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FE-based identification of pile–soil interactions from dynamic load tests to predict the axial bearing capacity
Publikationstyp
Journal Article
Publikationsdatum
2019-12-01
Sprache
English
Author
Institut
Enthalten in
Volume
14
Issue
6
Start Page
1821
End Page
1841
Citation
Acta Geotechnica 14 (6): 1821-1841 (2019-12-01)
Publisher DOI
Scopus ID
The static axial pile bearing capacity depends mainly on the developed pile–soil interaction. Hence, to determine a realistic and reliable ultimate pile bearing capacity, the pile–soil interaction needs to be identified and described precisely.One relevant field for this application is dynamic load tests (DLTs). During a DLT, the pile bearing capacity is deduced from measurements at the pile head. Current procedures of deriving the bearing capacity of open-ended piles from these measurements are lagging behind regarding the description of the pile–soil interaction for open-ended piles and the influence of the pore fluid response.Hence, a new technique based on the finite element method is developed, which captures the key aspects for DLT results correctly and is capable of deriving the static pile bearing capacity. The method is validated against dynamic and static load test data obtained from centrifuge tests on large diameter monopiles. An application to field test data of tubular steel piles is shown. The developed approach seems suitable to assess the static pile bearing capacity based on DLT measurements.
Schlagworte
Dynamic load test
Finite element method
Mathematical optimization
Pile foundation
Static bearing capacity