Al-Tememy, M., Al-Neami, M., Asswad, M. (2022). A Numerical Analysis on Pullout Capacity of Batter Pile Groups in Sandy Soil. Alustath, 40(11), 1352-1357. doi: 10.30684/etj.2021.131818.1062
Mais S. Al-Tememy; Mohammed A. Al-Neami; Mohammed F. Asswad. "A Numerical Analysis on Pullout Capacity of Batter Pile Groups in Sandy Soil". Alustath, 40, 11, 2022, 1352-1357. doi: 10.30684/etj.2021.131818.1062
Al-Tememy, M., Al-Neami, M., Asswad, M. (2022). 'A Numerical Analysis on Pullout Capacity of Batter Pile Groups in Sandy Soil', Alustath, 40(11), pp. 1352-1357. doi: 10.30684/etj.2021.131818.1062
Al-Tememy, M., Al-Neami, M., Asswad, M. A Numerical Analysis on Pullout Capacity of Batter Pile Groups in Sandy Soil. Alustath, 2022; 40(11): 1352-1357. doi: 10.30684/etj.2021.131818.1062

A Numerical Analysis on Pullout Capacity of Batter Pile Groups in Sandy Soil

Engineering and Technology Journal
Article 1, Volume 40, Issue 11, November 2022, Pages 1352-1357    PDF (833.28 K)
Document Type: Research Paper
DOI: 10.30684/etj.2021.131818.1062
Authors
Mais S. Al-Tememy* 1; Mohammed A. Al-Neami2; Mohammed F. Asswad2
1Civil Engineering Department , Geotechnical , University of technology , Baghdad, Iraq
2Civil Engineering Dept., University of Technology-Iraq, Alsina’a street, 10066 Baghdad, Iraq
Abstract
Batter piles or raker piles are the piles driven in the soil at an inclination with the vertical to resist inclined forces or large lateral loads. Battered piles are widely utilized to support offshore buildings, towers, and bridges since these structures are risky due to the exposure to overturning moments resulting from winds, waves, and ship impact. This paper used a three-dimensional finite element analysis using PLAXIS 3D software to study the effect of several variables that affect the behavior of batter piles in a group under pullout loads. The study is conducted on a steel pipe pile model embedded in a dry sandy soil with three different relative densities (loose, medium, and dense sand) at different inclination angles and three embedment ratios L/D of 25, 37.5, and 50, respectively. The finite element model was carried out on a pile group of 2×1 with different configurations. The numerical results indicated that for all pile configurations, the pullout capacity of the batter pile group increased when the embedded ratio and relative density increased, and the maximum value was attained at a 20° batter angle. Furthermore, batter pile groups with BB (group with two battered piles) configuration of (-20°, +20°) gave a high resistance to the pullout load compared to other configurations of the pile group. In addition, pile Groups with battered piles marked the resistance to the pullout load more than pile groups that contain only the vertical piles.

Highlights
  • The pullout capacity of a batter pile group attains maximum value at a 20° batter angle
  • Batter piles have a higher lateral load resistance than vertical piles.
  • The pullout load capacity of groups increases with the increase in the embedment ratio
  • Pullout capacity of vertical and batter piles improves significantly with increasing RD
  • The negative batter pile group has more load capacity than the positive batter pile group
Keywords
Batter pile; Pullout capacity; Batter angles PLAXIS 3D
References

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