Reliability-based serviceability limit state design of spread foundations under uplift loading in cohesionless soils

The design of foundations is often governed by the serviceability limit state (SLS) requirements of the supported structure, particularly for large spread foundations. This paper aims to develop a reliability-based SLS design method for spread foundations under uplift loading in cohesionless soils....

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Bibliographic Details
Published in:Georisk 2023-10, Vol.17 (4), p.635-650
Main Authors: Han, Jayne M., Gu, Kyo-Young, Kim, Kyeong-Sun, Ham, Kyung-Won, Kim, Sung-Ryul
Format: Article
Language:English
Subjects:
foundation engineering
reliability-based design
Serviceability limit state
spread foundation
statistics
uplift
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Summary:The design of foundations is often governed by the serviceability limit state (SLS) requirements of the supported structure, particularly for large spread foundations. This paper aims to develop a reliability-based SLS design method for spread foundations under uplift loading in cohesionless soils. A probabilistic framework was adopted for the empirical characterisation of the compiled load-displacement curves and the quantification of the associated uncertainties. By using the obtained statistics of the curves, reliability analysis was carried out with Monte-Carlo simulations to calibrate the resistance factors within the load and resistance factor design (LRFD) framework. The calibration results showed that the embedment ratio of the foundation and the fitting errors of the empirical model, which were previously unaddressed in the literature, had notable effects on the calibrated SLS resistance factors. The relationship of the SLS with the ultimate limit state was assessed, including the governing limit state at each allowable displacement level, and the probability of ultimate failure of the foundation at the SLS condition. By considering the relationship between the limit states, the procedures for determining the design resistance factor and foundation capacity were proposed.
ISSN:1749-9518
1749-9526
DOI:10.1080/17499518.2023.2164900