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Study on landslides in loess slope due to infiltrationZhou, Yuefeng, 周跃峰 January 2012 (has links)
In this thesis, the mechanism of landslides in loess slope is studied based on a field test
in association with laboratory tests and numerical modeling. The field test was carried
out in the Heifangtai Plateau in China. Heifangtai belongs to semiarid monsoonal with
scarce precipitation. Therefore, agricultural irrigation is the major source of water
infiltration for the loess slopes in Heifangtai.
The test site was selected at the crest of a steep loess slope with developed cracks,
covered by more than 40m loess layer. Ground investigation, including lithological
composition, groundwater level, soil sampling and soil permeability, was conducted. A
field monitoring program was then performed by installation of inclinometers,
piezometers, moisture probes, tensiometers and crackmeters.
The field irrigation test with instrument monitoring was conducted at the test site on
October 2009, lasting for 12 days. Based on field observation and monitoring results,
some typical failures occurred in the field test were analyzed in details, including
development of cracks, formation of sinkholes and failures on slope surface. These
failures are representative in loess regions and are potential factors of loess landslides.
A conceptual model was proposed to reflect soil failures induced by water infiltration
along the crack.
To characterize the loess behavior to infiltration, a comprehensive triaxial testing
program was conducted on trimmed loess specimens sampled in Heifangtai. The
fundamental behavior of loess was investigated following different stress paths under
both saturated and unsaturated conditions. Based on triaxial tests, the soil parameters
including mechanical properties and hydraulic properties were obtained.
The finite difference program FLAC3D was adopted in this study, the fluid model of
which was extended from saturated flow to saturated/unsaturated flow. A numerical
model was built to study the mechanism of soil failures induced by variation of water
level in the crack, using a proposed moving boundary algorithm. In the numerical
modeling, fluid-mechanical coupled analysis was conducted by solving Biot’s
consolidation equation, utilizing soil parameters obtained in the laboratory tests. The
proposed conceptual model in the field test was verified in the numerical analysis.
Subsequently, different draining rates of water in the crack were simulated to
investigate soil failures affected by the dropping of water level in the crack. Based on
the numerical analysis, the mechanism of sinkhole formation was discussed.
Finally, conclusions and recommendations for future research on loess landslides
induced by infiltration were made. It is hoped that the study on the mechanism of loess
landslides can provide a useful reference for the future research. / published_or_final_version / Civil Engineering / Doctoral / Doctor of Philosophy
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