Updating reliability of pile groups with load tests considering spatially variable soils
Updating reliability of pile groups with load tests considering spatially variable soils
This paper proposes a rigorous framework to update the reliability of pile groups based on load tests. The proposed approach enables the consideration of the spatial variability of soils, which is disregarded in previous studies. To achieve this, the random finite difference method (RFDM) is utilised to assess the group efficiency, individual pile capacities, and the correlation between individual pile capacities in spatially variable soils. Subsequently, Bayes’ theorem is employed to update individual pile capacities based on load test results, taking into account the correlation between individual pile capacities. Finally, the reliability of pile groups is evaluated based on the group efficiency and updated individual pile capacities. An axially loaded pile group in undrained clays is utilised for demonstration. Results indicate that neglecting the spatial variability of soils may lead to unrealistic assessments of the reliability of pile groups. Specifically, in cases where all piles fail, the ignorance of spatial variability results in an overconservative design. Conversely, in cases where one or more piles pass, it leads to an unconservative design.
Bayes’ theorem, pile group, Pile load tests, random finite difference method, reliability
750-764
Zhang, Yuting
821b7687-fe98-4525-b641-2ea503797319
Huang, Jinsong
da153fad-3446-47fc-8b4a-5799e42fb59e
Xie, Jiawei
8f5bdf89-fcac-4336-a371-9f138872a28b
Giacomini, Anna
93a2476b-4df9-4d0b-8269-1070776d8f45
Zeng, Cheng
bb12ebfb-4c58-46c6-93fe-dc4b101cf5e9
Zhang, Yuting
821b7687-fe98-4525-b641-2ea503797319
Huang, Jinsong
da153fad-3446-47fc-8b4a-5799e42fb59e
Xie, Jiawei
8f5bdf89-fcac-4336-a371-9f138872a28b
Giacomini, Anna
93a2476b-4df9-4d0b-8269-1070776d8f45
Zeng, Cheng
bb12ebfb-4c58-46c6-93fe-dc4b101cf5e9
Zhang, Yuting, Huang, Jinsong, Xie, Jiawei, Giacomini, Anna and Zeng, Cheng
(2024)
Updating reliability of pile groups with load tests considering spatially variable soils.
Georisk, 18 (4), .
(doi:10.1080/17499518.2024.2328189).
Abstract
This paper proposes a rigorous framework to update the reliability of pile groups based on load tests. The proposed approach enables the consideration of the spatial variability of soils, which is disregarded in previous studies. To achieve this, the random finite difference method (RFDM) is utilised to assess the group efficiency, individual pile capacities, and the correlation between individual pile capacities in spatially variable soils. Subsequently, Bayes’ theorem is employed to update individual pile capacities based on load test results, taking into account the correlation between individual pile capacities. Finally, the reliability of pile groups is evaluated based on the group efficiency and updated individual pile capacities. An axially loaded pile group in undrained clays is utilised for demonstration. Results indicate that neglecting the spatial variability of soils may lead to unrealistic assessments of the reliability of pile groups. Specifically, in cases where all piles fail, the ignorance of spatial variability results in an overconservative design. Conversely, in cases where one or more piles pass, it leads to an unconservative design.
Text
Updating reliability of pile groups with load tests considering spatially variable soils
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Accepted/In Press date: 6 February 2024
e-pub ahead of print date: 18 March 2024
Keywords:
Bayes’ theorem, pile group, Pile load tests, random finite difference method, reliability
Identifiers
Local EPrints ID: 497119
URI: http://eprints.soton.ac.uk/id/eprint/497119
ISSN: 1749-9518
PURE UUID: f3c99676-470b-40be-94f1-58fa4e3ac8c5
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Date deposited: 14 Jan 2025 17:41
Last modified: 21 Aug 2025 02:53
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Contributors
Author:
Yuting Zhang
Author:
Jinsong Huang
Author:
Jiawei Xie
Author:
Anna Giacomini
Author:
Cheng Zeng
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