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

Assessment of time effects on capacities of large-scale piles driven in dense sands
Assessment of time effects on capacities of large-scale piles driven in dense sands
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-characterized research site at Eemshaven, in the northern Netherlands. It offers new analyses of previously unreported dynamic tests and considers their relationship with 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 10 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.
0008-3674
1015-1035
Wen, K.
f2914054-5942-445d-9138-a8007243794c
Kontoe, S.
d7a94a02-cb14-4ac3-8244-d8b1157aa8dc
Jardine, R.J.
6443b803-5e1c-4a86-a485-b064a0a00e74
Liu, T.
b4e98d8f-b48b-4f16-865e-9c8d3900b48f
Cathie, D.
0f5736c9-ac98-41f3-aa8a-5b7cdcec1a18
Silvano, R.
ab0428ea-fbf7-4ffb-80d9-b511d5b002e7
Prearo, C.
e0d08911-8d5a-4b4b-b7ed-9e7e8ba2216d
Wei, S.
6c3d1ee7-ab34-4d3b-b5a0-82a2286cbc54
Schroeder, F.C.
e093ee34-128c-439a-b870-e3f292f94ae7
Po, S.
f473eca1-9448-4386-8743-892d3b2c5532
Wen, K.
f2914054-5942-445d-9138-a8007243794c
Kontoe, S.
d7a94a02-cb14-4ac3-8244-d8b1157aa8dc
Jardine, R.J.
6443b803-5e1c-4a86-a485-b064a0a00e74
Liu, T.
b4e98d8f-b48b-4f16-865e-9c8d3900b48f
Cathie, D.
0f5736c9-ac98-41f3-aa8a-5b7cdcec1a18
Silvano, R.
ab0428ea-fbf7-4ffb-80d9-b511d5b002e7
Prearo, C.
e0d08911-8d5a-4b4b-b7ed-9e7e8ba2216d
Wei, S.
6c3d1ee7-ab34-4d3b-b5a0-82a2286cbc54
Schroeder, F.C.
e093ee34-128c-439a-b870-e3f292f94ae7
Po, S.
f473eca1-9448-4386-8743-892d3b2c5532

Wen, K., Kontoe, S., Jardine, R.J., Liu, T., Cathie, D., Silvano, R., Prearo, C., Wei, S., Schroeder, F.C. and Po, S. (2023) Assessment of time effects on capacities of large-scale piles driven in dense sands. Canadian Geotechnical Journal, 60 (7), 1015-1035. (doi:10.1139/cgj-2022-0060).

Record type: Article

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-characterized research site at Eemshaven, in the northern Netherlands. It offers new analyses of previously unreported dynamic tests and considers their relationship with 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 10 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.

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More information

Accepted/In Press date: 21 December 2022
e-pub ahead of print date: 12 January 2023
Published date: 24 May 2023

Identifiers

Local EPrints ID: 490410
URI: http://eprints.soton.ac.uk/id/eprint/490410
DOI: doi:10.1139/cgj-2022-0060
ISSN: 0008-3674
PURE UUID: a653e3f8-a029-4324-b6f6-197813835e4c
ORCID for K. Wen: ORCID iD orcid.org/0009-0007-8066-1552

Catalogue record

Date deposited: 24 May 2024 16:58
Last modified: 25 May 2024 02:10

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Contributors

Author: K. Wen ORCID iD
Author: S. Kontoe
Author: R.J. Jardine
Author: T. Liu
Author: D. Cathie
Author: R. Silvano
Author: C. Prearo
Author: S. Wei
Author: F.C. Schroeder
Author: S. Po

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