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Ternary mixes of self-compacting concrete with fly ash and municipal solid waste incinerator bottom ash
This study aims to evaluate the potential of incorporating fly ash (FA) and municipal solid waste incinerator bottom ash (MIBA) as a partial substitute of cement in the production of self-compacting concrete mixes through an experimental campaign in which four replacement levels (i.e., 10% FA + 20% MIBA, 20% FA + 10% MIBA, 20% FA + 40% MIBA and 40% FA + 20% MIBA, apart from the reference concrete) were considered. Compressive and tensile strengths, Young’s modulus, ultra-sonic pulse velocity, shrinkage, water absorption by immersion, chloride diffusion coefficient and electrical resistivity were evaluated for all concrete mixes. The results showed a considerable decline in both mechanical and durability-related performances of self-compacting concrete with 60% of substitution by MIBA mainly due to the aluminium corrosion chemical reaction. However, workability properties were not significantly affected, exhibiting values similar to those of the control mix.
Ternary mixes of self-compacting concrete with fly ash and municipal solid waste incinerator bottom ash
This study aims to evaluate the potential of incorporating fly ash (FA) and municipal solid waste incinerator bottom ash (MIBA) as a partial substitute of cement in the production of self-compacting concrete mixes through an experimental campaign in which four replacement levels (i.e., 10% FA + 20% MIBA, 20% FA + 10% MIBA, 20% FA + 40% MIBA and 40% FA + 20% MIBA, apart from the reference concrete) were considered. Compressive and tensile strengths, Young’s modulus, ultra-sonic pulse velocity, shrinkage, water absorption by immersion, chloride diffusion coefficient and electrical resistivity were evaluated for all concrete mixes. The results showed a considerable decline in both mechanical and durability-related performances of self-compacting concrete with 60% of substitution by MIBA mainly due to the aluminium corrosion chemical reaction. However, workability properties were not significantly affected, exhibiting values similar to those of the control mix.
Ternary mixes of self-compacting concrete with fly ash and municipal solid waste incinerator bottom ash
Simões, B. (author) / Raposeiro da Silva, Pedro (author) / Silva, Rui (author) / Avila, Yoleimy (author) / Forero Valencia, Javier Andres (author)
2020-01-01
doi:10.3390/app11010107
Applied Sciences ; https://www.mdpi.com/2076-3417/11/1/107
Article (Journal)
Electronic Resource
English
DDC:
690
Binary mixes of self-compacting concrete with municipal solid waste incinerator bottom ash
| BASE | 2021
| BASE | 2020
Binary mixes of self-compacting concrete with municipal solid waste incinerator bottom ash
| BASE | 2021