The University of Southampton
×
Filter your search:
University of Southampton Institutional Repository

Bayesian updating: reducing epistemic uncertainty in hysteretic degradation behavior of steel tubular structures

Bayesian updating: reducing epistemic uncertainty in hysteretic degradation behavior of steel tubular structures
Bayesian updating: reducing epistemic uncertainty in hysteretic degradation behavior of steel tubular structures

This paper proposes a probabilistic framework for updating the governing parameters in the hysteretic constitutive model for tubular steel with strength degradation. The hysteretic constitutive model is formulated to track the strength degradation due to the local buckling of square hollow steel beam-columns imposed by cyclic loadings with large elastoplastic deformation. Despite various hysteretic laws that have been proposed to model the steel tubular strength degradation, limitations for determining parameter values remain in numerical analysis. The parameters are generally obfuscated by the inevitable epistemic uncertainties from material and geometric properties. The updating process of the material parameters is performed within the Bayesian framework employing the Markov chain Monte Carlo algorithm. The epistemic uncertainty involved in the computational procedure is initially represented as predefined intervals of the uncertain parameters. The proposed Markov chain Monte Carlo (MCMC) algorithm can generate samples from the posterior distributions of the parameters according to the experimental results. The epistemic uncertainty is hence significantly reduced by the Bayesian updating process such that the updated model is feasible to predict the degradation behavior of square hollow steel beam-columns subjected to cyclic loadings. The benchmark example indicates that the proposed framework can find the optimal path for updating key parameter values to accurately assess the condition of steel tubular structures in terms of the degradation behavior.

Bayesian updating, Constitutive model, Hysteretic behavior, Modeling uncertainty, Steel structures, Strength degradation
2376-7642
Bi, Sifeng
93deb24b-fda1-4b18-927b-6225976d8d3f
Bai, Yongtao
921eab45-529e-4e16-ba5f-9dacf31f9186
Zhou, Xuhong
d19dd065-99da-40d0-8849-8529dc09b07c
Bi, Sifeng
93deb24b-fda1-4b18-927b-6225976d8d3f
Bai, Yongtao
921eab45-529e-4e16-ba5f-9dacf31f9186
Zhou, Xuhong
d19dd065-99da-40d0-8849-8529dc09b07c

Bi, Sifeng, Bai, Yongtao and Zhou, Xuhong (2022) Bayesian updating: reducing epistemic uncertainty in hysteretic degradation behavior of steel tubular structures. ASCE-ASME Journal of Risk and Uncertainty in Engineering Systems, Part A: Civil Engineering, 8 (3), [04022039]. (doi:10.1061/AJRUA6.0001255).

Record type: Article

Abstract

This paper proposes a probabilistic framework for updating the governing parameters in the hysteretic constitutive model for tubular steel with strength degradation. The hysteretic constitutive model is formulated to track the strength degradation due to the local buckling of square hollow steel beam-columns imposed by cyclic loadings with large elastoplastic deformation. Despite various hysteretic laws that have been proposed to model the steel tubular strength degradation, limitations for determining parameter values remain in numerical analysis. The parameters are generally obfuscated by the inevitable epistemic uncertainties from material and geometric properties. The updating process of the material parameters is performed within the Bayesian framework employing the Markov chain Monte Carlo algorithm. The epistemic uncertainty involved in the computational procedure is initially represented as predefined intervals of the uncertain parameters. The proposed Markov chain Monte Carlo (MCMC) algorithm can generate samples from the posterior distributions of the parameters according to the experimental results. The epistemic uncertainty is hence significantly reduced by the Bayesian updating process such that the updated model is feasible to predict the degradation behavior of square hollow steel beam-columns subjected to cyclic loadings. The benchmark example indicates that the proposed framework can find the optimal path for updating key parameter values to accurately assess the condition of steel tubular structures in terms of the degradation behavior.

This record has no associated files available for download.

More information

Accepted/In Press date: 9 April 2022
e-pub ahead of print date: 12 July 2022
Published date: 1 September 2022
Keywords: Bayesian updating, Constitutive model, Hysteretic behavior, Modeling uncertainty, Steel structures, Strength degradation

Identifiers

Local EPrints ID: 490650
URI: http://eprints.soton.ac.uk/id/eprint/490650
DOI: doi:10.1061/AJRUA6.0001255
ISSN: 2376-7642
PURE UUID: 80d6b5e0-a918-40e1-9310-24653c9acd6b
ORCID for Sifeng Bi: ORCID iD orcid.org/0000-0002-8600-8649

Catalogue record

Date deposited: 31 May 2024 17:00
Last modified: 01 Jun 2024 02:09

Export record

Altmetrics

Contributors

Author: Sifeng Bi ORCID iD
Author: Yongtao Bai
Author: Xuhong Zhou

Download statistics

Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.

View more statistics

Library staff additional information
Atom RSS 1.0 RSS 2.0

Contact ePrints Soton: eprints@soton.ac.uk

ePrints Soton supports OAI 2.0 with a base URL of http://eprints.soton.ac.uk/cgi/oai2

This repository has been built using EPrints software, developed at the University of Southampton, but available to everyone to use.

We use cookies to ensure that we give you the best experience on our website. If you continue without changing your settings, we will assume that you are happy to receive cookies on the University of Southampton website.

×