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A new p-y model for soil-pile interaction analyses in cohesionless soils under monotonic loading

Ozan Alver, E. Ece Eseller-Bayat

2024SOILS AND FOUNDATIONS13 citationsDOIOpen Access PDF

Abstract

The most widely used analysis method for the laterally loaded pile problem is the Winkler spring approach. Although researchers have proposed nonlinear formulations for the p-y curves, the contribution of the soil nonlinearity has not been thoroughly studied. The main drawback of the current approach is the use of a single stiffness in the p-y formulation. This study investigates the laterally loaded pile problem by employing the pressure-dependent hardening soil model with small-strain stiffness (HS-Small Model), where the degree of soil nonlinearity is better integrated. The parametric analyses are performed on the verified model for various pile and soil properties. A new p-y model is proposed for pile behaviour under monotonic loading based on the numerical analysis results. The model includes the initial stiffness, ultimate soil resistance, and degree of nonlinearity parameters. The validity of the proposed model is demonstrated by simulating a centrifuge and two field tests from the literature. The proposed model accurately accounts for soil nonlinearity and significantly improves the estimation of lateral displacements.

Topics & Concepts

PileCentrifugeGeotechnical engineeringMonotonic functionNonlinear systemStiffnessParametric statisticsStructural engineeringGeologySoil waterHardening (computing)MathematicsEngineeringMaterials scienceSoil scienceMathematical analysisPhysicsStatisticsQuantum mechanicsNuclear physicsComposite materialLayer (electronics)Geotechnical Engineering and Soil MechanicsGeotechnical Engineering and Soil StabilizationGeotechnical Engineering and Underground Structures
A new p-y model for soil-pile interaction analyses in cohesionless soils under monotonic loading | Litcius