Abstract
Suffusion is the phenomenon responsible for internal erosion, and is the process by which finer soil particles are moved through the constrictions between the larger soil particles by seepage forces. Generally, gap-graded soil is known to be susceptible to suffusion. Meanwhile, suffusion of well-graded silty sand and the resulting soil behavior are not well understood. Moreover, the previous researches on laboratory suffusion tests focused on the study of the critical hydraulic gradient, which triggers the internal instability of the soils within a short period of time. Therefore, in this study, long-term suffusion tests were conducted on well-graded silty sand under a hydraulic gradient lower than the critical value. As a result, abrupt increases in permeability and amount of soil discharged were observed due to the progressive migration of the soil particles, resulting in suffusion even at a relatively low hydraulic gradient.
Highlights
Hydraulic earth structures, like levees and dams, can undergo various kinds of damage
Suffusion is the phenomenon responsible for internal erosion, and is the process by which finer soil particles are moved through the constrictions between the larger soil particles by seepage forces Wan and Fell [16]
The test results of the gap-graded silty sand showed that the specimen is internally unstable within a short period of time, which can be attributed to the soil structure
Summary
Like levees and dams, can undergo various kinds of damage. Internal erosion, overtopping, and slope instability are the major possible failure modes. The other major failure modes (overtopping and slope instability) make up about 44 and 4 %, respectively. Internal erosion can be regarded as one of the main cause of damage in hydraulic earth structures. Once the fine particles are removed, the permeability of the soil will increase locally. This can induce a reduction of shear strength and a mutation of hydraulic condition [3]. There are various types of dam breaches that can be induced by suffusion, such as increase in seepage, leading to the initiation of backward erosion piping; formation of voids in the foundation, leading
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