Finite Element Analysis of Laterally Loaded Piles in Clays

Fath Elrahman E. Nur Eldayem; Yahia E.A. Mohamedzein

doi:10.1061/9780784480021.023

Finite Element Analysis of Laterally Loaded Piles in Clays

Fath Elrahman E. Nur Eldayem, Yahia E.A. Mohamedzein

Civil and Architectural Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

2 Citations (Scopus)

Abstract

This study presents a finite element model for analysis of laterally loaded piles in medium stiff clay using ABAQUS program. Three dimensional (3-D) continuum elements are used for both pile and soil elements. The interaction between the pile and the soil is modelled by using contact surfaces. Frictional behavior between the pile and the soil is considered in order to model the gap formation and sliding behavior between the pile and the soil. The response of the pile is presented in terms of the head deflection of the pile, bending moments, shear forces, deflections along the length of the pile, the gap formation between the pile and the soil, the p-y curves and the stress and displacement distribution within the pile-soil system. The study showed that the ultimate lateral pile capacity increases with the increase in soil shear strength, the L/d ratio and the pile diameter. For the cases considered, the maximum bending moment occurs at a depth of 0.12L to 0.18L.

Original language	English
Title of host publication	Geotechnical Special Publication
Editors	Behzad Fatahi, Tamer Sorour, Zhen Leng
Publisher	American Society of Civil Engineers (ASCE)
Pages	175-182
Number of pages	8
Edition	259 GSP
ISBN (Electronic)	9780784480021
DOIs	https://doi.org/10.1061/9780784480021.023
Publication status	Published - 2016
Event	4th Geo-China International Conference: Behavior of Geomaterials and Foundations for Civil Infrastructure Applications, Geo-China 2016 - Shandong, China Duration: Jul 25 2016 → Jul 27 2016

Publication series

Name	Geotechnical Special Publication
Number	259 GSP
Volume	2016-January
ISSN (Print)	0895-0563

Conference

Conference	4th Geo-China International Conference: Behavior of Geomaterials and Foundations for Civil Infrastructure Applications, Geo-China 2016
Country/Territory	China
City	Shandong
Period	7/25/16 → 7/27/16

ASJC Scopus subject areas

Civil and Structural Engineering
Architecture
Building and Construction
Geotechnical Engineering and Engineering Geology

Access to Document

10.1061/9780784480021.023

Cite this

Nur Eldayem, F. E. E., & Mohamedzein, Y. E. A. (2016). Finite Element Analysis of Laterally Loaded Piles in Clays. In B. Fatahi, T. Sorour, & Z. Leng (Eds.), Geotechnical Special Publication (259 GSP ed., pp. 175-182). (Geotechnical Special Publication; Vol. 2016-January, No. 259 GSP). American Society of Civil Engineers (ASCE). https://doi.org/10.1061/9780784480021.023

Finite Element Analysis of Laterally Loaded Piles in Clays. / Nur Eldayem, Fath Elrahman E.; Mohamedzein, Yahia E.A.
Geotechnical Special Publication. ed. / Behzad Fatahi; Tamer Sorour; Zhen Leng. 259 GSP. ed. American Society of Civil Engineers (ASCE), 2016. p. 175-182 (Geotechnical Special Publication; Vol. 2016-January, No. 259 GSP).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Nur Eldayem, FEE & Mohamedzein, YEA 2016, Finite Element Analysis of Laterally Loaded Piles in Clays. in B Fatahi, T Sorour & Z Leng (eds), Geotechnical Special Publication. 259 GSP edn, Geotechnical Special Publication, no. 259 GSP, vol. 2016-January, American Society of Civil Engineers (ASCE), pp. 175-182, 4th Geo-China International Conference: Behavior of Geomaterials and Foundations for Civil Infrastructure Applications, Geo-China 2016, Shandong, China, 7/25/16. https://doi.org/10.1061/9780784480021.023

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abstract = "This study presents a finite element model for analysis of laterally loaded piles in medium stiff clay using ABAQUS program. Three dimensional (3-D) continuum elements are used for both pile and soil elements. The interaction between the pile and the soil is modelled by using contact surfaces. Frictional behavior between the pile and the soil is considered in order to model the gap formation and sliding behavior between the pile and the soil. The response of the pile is presented in terms of the head deflection of the pile, bending moments, shear forces, deflections along the length of the pile, the gap formation between the pile and the soil, the p-y curves and the stress and displacement distribution within the pile-soil system. The study showed that the ultimate lateral pile capacity increases with the increase in soil shear strength, the L/d ratio and the pile diameter. For the cases considered, the maximum bending moment occurs at a depth of 0.12L to 0.18L.",

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N2 - This study presents a finite element model for analysis of laterally loaded piles in medium stiff clay using ABAQUS program. Three dimensional (3-D) continuum elements are used for both pile and soil elements. The interaction between the pile and the soil is modelled by using contact surfaces. Frictional behavior between the pile and the soil is considered in order to model the gap formation and sliding behavior between the pile and the soil. The response of the pile is presented in terms of the head deflection of the pile, bending moments, shear forces, deflections along the length of the pile, the gap formation between the pile and the soil, the p-y curves and the stress and displacement distribution within the pile-soil system. The study showed that the ultimate lateral pile capacity increases with the increase in soil shear strength, the L/d ratio and the pile diameter. For the cases considered, the maximum bending moment occurs at a depth of 0.12L to 0.18L.

AB - This study presents a finite element model for analysis of laterally loaded piles in medium stiff clay using ABAQUS program. Three dimensional (3-D) continuum elements are used for both pile and soil elements. The interaction between the pile and the soil is modelled by using contact surfaces. Frictional behavior between the pile and the soil is considered in order to model the gap formation and sliding behavior between the pile and the soil. The response of the pile is presented in terms of the head deflection of the pile, bending moments, shear forces, deflections along the length of the pile, the gap formation between the pile and the soil, the p-y curves and the stress and displacement distribution within the pile-soil system. The study showed that the ultimate lateral pile capacity increases with the increase in soil shear strength, the L/d ratio and the pile diameter. For the cases considered, the maximum bending moment occurs at a depth of 0.12L to 0.18L.

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Finite Element Analysis of Laterally Loaded Piles in Clays

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