I. A. Cueto scite author profile

Recent failures of upstream-raised tailings storage facilities (TSF) raised concerns on the future use of these dams. While being cost-effective, they entail higher risks than conventional dams, as stability largely relies on the strength of tailings, which are loose and normally-consolidated materials that may exhibit strain-softening during undrained loading. Current design practice involves limit equilibrium analyses adopting a fully-softened shear strength; while being conservative, this practice neglects the work input required to start the softening process that leads to progressive failure. This paper describes the calibration and application of the NGI-ADPSoft constitutive model to evaluate the potential of static liquefaction of an upstream-raised TSF and provides an indirect measure of resilience. The constitutive model incorporates undrained shear strength anisotropy and a mesh-independent anisotropic post-peak strain softening. The calibration is performed using laboratory testing, including anisotropically-consolidated triaxial compression tests and direct simple shear tests. The peak and residual undrained shear strengths are validated by statistical interpretation of the available CPTu data. It is shown that this numerical exercise is useful to verify the robustness of the TSF design.

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I. A. Cueto

A simplified procedure to numerically evaluate triggering of static liquefaction in upstream-raised tailings storage facilities

Screening of seismic records to perform time-history dynamic analyses of tailings dams: A power-spectral based approach

Stability assessment of a tailings storage facility using a non-local constitutive model accounting for anisotropic strain-softening

Stability Assessment of a Tailings Storage Facility Using a Non-local Constitutive Model Accounting for Anisotropic Strain-Softening

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