I. Flores scite author profile

The effect of 5- to 70-nm SiO2 nanoparticles on the mechanical properties of nanocement materials was examined. The strength development of portland cement with nano-SiO2 and superplasticizing admixture was investigated. Experimental results demonstrate an increase in the compressive and flexural strengths of mortars with SiO2 nanoparticles. Because the distribution of nano-SiO2 particles within the cement paste plays an essential role and governs the overall performance of these products, the addition of a superplasticizer was proposed to facilitate the distribution of nano-SiO2 particles. The application of superplasticizer and high-speed dispergation were found to be effective disagglomeration techniques to improve the strength of superplasticized portland cement mortars, which reached up to 63.9 and 95.9 MPa (Sample 4B3, synthesized by using the sol–gel method in a base reaction medium at ethanol-to-tetraethoxysilane and water-to-tetraethoxysilane molar ratios of 24) at the ages of 1 day and 28 days, respectively. At corresponding ages, the compressive strength of reference portland cement mortars was 53.3 and 86.1 MPa. It is concluded that the effective dispersion of nanoparticles is essential to obtain composite materials with improved performance.

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Preparation and UV weathering of polyethylene nanocomposites

Sánchez-Valdés¹,

Colunga²,

Lopez‐Quintanilla³

et al. 2008

Polym. Bull.

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Nanomaterials and Nanotechnology for High-Performance Cement Composites

Соболев¹,

Flores²,

Hermosillo³

et al. 2008

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Performance of Cement Systems with Nano-SiO₂ Particles Produced Using Sol-gel Method

et al. 2010

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The reported research examines the effect of 5–70 nm SiO2 nanoparticles on the mechani-cal properties of nanocement materials. The strength development of portland cement with nano-SiO2 and superplasticizing admixture is investigated. Experimental results demonstrate an in-crease in the compressive strength of mortars with SiO2nanoparticles. The distribution of nano-SiO2 particles within the cement paste plays an essential role and governs the overall perfor-mance of these products. Therefore, the addition of a superplasticizer is proposed to facilitate the distribution of nano-SiO2 particles. The application of effective superplasticizer and high-speed dispergation are found to be very effective dispersion techniques that improve the strength of su-perplasticized portland cement mortars, reaching up to 63.9 MPa and 95.9 MPa after aging dur-ing 1 and 28 days, respectively. These values compare favorably with the observed compressive strengths of reference portland cement mortars of 53.3 MPa and 86.1 MPa. It is concluded that the effective dispersion of nanoparticles is essential to obtain the composite materials with im-proved performance.

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I. Flores

Engineering of SiO2 Nanoparticles for Optimal Performance in Nano Cement-Based Materials

Performance of Cement Systems with Nano-SiO₂ Particles Produced by Using the Sol–Gel Method

Preparation and UV weathering of polyethylene nanocomposites

Nanomaterials and Nanotechnology for High-Performance Cement Composites

Performance of Cement Systems with Nano-SiO₂ Particles Produced Using Sol-gel Method

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I. Flores

Engineering of SiO2 Nanoparticles for Optimal Performance in Nano Cement-Based Materials

Performance of Cement Systems with Nano-SiO2 Particles Produced by Using the Sol–Gel Method

Preparation and UV weathering of polyethylene nanocomposites

Nanomaterials and Nanotechnology for High-Performance Cement Composites

Performance of Cement Systems with Nano-SiO2 Particles Produced Using Sol-gel Method

Contact Info

Product

Resources

About

Performance of Cement Systems with Nano-SiO₂ Particles Produced by Using the Sol–Gel Method

Performance of Cement Systems with Nano-SiO₂ Particles Produced Using Sol-gel Method