Abstract
Landslides induced by engineering construction are very common in reality; it is necessary to clarify the causes of landslide failure to avoid similar accidents. A landslide induced by highway construction is taken as a case. Field observations, data collection, and analyses were used to investigate the deformation and causes of the landslide. The failed slope is mostly comprised of gravel soil, there were some shear cracks on both sides of the slope before sliding, and most tensile cracks were connected with shear cracks after sliding. The cut slope of this highway was designed to be protected by prestressed anchor sheet piles. However, in the construction process, the slope in front of the antipiles was removed when the piles were constructed without any anchor cables, which led to the shear damage of a row of anti-slide piles with a 15-meter-long cantilever. Moreover, continuous rainfall over several days aggravated the landslide damage because of increase of the self-weight and degradation of the mechanical parameters of the slope materials. The mechanical and simulation analyses both show that the resistance provided by the cantilever piles was not enough to prevent the force behind the piles. The irrational construction process and rainfall caused the slope failure.
Highlights
The irrational construction process in the slope can lead to the deformation or even the destruction of nearby buildings or main works, threatening human safety
Some findings are obtained as the follows: (1) The main reasons of the cut slope failure are the irrational construction process and rainfall
The irrational construction process removed the geological body in front of the anti-slide piles before the anchors were loaded
Summary
The irrational construction process in the slope can lead to the deformation or even the destruction of nearby buildings or main works, threatening human safety. A series of external factors including earthquake, rainfall, ice and snow melt, and artificial disturbances can induce the deformation of slopes and form landslides [1,2,3,4,5]. Chen and Cui [11] suggested that the inducing factor of the Wulipo landslide is hydrostatic and hydrodynamic pressure change caused by heavy continuous rainfall. Chatra et al [12] carried out the numerical simulation method to study the effects of rainfall intensity and duration on pore pressure generation, saturation, slope stability, and shear strain increment. The failure mode and stability analysis of the cut slope are studied as the other problem. A landslide, induced by the irrational construction process of a cut slope and continuous rainfall, was analyzed from the deformation characteristics, influencing factors, to mechanical and numerical calculations
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