Effect of loading frequency and cyclic stress ratio on undrained cyclic behaviors of clay-structure interface with various overconsolidation ratios

The widely used suction caissons in offshore engineering are commonly subject to cyclic loads including the wind, wave, and current. For proper design and sustainable maintenance of the suction caisson foundations, it is essential to investigate the dynamic response of the clay-structure interface....

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Bibliographic Details
Published in:Soil dynamics and earthquake engineering (1984) 2024-08, Vol.183, p.108791, Article 108791
Main Authors: Liu, Shi-ao, Liao, Chencong, Lin, Wenxing, Chen, Jinjian, Xia, Xiaohe
Format: Article
Language:English
Subjects:
Clay-structure interface
Cyclic stress ratio
Interface pore pressure
Loading frequency
Overconsolidation ratio
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Summary:The widely used suction caissons in offshore engineering are commonly subject to cyclic loads including the wind, wave, and current. For proper design and sustainable maintenance of the suction caisson foundations, it is essential to investigate the dynamic response of the clay-structure interface. This research conducted a series of clay-structure interface cyclic shear tests under constant volume equivalent undrained state using a modified direct simple shear device to fully investigate the effects of cyclic stress ratio (CSR), loading frequency, and overconsolidation ratio (OCR) on the dynamic response of the interface. The interface shear strength, relative shear displacement, the number of cycles to failure (Nf), and interface pore water pressure were analyzed. Results show that the Nf is strongly affected by CSR and loading frequency. A model is proposed to describe the decrease in the Nf with increasing CSR under a given loading frequency and OCR. The Nf increases approximately linearly with loading frequency on a double-logarithmic scale. Additionally, the contour diagrams, defining the Nf as a function of interface average and cyclic shear stress under various OCRs, are proposed to predict the failure behaviors of clay-structure interface subjected to various loading combinations. Besides, the development models are established respectively to describe the evolutions of accumulated interface pore pressure (Uia) against the number of cycles (N) and cyclic relative shear displacement (Wcy), presenting better capability to describe the development of Uia. The findings in this study hold potential implications for determining whether the failure occurs under corresponding loading conditions and predicting interface pore pressure development. •Investigating the cyclic behaviors of clay-structure interface using direct simple shear device.•Evaluating the effects of loading frequency and cyclic stress ratio on the number of cycles to interface failure.•Considering the effect of overconsolidation ratio on interface pore pressure accumulation.•Proposing the accumulated interface pore pressure development models.
ISSN:0267-7261
1879-341X
DOI:10.1016/j.soildyn.2024.108791