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

M. Tajdini, M. Bargi, Omid Rasouli Ghahroudi
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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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添加不同比表面积的纳米二氧化硅颗粒和硅灰对水泥土物理力学参数影响的研究
土壤水泥是波特兰水泥、土壤和水的混合物,其中水泥的水合作用和压实作用使材料的成分结合在一起,形成致密耐用的低渗透性和耐磨性组合物。由于最近的研究大多集中在混凝土中添加纳米SiO2,因此本文试图将纳米SiO2颗粒用于土壤水泥中并观察其效果。由于混凝土中没有颗粒通过200号筛,而且这一限制不适用于土壤水泥,因此,由于混凝土和土壤水泥之间存在显著差异,因此对纳米SiO2+土壤水泥基质进行了一些试验。试验程序包括干密度、无侧限抗压试验和导水率。在这些试验中,将硅灰(比表面积为21m2/g)、纳米SiO2(比表区域为200和380m2/g)添加到土壤水泥中。结果表明,在水泥土基质中加入一定量的纳米SiO2颗粒,可以提高水泥土的抗压强度,降低渗透性,加快基质中的水化反应。
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来源期刊
CiteScore
1.30
自引率
60.00%
发文量
0
审稿时长
47 weeks
期刊最新文献
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