Energy-based assessment of cyclic liquefaction behavior of clean and silty sand under sustained initial stress conditions-Reference-Cited by-同舟云学术

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Energy-based assessment of cyclic liquefaction behavior of clean and silty sand under sustained initial stress conditions

Published:2023-01 Issue: Volume:164 Page:107609
ISSN:0267-7261
Container-title:Soil Dynamics and Earthquake Engineering
language:en
Short-container-title:Soil Dynamics and Earthquake Engineering

Author:

Zhou G.Y.,Pan K.^ORCID,Yang Z.X.

Funder

National Natural Science Foundation of China

Publisher

Elsevier BV

Subject

Soil Science,Geotechnical Engineering and Engineering Geology,Civil and Structural Engineering

Reference60 articles.

1. Influence of fines on the collapse of loose sands;Pitman;Can Geotech J,1994

2. Contribution of fines to the compressive strength of mixed soils;Ni;Geotechnique,2004

3. Pore pressure generation of silty sands due to induced cyclic shear strains;Hazirbaba;J. Geotech. Geoenviron. Eng. ASCE,2009

4. A simple critical state approach to predicting the cyclic and monotonic response of sands with different fines contents using the equivalent intergranular void ratio;Mohammadi;Acta Geotech.,2015

5. Comparison of cyclic liquefaction behavior of clean and silty sands considering static shear effect;Pan;Soil Dynam Earthq Eng,2020

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1. Characterizing the Liquefaction Potential and Pore Pressure Generation of Silty Sands through the Energy-Based Approach in the Framework of Critical State Soil Mechanics;Journal of Geotechnical and Geoenvironmental Engineering;2024-10

2. Experimental study on shear behavior of marine sands subjected to acidic conditions;Bulletin of Engineering Geology and the Environment;2024-08-27

3. Comparison of Fine-Grained Soil Liquefaction Using Numerical Modeling and Susceptibility Criteria: A Case Study;Geotechnical and Geological Engineering;2024-07-02

4. Assessment of undrained cyclic resistance of sand with non-plastic fines under sustained shear stress using a critical state interpretation;Bulletin of Engineering Geology and the Environment;2024-06-21

5. Prediction of Excess Pore Water Pressure Generation in Sand–Silt Mixtures During Cyclic Loading: A Dissipated Energy-Based Model;Geotechnical and Geological Engineering;2024-06-18

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