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A platform for research: civil engineering, architecture and urbanism
Winkler model for dynamic response of composite caisson-piles foundations: Lateral response
Abstract As the first part of a sequence focusing on the dynamic response of composite caisson-piles foundations (CCPFs1 CCPF: composite caisson-piles foundation), this paper develops a simplified method for the lateral response of these foundations. A Winkler model for the lateral vibration of the CCPF is created by joining the two components, the caisson and the pile group, where the four-spring Winkler model is utilized for the caisson and axial–lateral coupled vibration equations are derived for the pile group. For determining the coefficients of the four-spring Winkler model for the caissons, embedded footing impedance is used and a modification on the rotational embedment factor is made for the sake of the geometrical difference between shallow footings and caissons. Comparisons against results from finite element simulations demonstrate the reliability of this modified four-spring Winkler model for caissons in both homogenous and layered soils. The proposed simplified method for the lateral vibration of CCPFs is verified also by 3D finite element modeling. Finally, through an example, the idea of adding piles beneath the caisson is proved to be of great significance to enhance the resistance of the foundation against lateral dynamic loads.
Highlights We create a simplified model for the lateral vibration of caisson-pile foundations. We check and modify the coefficients of the four-spring Winkler model for caissons. We derive equations for axial–lateral vibration of pile groups. The significance of adding piles beneath caissons is proved. The effect of the pile length is studied.
Winkler model for dynamic response of composite caisson-piles foundations: Lateral response
Abstract As the first part of a sequence focusing on the dynamic response of composite caisson-piles foundations (CCPFs1 CCPF: composite caisson-piles foundation), this paper develops a simplified method for the lateral response of these foundations. A Winkler model for the lateral vibration of the CCPF is created by joining the two components, the caisson and the pile group, where the four-spring Winkler model is utilized for the caisson and axial–lateral coupled vibration equations are derived for the pile group. For determining the coefficients of the four-spring Winkler model for the caissons, embedded footing impedance is used and a modification on the rotational embedment factor is made for the sake of the geometrical difference between shallow footings and caissons. Comparisons against results from finite element simulations demonstrate the reliability of this modified four-spring Winkler model for caissons in both homogenous and layered soils. The proposed simplified method for the lateral vibration of CCPFs is verified also by 3D finite element modeling. Finally, through an example, the idea of adding piles beneath the caisson is proved to be of great significance to enhance the resistance of the foundation against lateral dynamic loads.
Highlights We create a simplified model for the lateral vibration of caisson-pile foundations. We check and modify the coefficients of the four-spring Winkler model for caissons. We derive equations for axial–lateral vibration of pile groups. The significance of adding piles beneath caissons is proved. The effect of the pile length is studied.
Winkler model for dynamic response of composite caisson-piles foundations: Lateral response
Zhong, Rui (author) / Huang, Maosong (author)
Soil Dynamics and Earthquake Engineering ; 55 ; 182-194
2013-09-23
13 pages
Article (Journal)
Electronic Resource
English
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