International Journal of Earth Sciences and Engineering

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Analysis on the Anti Vibration and Liquefaction Properties of Silt Sands


Affiliations
1 School of Civil Engineering, Northeast Forestry University, Harbin, China
 

In order to research the anti-liquefaction strength of the silt sands in subgrade engineering under the condition of vibration force, the soil samples of silt sands were used to do the dynamic triaxial test under different conditions using the bi-directional electromagnetic vibration triaxial apparatus. After that the influence of the anti-liquefaction strength caused by the dry density and fine particle content was analyzed. The results indicate that the larger dry density is, the stronger the property of anti-liquefaction will be; the anti-liquefaction strength won't increase with the increase of fine particle content, but will decrease to a nearly minimum value when the fine particle content is 40%. Analyze the increasing law of pore water pressure and deformation when the saturated silt sands are liquefied by the classical mathematical model, which resolves the characteristics of vibratory liquefaction of silt sands subgrade.

Keywords

Silt Sands, Subgrade, Triaxial Test, Liquefaction, Pore Water Pressure, Permanent Strain Potential.
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  • Analysis on the Anti Vibration and Liquefaction Properties of Silt Sands

Abstract Views: 124  |  PDF Views: 104

Authors

Han Chunpeng
School of Civil Engineering, Northeast Forestry University, Harbin, China
Li Jianhua
School of Civil Engineering, Northeast Forestry University, Harbin, China
Fan Jichun
School of Civil Engineering, Northeast Forestry University, Harbin, China
Luo Kaiqiao
School of Civil Engineering, Northeast Forestry University, Harbin, China
Yu Dezhong
School of Civil Engineering, Northeast Forestry University, Harbin, China
Cheng Peifeng
School of Civil Engineering, Northeast Forestry University, Harbin, China

Abstract


In order to research the anti-liquefaction strength of the silt sands in subgrade engineering under the condition of vibration force, the soil samples of silt sands were used to do the dynamic triaxial test under different conditions using the bi-directional electromagnetic vibration triaxial apparatus. After that the influence of the anti-liquefaction strength caused by the dry density and fine particle content was analyzed. The results indicate that the larger dry density is, the stronger the property of anti-liquefaction will be; the anti-liquefaction strength won't increase with the increase of fine particle content, but will decrease to a nearly minimum value when the fine particle content is 40%. Analyze the increasing law of pore water pressure and deformation when the saturated silt sands are liquefied by the classical mathematical model, which resolves the characteristics of vibratory liquefaction of silt sands subgrade.

Keywords


Silt Sands, Subgrade, Triaxial Test, Liquefaction, Pore Water Pressure, Permanent Strain Potential.