DFI Journal - The Journal of the Deep Foundations Institute
Volume 4, Issue 1, April 2010
DOI: 10.1179/dfi.2010.005
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Peak and Post-Peak Shear Strength of Cement-Bentonite
Article Type: Research Paper
Axtell, P. J., Stark, T. D. & Dillon, J.
Abstract
Self-hardening cement-bentontie (c-b) slurry walls were constructed as shear walls to stabilize the downstream slope of Tuttle Creek Dam near Manhattan, Kansas. The slope stabilization was required to protect the existing pressure relief well system located at the downstream toe of the dam. The wells require protection from slope deformation induced by liquefaction of the foundation sands during or immediately after the design seismic event. The shear walls are transverse to the axis of the dam, unreinforced, and relatively brittle members that may be exposed to relatively large shear strains, and possible cracking, during or immediately after shaking. An extensive laboratory investigation was conducted on recovered core samples to optimize the mix design and stabilization scheme. Furthermore, as is the topic of this paper, a portion of the laboratory investigation was to determine the large-strain, or post-peak, shear strength of the c-b material for use in limit-equilibrium slope stability analyses and numerical deformation modeling to assess the magnitude of permanent deformation caused by the design earthquake. These data may be beneficial to other projects that are considering the use of unreinforced c-b slurry walls for seismic retrofit purposes.
Keywords:
cement bentonite, slurry wall, seismic retrofit, shear wall, R-bar triaxial compression test