Guangsi Chen scite author profile

A composite bucket shallow foundation (CBSF) has been proposed by Tianjin University to adapt the offshore soft geological conditions of China for wind turbines. Vertical bearing capacity modelling and observation tests regarding the CBSF are performed. The test results are accompanied by numerical simulations to provide a better understanding of the failure mechanism of the CBSF. The upper limit of the vertical bearing capacity of the bucket foundation is derived through the upper bound theorem of classical plasticity theory according to the failure mechanism. The soil damage rate is specified as a new empirical parameter in the formula and is defined as the rate between the thickness of the soil that is broken inside the foundation and the radius of the foundation, which indicates the range of soil failure. Furthermore, the range of the soil damage rate is obtained through vertical bearing capacity model tests. The relationship of the bearing capacity factor N q and N c with the friction angle is also discussed under the specific soil damage rates. V C 2015 AIP Publishing LLC. [http://dx.

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Upper bound solutions of vertical bearing capacity of skirted mudmat in sand

Chen

2018

Applied Ocean Research

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An optimised failure envelope approach of bucket foundation in undrained clay

Wang

Yang

Chen

2020

Ships and Offshore Structures

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Lateral bearing capacity and calculation method of pile-bucket foundation in clay for offshore wind turbines

2023

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Guangsi Chen

Finite element analyses of improved lateral performance of monopile when combined with bucket foundation for offshore wind turbines

Vertical bearing behaviour of the composite bucket shallow foundation of offshore wind turbines

Upper bound solutions of vertical bearing capacity of skirted mudmat in sand

An optimised failure envelope approach of bucket foundation in undrained clay

Lateral bearing capacity and calculation method of pile-bucket foundation in clay for offshore wind turbines

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