Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Mechanical properties, microstructure and consolidation of sand modified with sodium silicate
Abstract Grouting is an effective way to address the poor performance of sandy soils. There are few studies on water glass single-liquid permeation grouting for solidifying sandy soils. To study the effects and processes of water-glass-cured sandy soil, we conducted a direct shear test and uniaxial compressive strength test on water-glass-cemented sandy soil specimens and summarized the relationships among modulus, Baume degree, curing time and strength of cured sandy soil from a macroscopic mechanical point of view. By combining nuclear magnetic resonance (NMR) imagery and scanning electron microscopy (SEM), the consolidation evolution of cured sandy soil was revealed from a microscopic point of view, including the pore structure and gel state. The results showed that there is a saturation value for the strength of water-glass-cured sandy soil. The specimens with a low Baume degree solidified quickly, the strength saturation value was lower than 3 MPa, and the inner layer was dehydrated in a loose sand state; the specimens with a high Baume degree solidified slowly, and the strength saturation value was higher than 8 MPa. The migration of water glass and the deepening of curing are the two processes that control the effect of consolidation. The state of the silica gel plays a decisive role in the strength, the saturation value of the specimen strength depends on the limit of gel condensation, and the thickness of the gel layer is exponentially related to the strength. In addition, high-modulus and high-Baume degree water glass is recommended for consolidation when an improvement in the strength and compactness of sandy soils is needed.
Highlights The mechanical behavior of water glass solidified sandy soil under different conditions was analyzed The pore and gel characteristics of sand solidified by water glass under different conditions were studied The influence of water glass migration and depth of curing on the final effect of curing is discussed
Mechanical properties, microstructure and consolidation of sand modified with sodium silicate
Abstract Grouting is an effective way to address the poor performance of sandy soils. There are few studies on water glass single-liquid permeation grouting for solidifying sandy soils. To study the effects and processes of water-glass-cured sandy soil, we conducted a direct shear test and uniaxial compressive strength test on water-glass-cemented sandy soil specimens and summarized the relationships among modulus, Baume degree, curing time and strength of cured sandy soil from a macroscopic mechanical point of view. By combining nuclear magnetic resonance (NMR) imagery and scanning electron microscopy (SEM), the consolidation evolution of cured sandy soil was revealed from a microscopic point of view, including the pore structure and gel state. The results showed that there is a saturation value for the strength of water-glass-cured sandy soil. The specimens with a low Baume degree solidified quickly, the strength saturation value was lower than 3 MPa, and the inner layer was dehydrated in a loose sand state; the specimens with a high Baume degree solidified slowly, and the strength saturation value was higher than 8 MPa. The migration of water glass and the deepening of curing are the two processes that control the effect of consolidation. The state of the silica gel plays a decisive role in the strength, the saturation value of the specimen strength depends on the limit of gel condensation, and the thickness of the gel layer is exponentially related to the strength. In addition, high-modulus and high-Baume degree water glass is recommended for consolidation when an improvement in the strength and compactness of sandy soils is needed.
Highlights The mechanical behavior of water glass solidified sandy soil under different conditions was analyzed The pore and gel characteristics of sand solidified by water glass under different conditions were studied The influence of water glass migration and depth of curing on the final effect of curing is discussed
Mechanical properties, microstructure and consolidation of sand modified with sodium silicate
Xu, Yitian (Autor:in) / Zhang, Yan (Autor:in) / Huang, Junjie (Autor:in) / Chen, Guoqing (Autor:in)
Engineering Geology ; 310
29.09.2022
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
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