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Over the past thirty years, the liquefaction of sand containing a small amount of fine particles has become an engaging topic in the geotechnical community. Indeed, a great variety of field investigations revealed that the real liquefied soils are mainly composed of a host sand matrix and a small fraction of plastic or non-plastic fines. In this context, several series of monotonic and cyclic triaxial tests were performed to clarify the influence of these fine particles on the development of sand liquefaction. To get closer to in situ conditions, 1g shaking table tests were carried out with…mehr

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Produktbeschreibung
Over the past thirty years, the liquefaction of sand containing a small amount of fine particles has become an engaging topic in the geotechnical community. Indeed, a great variety of field investigations revealed that the real liquefied soils are mainly composed of a host sand matrix and a small fraction of plastic or non-plastic fines. In this context, several series of monotonic and cyclic triaxial tests were performed to clarify the influence of these fine particles on the development of sand liquefaction. To get closer to in situ conditions, 1g shaking table tests were carried out with two different-sized model soil containers. The first one, small size, was essentially used to check the reconstitution and the saturation method. The second one, very large size, was manufactured to explore the sand liquefaction behaviour during base shaking in an almost actual engineering size. To numerically reproduce the sand liquefaction behaviour, the Dafalias model has been taken as an exampleand its input parameters were calibrated by an artificial intelligence method. An in-depth analysis of the proposed method was done with the elastoplastic theory.

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Autorenporträt
Zhehao Zhu was born in Shanghai, China, in 1993. He obtained his double B.Sc. from Hohai University (China) and Université de Lille (France) in 2017, and his M.Sc. degree in mechanics of soils, rocks and structures in their environment from École des Ponts ParisTech (France) in 2018. In the fall of the same year, he started working on the topics of soil liquefaction and shaking table tests at École des Ponts ParisTech (ENPC) and Commissariat à l'énergie atomique et aux énergies alternatives (CEA). In June 2022, he received his Ph.D. degree and the "2021 Chinese Government Award for Outstanding Self-financed Students Abroad".