Assessment of time effects on capacities of large-scale piles driven in dense sands

Kai Wen, Stavroula Kontoe, Richard J. Jardine, Tingfa Liu*, David Cathie, Rui Silvano, Chiara Prearo, Shipeng Wei, Felix C. Schroeder, Stanislas Po

*Corresponding author for this work

Research output: Contribution to journalArticle (Academic Journal)peer-review

6 Citations (Scopus)
193 Downloads (Pure)

Abstract

This paper considers the axial resistances of open-ended, highly instrumented, 763 mm diameter steel pipe piles driven in sands for the EURIPIDES (EURopean Initiative on PIles in DEnse Sands) project at a well characterised research site at Eemshaven, in the northern Netherlands. It offers new analyses of previously unreported dynamic tests and considers their relationship to four heavily instrumented static compression tests. Rigorous signal matching employing two distinct pile-soil interaction models is reported, supported by careful sensitivity analyses, to interpret the recorded driving signals. The back-calculated shaft resistance profiles show good agreement between the models as well as calculations performed with a global wave equation analysis approach. The study highlights the need to account for the internal soil column resistance. The combined interpretation of the dynamic and static test data indicates a 50% gain in shaft resistance over the ten days after driving and threefold shaft capacity growth over a total period of 533 days after driving. The outcomes have important implications for driven pile design and field quality monitoring; the case history contributes an important benchmark in the study of long-term set-up trends.
Original languageEnglish
Pages (from-to)1015-1035
Number of pages21
JournalCanadian Geotechnical Journal
Volume60
Issue number7
Early online date12 Jan 2023
DOIs
Publication statusPublished - 1 Jul 2023

Bibliographical note

Funding Information:
This study formed part of the PAGE (pile ageing in sands) joint industry project (JIP) which was executed by a consortium led by Cathie with partners GCG and Prof. Richard Jardine. The JIP was sponsored by BP, DEME Offshore, EnBW, Equinor, Jan de Nul, Scottish Power Renewables, Van Oord and Ørsted, and supported by a technical review panel consisting of Jens Bergan-Haavik (DNV GL), Dr Oswald Klingmuller (GSP), Dr Neil Morgan (Lloyds Register), Dr Frank Rausche (Pile Dynamics Inc.), and Prof. David White (University of Southampton). Their support is gratefully acknowledged. The authors wish to express their gratitude to Professor M.F. Randolph and Peter Middendorp for granting access to IMPACT and Allwave-PDP software, respectively. The first author is funded by a Skempton scholarship of the Department of Civil & Environmental Engineering at Imperial College and the China Scholarship Council (CSC).

Publisher Copyright:
© 2023, Canadian Science Publishing. All rights reserved.

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