4.7 Article

Failure processes in a full-scale landslide experiment using a rainfall simulator

Journal

LANDSLIDES
Volume 1, Issue 4, Pages 277-288

Publisher

SPRINGER HEIDELBERG
DOI: 10.1007/s10346-004-0034-0

Keywords

Model experiment; Rainfall-induced landslide; Failure process; Fluidization; Pore-water pressure

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A full-scale landslide experiment was conducted to clarify the failure process of a landslide triggered by rainfall, using a loose sandy soil. The experiment used a 23-m long and about 8-m high flume, consisting of three parts: an upper 30 degrees slope section, a lower 10 degrees slope section, and a horizontal section at the foot of the slope. The flume was sprinkled at a constant intensity of 100 mm/h. The landslide occurred first in the upper slope about 154 min after the sprinkling started, following a creep movement within 41 min. The sliding mass slid to a stop in about 5 s, compressing soils in the lower gentle slope and horizontal sections. The dynamic process related to slide movement and the fluctuation of subsurface water pressures during failure were measured and analyzed. Sequential visual observations provided a clear record of the slip surface during failure. The rapid increase of subsurface water pressure in the slope and horizontal soil layers was also recorded during failure. It was inferred that the increased water pressures in the upper slope resulted from collapse of loose soil structure during shearing in the translational slide, whereas those in the lower portion of the slope and horizontal sections resulted from a mix of soil compression and shearing by the sliding mass.

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