Influence of an over calcined calcium oxide-based shrinkage-compensating admixture on some properties of a self-compacting concrete

ABSTRACT The demand for self-compacting concrete grows continuously due to investments in new infrastructure, upgrades, or replacement of old infrastructure. This type of concrete can mold itself into the spaces intended for it on its own and fill them without the need for any vibration or external...

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Bibliographic Details
Published in:Matéria 2022, Vol.27 (4)
Main Authors: Cassol, Daiane, Rech, Giovani Luís, Thomazi, Eduardo, Perottoni, Cláudio Antônio, Zorzi, Janete Eunice
Format: Article
Language:English
Subjects:
CONSTRUCTION & BUILDING TECHNOLOGY
MATERIALS SCIENCE, MULTIDISCIPLINARY
METALLURGY & METALLURGICAL ENGINEERING
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Summary:ABSTRACT The demand for self-compacting concrete grows continuously due to investments in new infrastructure, upgrades, or replacement of old infrastructure. This type of concrete can mold itself into the spaces intended for it on its own and fill them without the need for any vibration or external compaction. It must achieve three main properties: fluidity, passing ability, and resistance to segregation. Monitoring these properties, the quality, and the increase in the performance of concrete structures is essential to keep up with this growth. In this work, we explore the effect of adding a commercial over calcined calcium oxide-based compound, as a shrinkage-compensating admixture, on the properties of fresh and hardened concrete, particularly on the shrinkage and curing of self-compacting concrete specimens (SCC). Also, an experimental protocol is proposed for the electrical impedance analysis of concrete samples. Fluidity, compression, shrinkage, elastic modulus, and impedance spectroscopy tests were performed, in addition to scanning electron microscopy images. The additive slightly modifies the concrete properties in the fresh state. In hardened concrete, the compressive strength and modulus of elasticity increase, in addition to a reduction in shrinkage with 2.8% of the additive. RESUMO A demanda por concreto autoadensável cresce continuamente devido aos investimentos em novas infraestruturas, atualizações ou substituição de infraestruturas antigas. Esse tipo de concreto é capaz de se moldar nos espaços destinados a ele por conta própria, preenchendo estes espaços, sem a necessidade de vibração ou compactação externa. Para isso, precisa alcançar três propriedades principais: fluidez, habilidade passante e resistência à segregação. Monitorar essas propriedades, a qualidade, e aumentar o desempenho das estruturas de concreto é essencial para acompanhar esse crescimento da demanda. Neste trabalho, exploramos o efeito da adição de um composto comercial à base de óxido de cálcio supercalcinado, como aditivo compensador de retração, nas propriedades do concreto fresco e endurecido, particularmente na retração e cura de corpos de prova de concreto autoadensável (CAA). Além disso, é proposto um protocolo experimental para a análise de impedância elétrica de amostras de concreto. Foram realizados testes de fluidez, compressão, retração, módulo de elasticidade e espectroscopia de impedância, além de imagens de microscopia eletrônica de varredura. O aditivo m
ISSN:1517-7076
1517-7076
DOI:10.1590/1517-7076-rmat-2022-0171