Abstract
This study investigates the bearing behavior of a pile-bucket composite foundation in marine soft clay under combined vertical, horizontal, and moment (V-H-M) loading, with direct application to offshore photovoltaic systems deployed in shallow-water regions. Centrifuge tests and validated 3D finite element analyses employing the Nanshui constitutive model were conducted. The results indicate that the pile-bucket foundation exhibits a hybrid deformation mode, effectively integrating the deep rotational restraint of the pile with the shallow translational constraint of the bucket. Under combined V-H-M loading, the composite foundation demonstrates a significantly expanded failure envelope. Notably, the vertical load enhances the lateral capacity to a greater extent in the composite system compared to monopile or suction caisson foundations. Plastic strain analysis reveals a synergistic interaction, where the pile extends the plastic zone deeper while the bucket mobilizes a broader near-surface soil mass, leading to a more distributed and efficient load-transfer mechanism. The findings provide critical insights for the optimized design of innovative pile-bucket hybrid foundations in soft clay for offshore photovoltaic arrays.
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Funding
This study was funded by the National Natural Science Foundation of China (52501347 and 52401336) and Basic Research Program of Jiangsu (BK20250285) and China Postdoctoral Science Foundation (2025M773225) and Central Public-Interest Scientific Institution Basal Research Fund (Yj326005).
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Yu, G., Fan, K., Gao, C. et al. Bearing mechanism of innovative pile-bucket foundations for offshore photovoltaic systems in soft clay under combined loading. Sci Rep (2026). https://doi.org/10.1038/s41598-026-53057-7
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DOI: https://doi.org/10.1038/s41598-026-53057-7
