Journal
CEMENT & CONCRETE COMPOSITES
Volume 134, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.cemconcomp.2022.104722
Keywords
Mixed recycled aggregate; Supplementary cementitious materials; Durability; Concrete; Electrical resistivity; Sorptivity
Funding
- Spanish Ministry of Science and Innovation [PID2019-107238RB-C21]
- ERDF [0008_ECO2CIR_4. E]
- Consejeria de Economia, Ciencia y Agenda Digital from Junta de Extremadura [PID2019-107238RB-C21]
- MCIN/AEI
- FSE Invierte en tu futuro Programme
- [GR 21143]
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By using ground recycled masonry aggregate (GR-RMA) as a partial cement replacement and coarse mixed recycled aggregate (MRA) from construction and demolition waste (CDW), the durability of concrete can be improved. The findings suggest that concretes with 25% GR-RMA and 25%-50% MRA exhibit lower water absorption and better permeability, ensuring their impermeability throughout their service life. The use of supplementary cementitious materials (SCMs) in conjunction with recycled mixed waste can lead to more eco-efficient concretes.
Concrete combining ground recycled masonry aggregate (GR-RMA) as a partial cement replacement and coarse mixed recycled aggregate (MRA), both sourced from construction and demolition waste (CDW), was analysed for durability. The analysis consisted in indirectly characterising pore system permeability based on key water transport indicators. Concretes were prepared with 25%-50% MRA and/or 25% GR-RMA. The findings showed that, irrespective of the MRA content, in 28 d materials bearing 25% GR-RMA total water absorption was 5.7%- 7.1%, porosity 3.5%-5.8%, depth of penetration of water under pressure 3.6%-4.6% and capillary water absorption 3.2%-4.9% lower than in concretes manufactured with conventional cement and MRA. Those values were directly attributable to the lower connectivity of the pore structure in the new concretes, which translated into higher electrical resistivity. All the concretes prepared with both 25% GR-RMA and 25%-50% MRA exhibited depth of water penetration under pressure of < 30 cm, total water absorption of < 4.2% and sorptivity of < 0.4 mm min- 0.5, ensuring their impermeability to aggressive external agents. According to a multi-criterion analysis also conducted, optimal mechanical efficiency, durability and environmental impact were attained for materials bearing 25% GR-RMA and 25% MRA. The conclusion drawn from those findings is that the lower quality of MRA than conventional aggregate may be suitably offset by using supplementary cementitious materials (SCMs) in the respective cement in conjunction with such recycled mixed waste to obtain more eco-efficient concretes with properties that ensure their impermeability throughout their service life.
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