Mechanical Properties of Concrete Mixed with SiO<sub>2</sub> and CaCO<sub>3</sub> Nanoparticles: Fid-Bau Portal

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Mechanical Properties of Concrete Mixed with SiO₂ and CaCO₃ Nanoparticles

Wang, De-zhi / Meng, Yun-Fang / Zhang, Yin-Yan

The split tensile strength and compressive strength of concrete mixed with SiO₂ and CaCO₃ nanoparticles have been experimentally studied. SiO₂ nanoparticles as a partial cement replaced by 0.5, 1.0, 2.0 and 3.0 wt.% and CaCO₃ nanoparticles by 1.0 and 3.0 wt.% were added partially to concrete. Curing of the specimens has been carried out for 7, 28, 78 and 128 days after casting. SiO₂ nanoparticle as a partial replacement of cement up to 3.0 wt.% could accelerate formation of CSH gel at the early ages and hence increase the split tensile strength and compressive strength. The optimal replacement level of cement by SiO₂ nanoparticles for producing concrete with improved strength was set at 2.0 wt.%. CaCO₃ nanoparticles as a partial replacement of cement up to 3.0 wt.% could consume crystalline Ca(OH)₂ and accelerate formation of calcium carboaluminate hydrate at the early ages and increase the split tensile strength and compressive strength. The optimal replacement level of cement by CaCO₃ nanoparticles for producing concrete with improved strength was set at 3.0 wt.%.

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Mechanical Properties of Concrete Mixed with SiO₂ and CaCO₃ Nanoparticles

Wang, De-zhi / Meng, Yun-Fang / Zhang, Yin-Yan

The split tensile strength and compressive strength of concrete mixed with SiO₂ and CaCO₃ nanoparticles have been experimentally studied. SiO₂ nanoparticles as a partial cement replaced by 0.5, 1.0, 2.0 and 3.0 wt.% and CaCO₃ nanoparticles by 1.0 and 3.0 wt.% were added partially to concrete. Curing of the specimens has been carried out for 7, 28, 78 and 128 days after casting. SiO₂ nanoparticle as a partial replacement of cement up to 3.0 wt.% could accelerate formation of CSH gel at the early ages and hence increase the split tensile strength and compressive strength. The optimal replacement level of cement by SiO₂ nanoparticles for producing concrete with improved strength was set at 2.0 wt.%. CaCO₃ nanoparticles as a partial replacement of cement up to 3.0 wt.% could consume crystalline Ca(OH)₂ and accelerate formation of calcium carboaluminate hydrate at the early ages and increase the split tensile strength and compressive strength. The optimal replacement level of cement by CaCO₃ nanoparticles for producing concrete with improved strength was set at 3.0 wt.%.

Mechanical Properties of Concrete Mixed with SiO₂ and CaCO₃ Nanoparticles

Wang, De-zhi / Meng, Yun-Fang / Zhang, Yin-Yan

The split tensile strength and compressive strength of concrete mixed with SiO₂ and CaCO₃ nanoparticles have been experimentally studied. SiO₂ nanoparticles as a partial cement replaced by 0.5, 1.0, 2.0 and 3.0 wt.% and CaCO₃ nanoparticles by 1.0 and 3.0 wt.% were added partially to concrete. Curing of the specimens has been carried out for 7, 28, 78 and 128 days after casting. SiO₂ nanoparticle as a partial replacement of cement up to 3.0 wt.% could accelerate formation of CSH gel at the early ages and hence increase the split tensile strength and compressive strength. The optimal replacement level of cement by SiO₂ nanoparticles for producing concrete with improved strength was set at 2.0 wt.%. CaCO₃ nanoparticles as a partial replacement of cement up to 3.0 wt.% could consume crystalline Ca(OH)₂ and accelerate formation of calcium carboaluminate hydrate at the early ages and increase the split tensile strength and compressive strength. The optimal replacement level of cement by CaCO₃ nanoparticles for producing concrete with improved strength was set at 3.0 wt.%.

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Title:

Mechanical Properties of Concrete Mixed with SiO₂ and CaCO₃ Nanoparticles

Contributors:

Wang, De-zhi (author) / Meng, Yun-Fang (author) / Zhang, Yin-Yan (author)

Published in:

Frontiers of Green Building, Materials and Civil Engineering, GBMCE, International Conference on Green Building, Materials and Civil Engineering, 2011 ; 1233-1236

Applied Mechanics and Materials ; 71-78

Publication date:

2011

Size:

4 Seiten

ISSN:

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.71-78.1233

Type of media:

Conference paper

Type of material:

Print

Language:

English

Keywords:

Nanopartikel , Druckfestigkeit , Zugfestigkeit , Gel , Calciumaluminathydrat , Baugruppenaustausch , CaCO3

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