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Downhill progressive landslides in long natural slopes: triggering agents and landslide phases modeled with a finite difference method

S. Bernander ; Anders Kullingsjö (Institutionen för bygg- och miljöteknik, Geologi och geoteknik) ; A. S. Gylland ; P. E. Bengtsson ; S. Knutsson ; R. Pusch ; J. Olofsson ; L. Elfgren
Canadian geotechnical journal (0008-3674). Vol. 53 (2016), 10, p. 1565-1582.
[Artikel, refereegranskad vetenskaplig]

A large landslide in Tuve (Gothenburg, Sweden, 1977) initiated the development of a model for slope stability analysis taking the deformation-softening of soft sensitive clays into consideration. The model studies triggering agents and five phases in progressive slope failure are identified: (1) in situ, (2) disturbance, (3) unstable "dynamic", (4) transitory (or permanent) equilibrium, and (5) "global" failure. The clay resistance in these phases may differ widely; mostly due to different rates of loading. Two time-dependent failure criteria are defined: (i) the triggering load condition in the disturbance phase 2 and (ii) the transitory equilibrium in phase 4, indicating whether minor downhill displacements or a veritable landslide catastrophe will occur. The analysis explains why downhill landslides tend to spread over vast areas of almost horizontal ground further downslope. The model has been applied to landslides in Scandinavia and Canada. Three case studies are briefly discussed. The model is a finite difference approach, where local downhill deformations caused by normal forces is maintained compatible with deviatory shear deformations above - and, if relevant, below-the potential (or the established) failure surface. Software and an easy-to-use spreadsheet are introduced as well as recent developments.

Nyckelord: landslides in long natural slopes; progressive failure in different phases; triggering agents; effects of; failure; behavior; clays; Engineering; Geology



Denna post skapades 2016-11-16.
CPL Pubid: 245250

 

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Institutionen för bygg- och miljöteknik, Geologi och geoteknik

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Chalmers infrastruktur