Eco-efficient steel slag concretes : an alternative to achieve circular economy.
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2022
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Annually billions of tonnes of aggregates are extracted to apply in civil construction generating
environmental impacts and energy consumption. So, based on circular economy principles applying residues
as aggregates is a good solution to reduce the mining activity and to generate a more efficient destination for
the residues. Thus, this research aims to evaluate the technical, economic, and environmental performance of
concretes produced entirely with steel slag aggregates. The concretes were characterized through physical
properties, as specific gravity, water absorption, compressive and tensile strength. Durability tests
(expansibility) were also conducted. The authors analyzed the cost assessment and environmental impact of
steel slag concrete production as well. The incorporation of steel slag increases the compressive and tensile
strength of concrete, analyzed in different ages. Additionally, the steel slag does not present expansibility
when confined in the concrete matrix. The entire replacement of natural aggregates for steel slag allowed to
reduce in 31% the cement consumption, a decrease of 140 kg/m3
, for the same strength class. The
environmental analysis showed that the incorporation of steel slag aggregates reduced the cement intensity of
concrete and its impact. Regarding the cost assessment, the mixtures with steel slag presented a lower cost
compared to the conventional one. These results indicate that steel slag aggregates could be used in a cleaner
production of concrete, replacing natural aggregates with no injury. This research provides the feasibility of
using steel slag aggregates in a cleaner and cheaper concrete production and contribute to the promotion of
sustainable solutions for the construction sector through the circular economy principles.
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Steel slag aggregate, Compressive strength, Cement intensity, Agregado de escória de aciaria, Resistência à compressão
Citação
COSTA, L. C. B. et al. Eco-efficient steel slag concretes: an alternative to achieve circular economy. IBRACON Estruturas Materiais, v. 15, n. 2, 2022. Disponível em: <https://www.scielo.br/j/riem/a/qmMnKS9Sc6Tr5qjPRdvKvtc/>. Acesso em: 29 abr. 2022.