Journal of Geotechnical Engineering

 Abstract
Expansive soils exhibit significant volume changes with variations in soil moisture content. Expansive soils are often considered as problematic soils. It undergoes large volume changes upon wetting and drying and causes huge damages to the structures resting on it. Numerical modeling was carried out by using PLAXIS 3D-2013 software, in which modeling the soil by using hardening soil model was done. Tower rested on expansive soils are subjected to uplift and lateral forces due to soil swelling and wind load. More importantly, the swelling in expansive soil tends to cause additional lateral pressure on foundation of tower that caused deformations and bending. Various pattern types of helical piles are used to reduce the vertical and lateral movement of tower constructed on expansive soil. This study showed that to reach zero uplift movement of tower foundation constructed on expansive soil need L/D ratio 118, 113 and 102 for helical piles group of (2×2), (3×3) and (4×4) respectively with
single and double helix plates in the upper and lower part of helical pile. To reach zero uplift movement of tower founded on expansive layer, L/H ratio should be penetrated (1.52, 1.37, 1.20) for helical piles group of (2×2), (3×3) and (4×4) respectively with single and double helix plates in the upper and lower part of helical pile. In general, the presence of helical piles below tower foundation resisted and controlled the vertical movement and lateral movement.
Keywords: Helical pile, expansive soil, tower, uplift movement

Cite this Article
Bushra Suhale Al-Busoda, Hassan Obaid
Abbas. Numerical Simulation of Mitigation
of Soil Swelling Problem under
Communication Tower Using Helical
Piles.
Journal
of
Geotechnical
Engineering. 2017; 4(3): 35–46p.