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A simple approach for predicting the ultimate lateral capacity of a rigid pile in sand

Huan Wang, Barry Lehane, M. F. Bransby, L. Z. Wang, Yi Hong

2020Géotechnique Letters11 citationsDOI

Abstract

Rigid piles are widely used as foundations to resist lateral load. A calculation to confirm that the ultimate lateral geotechnical capacity of such piles is not exceeded is required for ultimate limit-state design. Existing (empirical) approaches employed to predict the lateral capacity of a rigid pile in sand assume the net soil pressure is a function of the vertical effective stress and friction angle. However, difficulties in determining the appropriate friction angle(s) make these approaches less useful for practical purposes. A simple alternative approach correlated with the cone penetration test end resistance (q c ) is developed in this paper based on ultimate capacities measured in a new series of tests on rigid piles with diameters of 127, 169, 273 and 457 mm and aspect ratios (L/D) between 1·6 and 12. These test results are combined with additional tests reported in the literature to establish a simple formulation for the ultimate net pressure adjacent to a pile in sand. Explicit design equations are also presented for soil profiles with a constant q c value and where q c increases linearly with depth. The proposed equations are seen to provide good estimates of capacities for rigid piles with a wide range of diameters.

Topics & Concepts

PileGeotechnical engineeringFriction angleLateral earth pressureOverburden pressurePenetration testStructural engineeringRange (aeronautics)EngineeringMaterials scienceComposite materialSubgradeGeotechnical Engineering and Soil MechanicsGeotechnical Engineering and Soil StabilizationGeotechnical Engineering and Underground Structures
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