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³¤°²´óѧѧ±¨£¨×ÔÈ»¿Æѧ°æ£©[ISSN:1006-6977/CN:61-1281/TN]

Issue:

2020Äê3ÆÚ

Page:

22-32

Research Field:

µÀ·¹¤³Ì

Publishing date:

Info

Title:

Stability of high salinity saline soil subgrade slope under influence ofª¤water content and shear strength

Author(s):

ZHANG Yuª¬ª©1; 2ªª;  LUO Yangª¬2;  XU Anª²huaª¬3;  FANG Jianª²hongª¬1

£¨1. Qinghai Transportation Research Institute, Xining 810001, Qinghai, China; 2. School of Traffic andª¤Transportation, Lanzhou Jiaotong University, Lanzhou 730070, Gansu, China; 3. Qinghai Communicationsª¤Technical College, Xining 810003, Qinghai, China£©

Keywords:

road engineering;  saline soil;  slope stability;  water contentª²strength parameter equivalent layering

PACS:

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DOI:

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Abstract:

Amid at the solubility and hydrophilicity of different salinity types in saline soils were quite different, the influence of the relationships between the water content and shear strength of saline soils on the stability of saline soil roadbed slopes were analyzed, combined with the rainfall survey and the depth distribution of the onª²site moisture, the indoor test adapted to the environmental conditions was carried out. Direct shear tests were performed on the highª²chlorine saline soil (CLª²1) and highª²sulfur lowª²chlorine saline soil (CLª²2) under different water content conditions, and the relationships between water content and shear strength parameters were obtained. Based on Geostudio, a water contentª²strength parameter equivalent layered calculation model for saline soil subgrade was established, and the change law of soil sample matrix suction with volumetric water content was measured by volume pressure plate test. By combining the finite element analysis of saturated/unsaturated seepage and the limit equilibrium analysis of the stability of the roadbed slope, the SLOPE/W module in GeoStudio was used to calculate and analyze the operating conditions of rainfall intensity and rainfall duration influence of saline soil subgrade slope stability. Considering the relationship function between the water content and the shear strength, the stabilities of the CLª²1 and CLª²2 saline soil slopes were analyzed through the establishment of an equivalent layered calculation model of the saline soil roadbed moisture contentª²strength parameters. The results show that when the water content is increased by 3% on the basis of the optimal water content, the cohesion of CLª²1 and CLª²2 decreases by 94.3% and 54.0%, respectively, the internal friction angle does not change much. When the optimal water content is reduced by 3%, the cohesion of CLª²1 and CLª²2 are increased by 277.1% and 89.7%, respectively, compared with the optimal water content, which has little effect on the internal friction angle of CLª²2, the internal friction angle of CLª²1 has decreased significantly. When the rainfall intensity is the same, the safety factor of the roadbed filled with CLª²1 is more obvious than that of the roadbed filled with CLª²2. The main reason is that the high chloride is more hydrophilic than the sulfate and the shear strength parameters are more affected by changes in moisture. 3 tabs, 14 figs, 25 refs.

References:

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Last Update: 2020-06-03