Simulation of cyclic strength degradation of natural clays via bounding surface model with hybrid flow rule |
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| Authors: | Z Shi G Buscarnera R J Finno |
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| Institution: | Department of Civil and Environmental Engineering, Northwestern University, Evanston, U.S.A. |
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| Abstract: | Strength loss of natural clays subjected to seismic loading is a critical factor contributing to earthquake‐induced ground failure and associated hazards. This work proposes a bounding surface constitutive law to simulate cyclic strength degradation of natural clays resulting from the loss of structure and attendant accumulation of excess pore pressures. The proposed model employs an enhanced plastic flow rule that can simulate accurately the development of pore pressure and explicitly incorporates soil structure effects. The validation of the model with reference to the experimental evidence available for 3 structured clays shows that with a single set of parameters the proposed model can reasonably represent the mechanical behavior of natural clays under various loading conditions (1D compression, monotonic shearing in compression and extension, cyclic loading, and postcyclic shearing). Particularly, its satisfactory performance in terms of quantification of cyclic strength degradation encourages the use of the model in simulating boundary value problems related to the stability of geotechnical facilities under earthquakes. |
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| Keywords: | constitutive relations cyclic strength degradation natural clays plastic flow rule |
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