Time-dependent shear deformation characteristics of sand and their constitutive modelling

DOI NDLデジタルコレクション Web Site Web Site Web Site 被引用文献47件 参考文献102件

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  • Time-Dependent Shear Deformation Characteristics of Geomaterials and Their Simulation.
  • Time-dependent deformation characteristics of geomaterials and their simulation

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The viscous aspects of the stress-strain behaviour of saturated and air-dried clean sands in drained plane strain com-pression (PSC) and saturated clean sand and soft clays in undrained triaxial compression (TC) are presented. Common as well as different viscous features among the different geomaterials are addressed. The general three-component model is used as the framework for constitutive modelling, in which the total strain rate ε is decomposed into elastic and irreversible components εe and εir while the stress σ is decomposed into inviscid (non-viscous) and viscous ompocnents σf and σv. In the simplest model (called the new isotach model) among those described in the paper, σf is a non-linear function of εir, while σv is a non-linear function of εir and always proportional to σf for primary loading. This model is relevant to kaolin for the full pre-peak range and a reconstituted low-plasticity clay (Fujinomori clay) at small strains, both in undrained TC. The model is modified to simulate the viscous effect that decays with εir, as observed with clean sands and a natural soft clay. It is shown that the second type of model (called the viscous evanescent model and the TESRA model) simulates well the above-mentioned behaviour, not only during primary loading, but also at unloaded conditions. The model is further modified to simulate the behaviour of Fujinomori clay whereby the rate at which the viscous effect decays gradually increases with εir (the general TESRA model). The viscous components σv of the three models can be represented by a set of common equations, and the other models are specifically simplified versions of the general TESRA model.

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