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Undrained Strength Characterization of Compacted Earthen Embankment Core Material
B.F. Sisk Dam is a 116.4 meter high zoned embankment structure located near Los Banos, California on the west side of the Central Valley, and is currently the subject of two investigations - one studying potential remedial actions to decrease the risk associated with potential seismic activity in the region, and a second in support of feasibility level designs for increased water storage and embankment crest raise. The impervious core of the embankment is comprised of heavily compacted sandy lean clay. As part of the current investigations, several bore holes were drilled from the crest of the dam and intact samples of the core material were retrieved. A comprehensive laboratory testing program was undertaken including one-dimensional consolidation and Ko-consolidated undrained static triaxial shear testing. This paper presents the details of the testing program, depicts typical results, and discusses the proposed undrained strength definitions for stability modeling. Proposed undrained strength definitions for modeling used an undrained strength ratio for normally consolidated core materials and SHANSEP analysis for overconsolidated core materials. For very shallow embankment materials, the SHANSEP strength approach was modified to reflect lower strengths produced by the effective stress friction angle.
Undrained Strength Characterization of Compacted Earthen Embankment Core Material
B.F. Sisk Dam is a 116.4 meter high zoned embankment structure located near Los Banos, California on the west side of the Central Valley, and is currently the subject of two investigations - one studying potential remedial actions to decrease the risk associated with potential seismic activity in the region, and a second in support of feasibility level designs for increased water storage and embankment crest raise. The impervious core of the embankment is comprised of heavily compacted sandy lean clay. As part of the current investigations, several bore holes were drilled from the crest of the dam and intact samples of the core material were retrieved. A comprehensive laboratory testing program was undertaken including one-dimensional consolidation and Ko-consolidated undrained static triaxial shear testing. This paper presents the details of the testing program, depicts typical results, and discusses the proposed undrained strength definitions for stability modeling. Proposed undrained strength definitions for modeling used an undrained strength ratio for normally consolidated core materials and SHANSEP analysis for overconsolidated core materials. For very shallow embankment materials, the SHANSEP strength approach was modified to reflect lower strengths produced by the effective stress friction angle.
Undrained Strength Characterization of Compacted Earthen Embankment Core Material
Rinehart, Robert V. (author) / Bergstrom, Eric A. (author)
Geo-Chicago 2016 ; 2016 ; Chicago, Illinois
Geo-Chicago 2016 ; 326-335
2016-08-08
Conference paper
Electronic Resource
English
Undrained Strength Characterization of Compacted Earthen Embankment Core Material
| British Library Conference Proceedings | 2016
| Online Contents | 2011
| British Library Online Contents | 2011
Strength gain phenomenon in earthen embankment construction
| Engineering Index Backfile | 1967
Earthen embankment compaction tests
| Engineering Index Backfile | 1943