Abstract
Estimating lateral pile capacity is one of the most typical works for geotechnical engineers. Although it has been a routine calculation, obtaining reliable results is still challenging, especially when the ground condition is unfamiliar. Fortunately, the lateral pile capacity prediction can be performed by deriving a p-y curve from the load-deformation curve measured during pile testing. In cases where a preliminary test pile exists, fortunately, the p-y curve can be generated easily using a subgrade reaction approach suggested by Davisson and Gill (1963). Two lateral pile load test results were used to show the prospect of this method for practical applications. The field tests were on driven and bored piles with different diameters and lengths embedded in alluvial OC clays at two different sites in Jakarta, Indonesia, where both piles were categorised as long piles. Derivation of p-y curves was performed with a simple spreadsheet. Then, the obtained p-y response was used to estimate the load-deformation curve. Results showed that the back-calculated curve agree well with the measured data. This outcome might be because the p-y curves were directly derived from the field test where the pile experienced in-situ stress, resulting in a more representative of the actual condition.
Original language | English |
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Article number | 012027 |
Journal | IOP Conference Series: Earth and Environmental Science |
Volume | 1249 |
Issue number | 1 |
DOIs | |
Publication status | Published - 2023 |
Event | 2023 International Conference on Case Histories in Geotechnical Engineering and 4th AsRTC6 Urban Geoengineering Symposium - Virtual, Online Duration: 25 Sept 2023 → 28 Sept 2023 |