Capacity degradation method for piles under cyclic axial loads

Piles used for jacket type foundation of offshore wind turbine are subjected to highly cyclic tension and compressive loading. The pile capacity under cyclic tension loading decreases with increased number of loading cycles due to reduction of the pile shaft resistance. A numerical simulation scheme...

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Bibliographic Details
Published in:Computers and geotechnics 2020-12, Vol.128, p.103838, Article 103838
Main Authors: Achmus, M., Kuo, Y.-S., Abdel-Rahman, K., Tseng, Y.H., Pang, I.
Format: Article
Language:English
Subjects:
Axial loads
Capacity
Capacity degradation
Cycles
Cyclic axial loading
Cyclic loading
Cyclic loads
Degradation
Interaction diagrams
Load
Mathematical analysis
Mathematical models
Offshore
Offshore operations
Piles
Sandy soils
Shear tests
Simple shear tests
Soil
Soil compaction
Soil conditions
Steel piles
Stiffness
Tension
Turbine engines
Turbines
Wind power
Wind turbines
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Summary:Piles used for jacket type foundation of offshore wind turbine are subjected to highly cyclic tension and compressive loading. The pile capacity under cyclic tension loading decreases with increased number of loading cycles due to reduction of the pile shaft resistance. A numerical simulation scheme is presented, which allows the calculation of the pile capacity degradation (CDM) due to cyclic loading for driven steel piles. The volume compaction of soil near the pile surface during the cyclic loading is determined from the cyclic simple shear test results and then applied to the pile-soil system. From the limited number of tests available, interaction diagrams have been developed, which give the number of load cycles leading to failure dependent on the mean load and the amplitude of the cyclic load portion, which are both related to the static pile capacity. However, such diagrams cannot account for different soil conditions or pile geometry and pile stiffness. The calculation results for different piles in sandy soil under cyclic axial loading are presented and compared with existing interaction diagrams. Finally, recommendations regarding further investigations and improvements of the method are given.
ISSN:0266-352X
1873-7633
DOI:10.1016/j.compgeo.2020.103838