Instrumentation was used to measure soil temperature and, independently, the force and strain in a steep geogrid-reinforced soil slope. The monitoring period extends to 10 years after construction. A nonlinear increase of force occurs with time that is described by a hyperbolic representation. The elapsed time to achieve force equilibrium was approximately 2.5 × 104 hours (approximately three years). The time-dependent increase of reinforcement force is attributed to deformation of the structure resulting from creep of the backfill sand. Strain in the reinforcement exhibits a complex variation with time. The long-term variation of strain is attributed primarily to: (i) the nonlinear increase of force; and (ii) creep of the geogrid reinforcement. Seasonal temperature fluctuations in the backfill sand may induce additional variations in strain.
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Technical Paper|
January 01 2001
Long-Term Variations of Force and Strain in a Steep Geogrid-Reinforced Soil Slope Available to Purchase
R.J. Fannin
R.J. Fannin
Associate Professor
Department of Civil Engineering, also Forest Resources Management, University of British Columbia, 2324 Main Mall, Vancouver, British Columbia, V6T 1Z4, Canada, Telephone: 1/604-822-3557, Telefax: 1/604-822-6901, E-mail: fannin@civil.ubc.ca
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Publisher: Emerald Publishing
Received:
August 26 1999
Revision Received:
May 22 2000
Accepted:
July 18 2000
Online ISSN: 1751-7613
Print ISSN: 1072-6349
Industrial Fabrics Association International, 1801 County Road B West, Roseville, Minnesota 55113-4061, USA, Telephone: 1/612-222-2508, Telefax: 1/612-631-9334
2001
Geosynthetics International (2001) 8 (1): 81–96.
Article history
Received:
August 26 1999
Revision Received:
May 22 2000
Accepted:
July 18 2000
Citation
Fannin R (2001), "Long-Term Variations of Force and Strain in a Steep Geogrid-Reinforced Soil Slope". Geosynthetics International, Vol. 8 No. 1 pp. 81–96, doi: https://doi.org/10.1680/gein.8.0187
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