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Publication
Featured researches published by Gonzalo Castro.
Journal of Geotechnical and Geoenvironmental Engineering | 2013
Francke C. Walberg; Timothy D. Stark; Peter J. Nicholson; Gonzalo Castro; Peter M. Byrne; Paul J. Axtell; John C. Dillon; William B. Empson; Joseph E. Topi; David L. Mathews; Glen M. Bellew
AbstractThis paper discusses the seismic retrofit of Tuttle Creek Dam near Manhattan, Kansas, including investigations, seismic analyses, design, construction, and stabilization techniques used. Original plans called for stabilization of the upstream and downstream slopes and installation of an upstream cutoff wall to reduce underseepage. However, constructability and dam safety issues, along with the results of refined seismic deformation analyses, led to cancellation of the jet grouted upstream slope stabilization and cutoff wall. Downstream slope stabilization was to be accomplished by jet grouting or soil mixing, but ultimately was accomplished using a self-hardening cement-bentonite (C-B) slurry to construct transverse shear walls. A total of 351 transverse shear walls were constructed along the downstream toe by primarily clamshell equipment. Typical shear walls are 13.7 m long, 1.2 m wide, and extend 18.9 m deep or about 6.1 m into the coarse foundation sands. The walls are spaced at 4.3 m on cente...
2013 Congress on Stability and Performance of Slopes and Embankments III, Geo-Congress 2013 | 2013
Timothy D. Stark; Francke C. Walberg; Peter M. Byrne; Gonzalo Castro; Peter J. Nicholson; Paul J. Axtell; Michael H. Beaty; John C. Dillon; William B. Empson; Joseph E. Topi; David L. Mathews; Glen M. Bellew
This paper discusses the seismic retrofit of Tuttle Creek Dam near Manhattan, Kansas. Seismic analyses, construction, and stabilization techniques are presented. Constructability and dam safety issues, along with results of refined seismic deformation analyses, led to cancellation of the jet grouted upstream slope stabilization and cutoff wall. Downstream slope stabilization was to be accomplished by jet grouting or jet-assisted soil mixing, but ultimately was accomplished using self-hardening cement-bentonite slurry to construct transverse shear walls to reinforce the liquefiable foundation sands. A total of 351 transverse shear walls were constructed along the downstream toe by primarily clam shell equipment. Typical shear walls are 13.7 m long, 1.2 m wide, and extend 18.9 m deep or about 6.1 m into the foundation sands. The walls are spaced at 4.3m on center along the downstream toe for a replacement ratio of about 29%.
Journal of Geotechnical Engineering | 1985
Steve J. Poulos; Gonzalo Castro
Journal of Geotechnical and Geoenvironmental Engineering | 1977
Gonzalo Castro; Steve J. Poulos
Journal of Geotechnical and Geoenvironmental Engineering | 2000
Scott M. Olson; Timothy D. Stark; William H. Walton; Gonzalo Castro
Journal of Geotechnical Engineering | 1992
Gonzalo Castro; Raymond B. Seed; Thomas O. Keller; H. Bolton Seed
Journal of Geotechnical and Geoenvironmental Engineering | 1976
Gonzalo Castro; John T. Christian
Journal of Geotechnical Engineering | 1985
Gonzalo Castro; Steve J. Poulos; Francis D. Leathers
Canadian Geotechnical Journal | 2012
Timothy D. Stark; Michael H. Beaty; Peter M. Byrne; Gonzalo Castro; Francke C. Walberg; Vlad Perlea; Paul J. Axtell; John C. Dillon; William B. Empson; David L. Mathews
Soil Improvement: A Ten Year Update | 1987
Thomas O. Keller; Gonzalo Castro; Joseph H. Rogers
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