Estimation of unsaturated shear strength from soil–water characteristic curve
Many shallow foundations are constructed within the soil layer above the groundwater table, where the soil remains unsaturated, and the failure of shallow foundation is mostly related to shear failure. The shear strength of the unsaturated soil is one of the main engineering properties required in g...
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sg-ntu-dr.10356-1443802020-11-02T08:26:24Z Estimation of unsaturated shear strength from soil–water characteristic curve Zhai, Qian Rahardjo, Harianto Satyanaga, Alfrendo Dai, Guoliang School of Civil and Environmental Engineering Engineering::Civil engineering Capillary Water Meniscus Many shallow foundations are constructed within the soil layer above the groundwater table, where the soil remains unsaturated, and the failure of shallow foundation is mostly related to shear failure. The shear strength of the unsaturated soil is one of the main engineering properties required in geotechnical designs. Previous researchers suggested that the shear strength of the unsaturated soil depends on matric suction in the soil. The shape of the soil–water characteristic curve (SWCC) has a significant effect on the characteristics of unsaturated shear strength with respect to matric suction. In this paper, a new model was proposed for the estimation of the unsaturated shear strength from SWCC. In this new model, meniscus was considered to transfer soil suction into both additional net normal stress and additional cohesion. Based on the categorization from soil science, water in soil can be categorized into three groups: (1) gravity water, (2) capillary water and (3) hygroscopic water. The elemental analysis on the contractile skin indicated that only the capillary water in the soil can transfer stress into soil skeleton. Consequently, the SWCC is modified by considering capillary water only for the estimation of unsaturated shear strength. In the derivation, unsaturated soil is considered as four-phase material. Finally, a new mathematical equation for the estimation of the unsaturated shear strength was proposed and verified with the experimental data from the published literature. In addition, the proposed equation does not consist of any empirical parameter and can be used to predict the shear strength of unsaturated soil. Accepted version The first author would like to acknowledge the financial supports he received from the National Natural Science Foundation of China (No. 51878160), the National Key Research and development program of China (No. 2017YFC00703408) and the Fundamental Research Funds for the Central Universities (No. 2242018K41046). 2020-11-02T08:26:24Z 2020-11-02T08:26:24Z 2019 Journal Article Zhai, Q., Rahardjo, H., Satyanaga, A., & Dai, G. (2019). Estimation of unsaturated shear strength from soil–water characteristic curve. Acta Geotechnica, 14(6), 1977-1990. doi:10.1007/s11440-019-00785-y 1861-1125 https://hdl.handle.net/10356/144380 10.1007/s11440-019-00785-y 6 14 1977 1990 en Acta Geotechnica © 2019 Springer-Verlag Berlin Heidelberg. This is a post-peer-review, pre-copyedit version of an article published in Acta Geotechnica. The final authenticated version is available online at: http://dx.doi.org/10.1007/s11440-019-00785-y. application/pdf |
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Engineering::Civil engineering Capillary Water Meniscus Zhai, Qian Rahardjo, Harianto Satyanaga, Alfrendo Dai, Guoliang Estimation of unsaturated shear strength from soil–water characteristic curve |
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Many shallow foundations are constructed within the soil layer above the groundwater table, where the soil remains unsaturated, and the failure of shallow foundation is mostly related to shear failure. The shear strength of the unsaturated soil is one of the main engineering properties required in geotechnical designs. Previous researchers suggested that the shear strength of the unsaturated soil depends on matric suction in the soil. The shape of the soil–water characteristic curve (SWCC) has a significant effect on the characteristics of unsaturated shear strength with respect to matric suction. In this paper, a new model was proposed for the estimation of the unsaturated shear strength from SWCC. In this new model, meniscus was considered to transfer soil suction into both additional net normal stress and additional cohesion. Based on the categorization from soil science, water in soil can be categorized into three groups: (1) gravity water, (2) capillary water and (3) hygroscopic water. The elemental analysis on the contractile skin indicated that only the capillary water in the soil can transfer stress into soil skeleton. Consequently, the SWCC is modified by considering capillary water only for the estimation of unsaturated shear strength. In the derivation, unsaturated soil is considered as four-phase material. Finally, a new mathematical equation for the estimation of the unsaturated shear strength was proposed and verified with the experimental data from the published literature. In addition, the proposed equation does not consist of any empirical parameter and can be used to predict the shear strength of unsaturated soil. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Zhai, Qian Rahardjo, Harianto Satyanaga, Alfrendo Dai, Guoliang |
| format |
Article |
| author |
Zhai, Qian Rahardjo, Harianto Satyanaga, Alfrendo Dai, Guoliang |
| author_sort |
Zhai, Qian |
| title |
Estimation of unsaturated shear strength from soil–water characteristic curve |
| title_short |
Estimation of unsaturated shear strength from soil–water characteristic curve |
| title_full |
Estimation of unsaturated shear strength from soil–water characteristic curve |
| title_fullStr |
Estimation of unsaturated shear strength from soil–water characteristic curve |
| title_full_unstemmed |
Estimation of unsaturated shear strength from soil–water characteristic curve |
| title_sort |
estimation of unsaturated shear strength from soil–water characteristic curve |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/144380 |
| _version_ |
1688665500513468416 |