface methodology (RSM)

Ku Meh,

Mohd Zuki,

Algaifi

et al. 2024

Multiscale and Multidiscip. Model. Exp. and Des.

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Influence of Partial Replacement of Cement and Sand with Coal Bottom Ash on Concrete Properties

Cited by 4 publications

References 11 publications

Effect of local metakaolin developed from natural material soorh and coal bottom ash on fresh, hardened properties and embodied carbon of self-compacting concrete

Effect of local metakaolin developed from natural material soorh and coal bottom ash on fresh, hardened properties and embodied carbon of self-compacting concrete

Strength characterization and sustainability assessment of coal bottom ash concrete

Optimisation and prediction modeling of hardened concrete characteristics incorporating coal bottom Ash (CBA) via the response surface methodology (RSM)

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