Expected damage from displacement of slow-moving slides

Facilities such as buildings, highways, railways, bridges, dams and pipelines often are built on natural slopes where the risk of landslides is not low. The vulnerability of these facilities to slow-moving slides has sometimes been underestimated, although the velocity of some classes of slow slides...

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Veröffentlicht in:	Landslides 2011-03, Vol.8 (1), p.117-131
Hauptverfasser:	Mansour, Mohamed Farouk, Morgenstern, Norbert R, Martin, C. Derek
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Sprache:	eng
Schlagworte:	Agriculture Bridges (structures) Buildings Civil Engineering Damage damage description Dams Displacement Earth and Environmental Science Earth Sciences Environmental risk Geography Geotechnology Highways Houses landslide velocity landslide-induced damage Landslides Landslides & mudslides Movement Natural Hazards Natural slope Risk assessment Slope stability Slow-moving slides Technical Note Urban areas Velocity vulnerability to slides
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description	Facilities such as buildings, highways, railways, bridges, dams and pipelines often are built on natural slopes where the risk of landslides is not low. The vulnerability of these facilities to slow-moving slides has sometimes been underestimated, although the velocity of some classes of slow slides is uncontrollable. More than 50 cases of slow slides were compiled from the literature for this study. Some statistics about the movement trigger(s), the methods used to measure displacement, the material forming the rupture surface and the type of the vulnerable facilities are presented. It is shown that the expected degree of damage to urban settlements, highways, bridges and dams can be related to the slide velocity or accumulating displacement. Buildings and residential houses may tolerate higher slide velocities and total displacements than other facilities before experiencing serious damage. Movements as low as 100 mm may severely damage bridges, but such low rates may cause only moderate damage to urban communities. The relationship between movement and the expected extent of damage should be useful to geotechnical engineers who deal with different classes of slow slides and will help in the choice of appropriate mitigation measures based on preliminary estimates of movement rates.
doi_str_mv	10.1007/s10346-010-0227-7
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subjects	Agriculture Bridges (structures) Buildings Civil Engineering Damage damage description Dams Displacement Earth and Environmental Science Earth Sciences Environmental risk Geography Geotechnology Highways Houses landslide velocity landslide-induced damage Landslides Landslides & mudslides Movement Natural Hazards Natural slope Risk assessment Slope stability Slow-moving slides Technical Note Urban areas Velocity vulnerability to slides
title	Expected damage from displacement of slow-moving slides
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