An Investigation on the Effects of Adding Nano-Sio2 Particles and Silica Fume with Different Specific Surface Areas on the Physical and Mechanical Parameters of Soil-Cement Materials

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Bargi M.M.; Rasouli Ghahroudi O.; Tajdini M.

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Journal Paper

Paper Information

Journal: Civil Engineering Infrastructures Journal Year:2021 | Volume:54 | Issue:1 Page(s): 93-109

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Title

An Investigation on the Effects of Adding Nano-Sio2 Particles and Silica Fume with Different Specific Surface Areas on the Physical and Mechanical Parameters of Soil-Cement Materials

Author(s)

Bargi M.M. | Rasouli Ghahroudi O. | Tajdini M. | Issue Writer Certificate

Keywords

Compaction Test

Hydraulic Conductivity

Nano-SiO2

Soil-ement

Uniaxial Compression Test

Abstract

Soil cement is a mixture of Portland cement, soil and water, in which hydration of cement and compaction causes the materials’ constituents to bond together makes a dense and durable composition with low permeability and abrasion resistant. Since most of the recent researches are focused on the addition of Nano-SiO2 on concrete, in this paper it has been attempted to use Nano-SiO2 particles in soil-cement and observe the effects. Due to the fact that in concrete there are no particles passing sieve 200 and this restriction does not apply to soil-cements, some tests were carried out on the Nano-SiO2 + soil-cement matrix because of the meaningful difference between concrete and soil-cement. The test procedure consists of moisture-dry density, unconfined compressive test and Hydraulic Conductivity. In these tests, silica fume (with specific surface area of 21 m2/g), Nano-SiO2 (with specific surface area of 200 and 380 m2/g) were added to soil-cement. The results show that adding certain amounts of Nano-SiO2 particles to the soil-cement matrix can improve the compressive strength and reduce permeability and speed hydration reactions in the matrix in presence of Nano-SiO2 particles.

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