Progressive failure and shear band development within model-scale reinforced soil walls subject to seismic shaking-Reference-Cited by-同舟云学术

Progressive failure and shear band development within model-scale reinforced soil walls subject to seismic shaking

Published:2011-09 Issue:3 Volume:1 Page:53-57
ISSN:2045-2543
Container-title:Géotechnique Letters
language:en
Short-container-title:Géotechnique Letters

Author:

BOWMAN E. T.¹,JACKSON P.²,CUBRINOVSKI M.¹,FANNIN R. J.³

Affiliation:

1. Department of Civil and Natural Resources Engineering, University of Canterbury, Christchurch, New Zealand

2. Arup, Melbourne, Australia

3. Civil and Mechanical Engineering Building, University of British Columbia, Vancouver, Canada

Abstract

This paper discusses the results of an experimental study on model geosynthetic-reinforced soil (GRS) walls constructed with full-height rigid (FHR) facing. Ground accelerations, external deformations and localised strain fields were tracked, while stepped-amplitude sinusoidal seismic shaking events were applied via a shake table. The results of one of seven shake table tests are presented here, with a focus on the evolution of the pre-failure deformation of the wall at the end of the reinforced zone. This study shows that the deformation of ductile GRS walls with FHR facing subjected to seismic shaking is a progressive process of shear band development with depth as the wall rotates and, ultimately, translates towards failure.

Publisher

Thomas Telford Ltd.

Subject

Earth and Planetary Sciences (miscellaneous),Geotechnical Engineering and Engineering Geology

Link

https://www.icevirtuallibrary.com/doi/pdf/10.1680/geolett.11.00030

Reference12 articles.

1. Influence of reinforcement parameters on the seismic response of reduced-scale reinforced soil retaining walls

2. Similitude for Shaking Table Tests on Soil-Structure-Fluid Model in 1g Gravitational Field

3. Observations of Stresses and Strains in a Granular Material

4. Post-earthquake investigation on several geosynthetic-reinforced soil retaining walls and slopes during the Ji-Ji earthquake of Taiwan

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