Dynamic numerical investigation of a stepped-planar rockslide in the Central Andes, Chile

In this paper, static and dynamic analyses were performed considering the reconstituted geometry of a prehistoric 0.1 km2 rockslide with an exposed stepped-planar failure surface using a distinct element code (UDEC®). The rockslide occurred on the northern slope of the Cerro Catedral mount, located...

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Bibliographic Details
Published in:Engineering geology 2018-04, Vol.237, p.64-75
Main Authors: García, Manuel, Pastén, César, Sepúlveda, Sergio A., Montalva, Gonzalo A.
Format: Article
Language:English
Subjects:
Dynamic modelling
Earthquake
Earthquake-induced displacements
Rockslide
Topographic amplification
UDEC
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Summary:In this paper, static and dynamic analyses were performed considering the reconstituted geometry of a prehistoric 0.1 km2 rockslide with an exposed stepped-planar failure surface using a distinct element code (UDEC®). The rockslide occurred on the northern slope of the Cerro Catedral mount, located in the headers of the Maipo river drainage basin (Main range of the Andes Cordillera) at the latitude of the Santiago city, Chile, between the Late Pleistocene and the Holocene. The remaining failure surface consists of two distinct sliding planes dipping at an angle of ~37° and connected by a sub-vertical step. The original geometry of the rock slope was estimated from a terrestrial laser scan elevation model (LIDAR), the deposit that remained in the valley, and the hill surface topography. The laser scan of the sliding surfaces and Schmidt hammer field measurements allowed the estimation of the sliding surface mechanical properties, whereas laboratory test results were used to estimate the rock mass material properties. Results from 2D static numerical analyses indicate that the rock slope requires the presence of at least one rock bridge at the sliding surface connecting step in order to be statically stable. Furthermore, we studied the effect of different acceleration time histories recorded during shallow crustal earthquakes, compatible with the regional seismicity, in the rockslide response. The dynamic numerical analyses show that the input earthquake records induce a pronounce topographic amplification in the rock slope, that the rockslide displacement highly correlates with the Arias Intensity, the peak velocity, and the peak acceleration calculated in the rock slope center of gravity, and that the rockslide may have been triggered by horizontal accelerations larger than 0.6 g in the free field. Finally, the slope's response is evaluated under the coupled action of horizontal and vertical accelerations. •A prehistoric stepped-planar rockslide is analyzed with a 2D distinct element method.•The rock slope requires at least a rock bridge to be statically stable.•The rock slope with one rock bridge was tested considering 100 acceleration records.•The slope dynamic displacement correlates with the peak acceleration and velocity.•The rock slope failure may have been seismically triggered by cortical earthquakes.
ISSN:0013-7952
1872-6917
DOI:10.1016/j.enggeo.2018.02.001