Exhumed Geogrid-Reinforced Retaining Wall
Publication: Journal of Geotechnical and Geoenvironmental Engineering
Volume 136, Issue 10
Abstract
An instrumented geogrid-reinforced wall constructed on a highly compressible foundation was deconstructed 16 months after its completion, providing a unique opportunity to exhume and examine the instrumented geogrids that were used to construct the wall. The objectives of this post mortem study were: (1) to inspect the condition of the strain gauges that were attached to the geogrid layers before construction and to verify the reliability of their output; (2) to develop a procedure in which the residual (plastic) strains along exhumed geogrid panels could be determined; and (3) to assess the in situ strain and force distribution along geogrid panels based on the measured residual strains from the exhumed geogrids. After exhumation, it was observed that many of the attached strain gauges failed due to full or partial debonding from the geogrid, thus rendering outputs which potentially underestimated the actual strain. Combining aperture measurements of virgin and exhumed geogrids, all from the same manufacturing lots, enabled the assessment of residual strains following stress relaxation. Laboratory simulation of loading and unloading, including creep and relaxation, yielded a relationship between the measured residual strains and the in situ strain and force distribution; i.e., the residual strain fingerprint provided insight into the behavior of the geogrids within the wall prior to its deconstruction. The mobilized maximum tensile strains in the geogrid panels along the height of the wall were roughly uniform, in the range . These findings imply that if the same type of reinforcement had been used throughout the height of the wall, the mobilized force along the height would have been relatively uniform. The back-calculated maximum force in the geogrids indicated that the factor of safety on the long-term strengths of the geogrids ranged from about 1.4 on the stronger/stiffer geogrid to about 1.8 on the weaker/softer geogrid.
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References
Berkheimer, S. A. (2007). “Instrumented geogrid-reinforced mechanically stabilized earth wall undergoing large settlement.” M.S. thesis, Univ. of Delaware, Newark, DE.
Fannin, R. J., and Herman, S. (1990). “Performance data for sloped reinforced soil wall.” Can. Geotech. J., 27(5), 676–686.
Hirakawa, D., Kongkitkul, W., Tatsuoka, F., and Uchimura, T. (2003). “Time dependent stress–strain behaviour due to viscous properties of geogrid reinforcement.” Geosynthet. Int., 10(6), 176–199.
Imamoglu, B. (2009). “Case history: Strain and force distribution in HDPE reinforced wall.” M.S. thesis, Univ. of Delaware, Newark, DE.
Leshchinsky, D. (2009). “On global equilibrium in design of geosynthetic reinforced walls.” J. Geotech. Geoenviron. Eng., 135(3), 309–315.
Leshchinsky, D. (2010). “Geosynthetic reinforced walls and slopes: Is it magic?.” Geosynthetics Mag., 28(3), 17–24.
Leshchinsky, D., Dechasakulsom, M., Kaliakin, V. N., and Ling, H. I. (1997). “Creep and stress relaxation of geogrids.” Geosynthet. Int., 4(5), 463–479.
Leshchinsky, D., and Fowler, J. (1990). “Laboratory measurement of load-elongation relationship of high-strength geotextiles.” Geotext. Geomembr., 9(2), 145–164.
Leshchinsky, D., Zhu, F., and Meehan, C. L. (2010). “Required unfactored strength of geosynthetic in reinforced earth structures.” J. Geotech. Geoenviron. Eng., 136(2), 281–289.
Soong, T. -Y., and Koerner, R. M. (1998). “Laboratory study of HDPE geomembrane waves.” Proc., 6th Int. Conf. on Geosynthetics, IFAI, Atlanta, 301–306.
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© 2010 ASCE.
History
Received: Nov 16, 2009
Accepted: Mar 10, 2010
Published online: Mar 16, 2010
Published in print: Oct 2010
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