Modelling of suction bucket foundation in ...
Document type :
Compte-rendu et recension critique d'ouvrage
Title :
Modelling of suction bucket foundation in clay: From finite element analyses to macro-elements
Author(s) :
Yin, Zhen-Yu [Auteur]
Department of Civil and Environmental Engineering [Hong Kong] [CEE]
Teng, Jing-Cheng [Auteur]
Department of Civil and Environmental Engineering [Hong Kong] [CEE]
Li, Zheng [Auteur]
Géomatériaux et Modèles Géotechniques [IFSTTAR/GERS/GMG]
Zheng, Yuan-Yuan [Auteur]
Laboratoire de Génie Civil et Géo-Environnement (LGCgE) - ULR 4515 [LGCgE]
Department of Civil and Environmental Engineering [Hong Kong] [CEE]
Teng, Jing-Cheng [Auteur]
Department of Civil and Environmental Engineering [Hong Kong] [CEE]
Li, Zheng [Auteur]
Géomatériaux et Modèles Géotechniques [IFSTTAR/GERS/GMG]
Zheng, Yuan-Yuan [Auteur]
Laboratoire de Génie Civil et Géo-Environnement (LGCgE) - ULR 4515 [LGCgE]
Journal title :
Acta Cirurgica Brasileira
Pages :
15p.
Publisher :
Sociedade Brasileira para o Desenvolvimento da Pesquisa em Cirurgia
Publication date :
2020-01-01
ISSN :
0102-8650
Keyword(s) :
ARGILE
CHARGEMENT CYCLIQUE
METHODE DES ELEMENTS FINIS
MODELISATION
CHARGEMENT CYCLIQUE
METHODE DES ELEMENTS FINIS
MODELISATION
English keyword(s) :
SUCTION BUCKET FOUNDATION
FAILURE ENVELOPE
CLAY
FINITE ELEMENT METHOD
CYCLIC LOADING
MACRO-ELEMENT
FAILURE ENVELOPE
CLAY
FINITE ELEMENT METHOD
CYCLIC LOADING
MACRO-ELEMENT
HAL domain(s) :
Sciences de l'ingénieur [physics]/Génie civil
French abstract :
This study aims at modelling the suction bucket foundation in clay from full finite element analyses to simplified macro-element. To ensure the reliability of finite element simulation results as much as possible, two ...
Show more >This study aims at modelling the suction bucket foundation in clay from full finite element analyses to simplified macro-element. To ensure the reliability of finite element simulation results as much as possible, two well-known constitutive models, the Modified Cam-Clay model (MCC) and the Hardening Soil model (HS), are adopted respectively for the foundation soil which is normally consolidated clay with parameters directly determined from laboratory tests instead of inverse analysis or fitting using simple models in previous studies. The finite element analyses using both models are validated by comparing centrifugal tests and further extended to study the failure patterns in V-H-M (Vertical force-Horizontal force-Moment) space through radial displacement tests. Based on all results, two new alternative analytical formulations based on both models are then proposed to describe the three-dimensional (3D) failure envelope in V-H-M space. Finally, two new alternative macro-element design models of suction bucket foundation in clay under the same framework of hypoplasticity for both monotonic and cyclic loading conditions are proposed. By comparing with experimental results, the effectiveness and efficiency of both macro-element models are verified applicable and the one based on HS has slightly better performance than the one of MCC.Show less >
Show more >This study aims at modelling the suction bucket foundation in clay from full finite element analyses to simplified macro-element. To ensure the reliability of finite element simulation results as much as possible, two well-known constitutive models, the Modified Cam-Clay model (MCC) and the Hardening Soil model (HS), are adopted respectively for the foundation soil which is normally consolidated clay with parameters directly determined from laboratory tests instead of inverse analysis or fitting using simple models in previous studies. The finite element analyses using both models are validated by comparing centrifugal tests and further extended to study the failure patterns in V-H-M (Vertical force-Horizontal force-Moment) space through radial displacement tests. Based on all results, two new alternative analytical formulations based on both models are then proposed to describe the three-dimensional (3D) failure envelope in V-H-M space. Finally, two new alternative macro-element design models of suction bucket foundation in clay under the same framework of hypoplasticity for both monotonic and cyclic loading conditions are proposed. By comparing with experimental results, the effectiveness and efficiency of both macro-element models are verified applicable and the one based on HS has slightly better performance than the one of MCC.Show less >
Language :
Anglais
Popular science :
Non
Source :
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