Abstract
The use of nanomaterials in concrete has shown promise, and the use of several types in cementitious compounds has been found to guarantee greater physical–mechanical properties and improvements in microstructure. The use of mineral admixtures, such as silica fume, ensures the improvement of the interfacial transition zone (ITZ) between aggregate and paste in high-performance concrete (HPC). Thus, this work evaluates the performance of superplasticizer additive with colloidal nanosilica suspension and slurried silica fume with HPC and its macro- and micro-structural properties. The mechanical (i.e., compressive strength and elastic modulus) and microstructural properties via (scanning electron microscopy and X-ray micro tomography) of concretes with 1.5 and 3% nanosilica and 5 and 10% silica fume included in the evaluation methods in this study. The results indicate that, with the use of mineral admixtures, the compressive strength and elastic modulus of concrete increased significantly. The concrete with the use of 10% silica fume and 3% nanosilica resulted in a showed an increased strength over 75% at 28 days. Besides that, for same w/b = 0.35 the elastic modulus increased by 36% compared with the reference concrete. The microstructural investigations show that the nanosilica and silica fume led to a densification of microstructure, which is responsible for the improvement of HPC performance.
Highlights
Concrete represents one of the most widely used construction materials worldwide by volume
The microstructural investigations show that the nanosilica and silica fume led to a densification of microstructure, which is responsible for the improvement of high-performance concrete (HPC) performance
This study demonstrates the efficiency of silica fume in suspension, as well as the polycarboxylate superplasticizer with nanosilica in order to evaluate the efficiency of materials in mechanical properties, porosity via x-ray micro tomography and the effect of densification microstructure via scanning electron microscopy
Summary
Concrete represents one of the most widely used construction materials worldwide by volume. This study demonstrates the efficiency of silica fume in suspension, as well as the polycarboxylate superplasticizer with nanosilica in order to evaluate the efficiency of materials in mechanical properties (compressive strength and elastic modulus), porosity via x-ray micro tomography and the effect of densification microstructure via scanning electron microscopy. This investigation contributes to the understanding of the effect of nanosilica and silica fume on the macro and microscale properties of highperformance concrete considering the synergistic benefit
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