A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Failure mode and pullout capacity of anchor piles in soils with cohesive and cohesionless properties
The present work develops a theoretical model based on a rational mechanical model and the failure mechanism of anchor piles in the seabed, by which the failure mode and pullout capacity of anchor piles under inclined loading can be predicted in the soils with both cohesive and cohesionless properties. Experimental and numerical results are employed to validate the theoretical predictions. Parametric studies are performed to investigate the effects of different parameters on the failure mode and pullout capacity of anchor piles, to demonstrate the applicability and efficiency of the theoretical model and to gain further knowledge of the anchor properties. An analytical method is also proposed to evaluate the optimal position of the attachment point of anchor piles, and confirmed by relevant studies in either cohesive or cohesionless soils.
A novel theoretical model is proposed to analyze the failure mode and pullout capacity of anchor piles.
The model is applied to inclined loading and to soils with both cohesive and cohesionless properties.
Efficiency and applicability of the model are validated through comparative and parametric studies.
A simple expression is proposed to predict the optimal position of the attachment point for anchor piles.
Failure mode and pullout capacity of anchor piles in soils with cohesive and cohesionless properties
The present work develops a theoretical model based on a rational mechanical model and the failure mechanism of anchor piles in the seabed, by which the failure mode and pullout capacity of anchor piles under inclined loading can be predicted in the soils with both cohesive and cohesionless properties. Experimental and numerical results are employed to validate the theoretical predictions. Parametric studies are performed to investigate the effects of different parameters on the failure mode and pullout capacity of anchor piles, to demonstrate the applicability and efficiency of the theoretical model and to gain further knowledge of the anchor properties. An analytical method is also proposed to evaluate the optimal position of the attachment point of anchor piles, and confirmed by relevant studies in either cohesive or cohesionless soils.
A novel theoretical model is proposed to analyze the failure mode and pullout capacity of anchor piles.
The model is applied to inclined loading and to soils with both cohesive and cohesionless properties.
Efficiency and applicability of the model are validated through comparative and parametric studies.
A simple expression is proposed to predict the optimal position of the attachment point for anchor piles.
Failure mode and pullout capacity of anchor piles in soils with cohesive and cohesionless properties
Peng, Jinsong (author) / Liu, Haixiao (author) / Zhao, Yanbing (author) / Liang, Ke (author)
Marine Georesources & Geotechnology ; 38 ; 1056-1069
2020-10-20
14 pages
Article (Journal)
Electronic Resource
English
Bearing capacity of piles in cohesionless soils
| Engineering Index Backfile | 1963
Pullout Response of the Pre-displacement Bladed Anchor in Cohesionless Soil
| Springer Verlag | 2024
Static pullout resistance of anchor chains in cohesionless soil-laboratory testing
| Online Contents | 2017
Pullout Response of the Pre-displacement Bladed Anchor in Cohesionless Soil
| Springer Verlag | 2024
Static pullout resistance of anchor chains in cohesionless soil—laboratory testing
| Online Contents | 2016