Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
A constitutive model for geosynthetic interfaces considering nonlinear softening behavior
Abstract Geosynthetic interfaces within composite liner systems usually play an important role in failure events of landfills and should be well considered in stability assessment. A constitutive model based on the disturbed state concept is proposed to describe the shear behavior of geosynthetic interfaces under both static and dynamic conditions. The interface behavior is assumed to be governed by two states, i.e. the intact state and the fully disturbed state. The intact state is described with a bounding surface model with vanishing elastic range which has the advantages of a concise mapping rule and fewer parameters, and the fully disturbed state is characterized by a nonlinear strength envelope. The two states share the same normal stress, but the macro shear stress of the geosynthetic interface is the coupling result of the two states through a disturbance function related to accumulative plastic shear displacement. The model performs well in describing the monotonic shear behavior of typical geosynthetic interfaces for different drainage conditions and stress paths. Furthermore, a series of cyclic shear tests and shaking table tests on typical geosynthetic interfaces are also modeled, and the results indicate that the dynamic response and softening behavior can be well described with this model.
A constitutive model for geosynthetic interfaces considering nonlinear softening behavior
Abstract Geosynthetic interfaces within composite liner systems usually play an important role in failure events of landfills and should be well considered in stability assessment. A constitutive model based on the disturbed state concept is proposed to describe the shear behavior of geosynthetic interfaces under both static and dynamic conditions. The interface behavior is assumed to be governed by two states, i.e. the intact state and the fully disturbed state. The intact state is described with a bounding surface model with vanishing elastic range which has the advantages of a concise mapping rule and fewer parameters, and the fully disturbed state is characterized by a nonlinear strength envelope. The two states share the same normal stress, but the macro shear stress of the geosynthetic interface is the coupling result of the two states through a disturbance function related to accumulative plastic shear displacement. The model performs well in describing the monotonic shear behavior of typical geosynthetic interfaces for different drainage conditions and stress paths. Furthermore, a series of cyclic shear tests and shaking table tests on typical geosynthetic interfaces are also modeled, and the results indicate that the dynamic response and softening behavior can be well described with this model.
A constitutive model for geosynthetic interfaces considering nonlinear softening behavior
Chang, Ji-Yun (Autor:in) / Feng, Shi-Jin (Autor:in)
01.01.2022
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Constitutive Behavior of Geosynthetic Interfaces
| British Library Online Contents | 2001
Constitutive Behavior of Geosynthetic Interfaces
| Online Contents | 2001
Strain Softening Constitutive Model for the Internal Shear Behavior of a Geosynthetic Clay Liner
| British Library Conference Proceedings | 2013
DSC-based constitutive model for sand-geosynthetic interfaces
| British Library Conference Proceedings | 1997