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A modification to dense sand dynamic simulation capability of Pastor–Zienkiewicz–Chan model
Abstract A modification to the nonlinear Pastor–Zienkiewicz–Chan (PZC) constitutive model without any change in the number of model parameters is introduced in order to simulate stiffness degradation of dense sands at dynamic loading. The PZC model is based on generalized plasticity and was verified by good prediction of liquefaction and undrained behavior of saturated sand. The PZC is a robust model that can predict drained dynamic behavior of sands, especially stiffness increase in loose sand at reloading of dynamic loading. Yet, this model does not show stiffness degradation of dense sand at reloading. The modification is made through modifying the stress memory factor, H DM, which is multiplied by the plastic modulus, H L. This modification does not influence reloading behavior of loose sand. The modified PZC model is verified via results of drained cyclic tests. Two cyclic triaxial tests on loose and dense specimens, along with two cyclic plane strain tests on dense sand are utilized for validation. The model simulation shows that the modified PZC model is able to predict the stiffness degradation of dense sand at reloading well.
A modification to dense sand dynamic simulation capability of Pastor–Zienkiewicz–Chan model
Abstract A modification to the nonlinear Pastor–Zienkiewicz–Chan (PZC) constitutive model without any change in the number of model parameters is introduced in order to simulate stiffness degradation of dense sands at dynamic loading. The PZC model is based on generalized plasticity and was verified by good prediction of liquefaction and undrained behavior of saturated sand. The PZC is a robust model that can predict drained dynamic behavior of sands, especially stiffness increase in loose sand at reloading of dynamic loading. Yet, this model does not show stiffness degradation of dense sand at reloading. The modification is made through modifying the stress memory factor, H DM, which is multiplied by the plastic modulus, H L. This modification does not influence reloading behavior of loose sand. The modified PZC model is verified via results of drained cyclic tests. Two cyclic triaxial tests on loose and dense specimens, along with two cyclic plane strain tests on dense sand are utilized for validation. The model simulation shows that the modified PZC model is able to predict the stiffness degradation of dense sand at reloading well.
A modification to dense sand dynamic simulation capability of Pastor–Zienkiewicz–Chan model
Iraji, Amin (Autor:in) / Farzaneh, Orang (Autor:in) / Hosseininia, Ehsan Seyedi (Autor:in)
Acta Geotechnica ; 9 ; 343-353
14.12.2013
11 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Constitutive model , Dense sand , Dynamic simulation , Reloading , Stress memory factor Engineering , Geoengineering, Foundations, Hydraulics , Continuum Mechanics and Mechanics of Materials , Geotechnical Engineering & Applied Earth Sciences , Soil Science & Conservation , Soft and Granular Matter, Complex Fluids and Microfluidics , Structural Mechanics
A modification to dense sand dynamic simulation capability of Pastor–Zienkiewicz–Chan model
| Online Contents | 2013
A modification to dense sand dynamic simulation capability of Pastor–Zienkiewicz–Chan model
| British Library Online Contents | 2014