Progressive failures in eastern Canadian and Scandinavian sensitive clays-Reference-Cited by-同舟云学术

Progressive failures in eastern Canadian and Scandinavian sensitive clays

Published:2011-11 Issue:11 Volume:48 Page:1696-1712
ISSN:0008-3674
Container-title:Canadian Geotechnical Journal
language:en
Short-container-title:Can. Geotech. J.

Author:

Locat Ariane¹,Leroueil Serge²,Bernander Stig³,Demers Denis⁴,Jostad Hans Petter⁵,Ouehb Lyes⁶

Affiliation:

1. Département de génie civil, Université Laval, Pavillon Adrien-Pouliot, 1065 av. de la Médecine, Québec, QC G1V 0A6, Canada.

2. Département de génie civil, Université Laval, Pavillon Adrien-Pouliot, Local 2906, 1065 av. de la Médecine, Québec, QC G1V 0A6, Canada.

3. Department of Civil, Mining and Environmental Engineering, Luleå Technical University, Tegelformsgatan 10, S-431 36 Möndal, Sweden.

4. Section Mouvements de Terrain, Service de la géotechnique et de la géologie, Ministère des Transports du Québec, 930 Ch. Sainte-Foy, 2e étage, Québec, QC G1S 4X9, Canada.

5. Norwegian Geotechnical Institute, P.O. Box. 3930 Ullevål Stadion, N-0806, Olso, Norway.

6. LVM - Technisol / Dessau, 1200 blv. St-Martin Ouest, Bureau 300, Laval, QC H7S 2E4, Canada.

Abstract

Observations from past events are used to show that the concept of progressive failure may explain translational progressive landslides and spreads — large landslides occurring in sensitive clays. During progressive failure, the strain-softening behaviour of the soil causes unstable forces to propagate a failure surface further in the slope. Translational progressive landslides generally take place in long, gently inclined slopes. Instability in a steeper upslope area is followed by redistribution of stress, which increases earth pressure further downslope. Passive failure may therefore occur in less-inclined ground, heaving the soil. Spreads are usually trigged by erosion of a deposit having a higher angle near the toe. Instability starts near the toe of the slope and propagates into the deposit, reducing earth pressure. This may lead to the formation of an active failure with dislocation of the deposit into horsts and grabens. The failure mechanism of both types of landslides is controlled by the stresses in the slope and the stress–strain behaviour of the soil. The mechanism presented explains the sensitivity of a slope to minor disturbances and the resulting high retrogressions observed for such landslides in Scandinavia and eastern Canada.

Publisher

Canadian Science Publishing

Subject

Civil and Structural Engineering,Geotechnical Engineering and Engineering Geology

Link

http://www.nrcresearchpress.com/doi/pdf/10.1139/t11-059

Reference33 articles.

1. Aas, G. 1983. A method of stability analyses applicable to natural slopes in sensitive and quick clays. Swedish Geotechnical Institute, Linköping, Sweden. Report 17.

2. Bernander, S. 2000. Progressive landslides in long natural slopes, formation, potential extension and configuration of finished slides in strain-softening soils. Licentiate thesis, Department of Civil and Mining Engineering, Luleå University of Technology, Luleå, Sweden.

3. Bernander, S. 2008. Down-hill progressive landslides in soft clays, triggering disturbance agents, slide propagation over horizontal or gently sloping ground, sensitivity related to geometry. Department of Civil and Mining Engineering, Luleå University of Technology, Luleå, Sweden. Research report.

4. Bernander, S., and Olofsson, I. 1981b. The landslide at Tuve in November 1977. Department of Civil and Mining Engineering, Luleå University of Technology, Luleå, Sweden. Technical report.

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