期刊
GEOTEXTILES AND GEOMEMBRANES
卷 49, 期 4, 页码 1036-1045出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.geotexmem.2021.02.001
关键词
Expansive soil; Soilbag; Swelling pressure; Swelling stress; Cutting slope
资金
- National Key Research and Development Project [2019YFC1509800]
- National Natural Science Foundation of China [41630633]
- Natural Science Foundation of Anhui Province [1808085MD106]
This paper presents a new design method for soilbag-protected slopes in expansive soils based on the balance between soilbag friction and active lateral earth pressure. It emphasizes the importance of soilbag heap-up height and width in ensuring slope stability.
Slope failures and slope slides of expansive soils are usually characterized by shallow sliding along the surface crack. Soilbag is an effective method to prevent and control slope failures and slope slides of expansive soil. Currently, soilbag protection for expansive soil slopes has been commonly designed using empirical methods, which led to many failures of soilbag-protected slopes, or high-cost. In this paper, a new design method of the soilbag-protected slopes in expansive soils is proposed based on the balance between the soilbag friction and the active lateral earth pressure induced by the swelling pressure of expansive soils. Specifically, the friction between the soilbags is assumed to be in direct proportion to the soilbag heap-up height. The active lateral earth pressure acted on a layer of soilbag is calculated along with the total height of the slope. Moreover, the width of soilbag layers is calculated from the balance of the sum of soilbag friction and the total active lateral earth pressure along with the soilbag height and expressed by the height of slopes. For the convenience of soilbag construction, the heap-up unit of soilbags is proposed for different slope heights of expansive soils.
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