CIFICEN   24414
CENTRO DE INVESTIGACIONES EN FISICA E INGENIERIA DEL CENTRO DE LA PROVINCIA DE BUENOS AIRES
Unidad Ejecutora - UE
congresos y reuniones científicas
Título:
Volumetric Deformations at Early Age on Portland Cement Pastes with the Addition of Illitic Calcined Clay
Autor/es:
IRASSAR, EDGARDO FABIÁN; ROSSETTI, AGUSTIN; GIACCIO, GRACIELA
Lugar:
New Dheli
Reunión:
Congreso; 3rd International Conference on Calcined Clays for Sustainable Concrete; 2019
Institución organizadora:
ITT - New Dheli
Resumen:
With the aim of reducing the environmental impact associated with cement production, during the last decade different percentages of clinker have been replaced in cement by supplementary cementitious materials (SCMs). When new SCM are incorporated in concrete it is necessary to evaluate, not only the mechanical properties (as strength and stiffness) and the durability but also the deformations that can generate cracking and, decrease the service life of the structures. This paper is focused on the study of volumetric changes at early ages of pastes made with blended cements with the addition of illitic calcined clays from the Buenos Aires province, Argentina. The objective of this work it is to present preliminary studies on the effect of illitic calcined clays on the autogenous and chemical shrinkage of pastes. The studies where made on pastes (water / cementitious material ratio equal to 0.275) using a portland cement type II / A-L, with the incorporation of different percentages (10%, 20% and 30%) of illitic calcined clays. A device for direct deformation measurement was used to register lineal dimensional changes, the general guidelines of ASTM C 1608 was applied for the determination of chemical and autogenous shrinkage. The volumetric changes measured with direct device are the sum of the chemical and autogenous shrinkage accompanied with the expansion due the heat released during hydration. It was found that pastes incorporating calcined clays had early deformations similar to or lower than refer-ence paste without clay.