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Decomposition method for reliability analysis of structural systems

Filippo Sangiorgio
Vol. 10 (2022), No. 4, 357–387
DOI: 10.2140/memocs.2022.10.357
Abstract

This study provides a novel method for reliability analysis of structural systems. Its main feature is the decomposition of an original multiple limit states reliability problem into the sum of a number of single limit state reliability problems. An exact equation is derived for the evaluation of the probability of system failure under three assumptions: the number of system failure modes is finite, the structural system is subjected to mutually exclusive and collectively exhaustive failure modes, and components connected in parallel have perfectly correlated failures with causal relationship. The validity of the derivation is demonstrated mathematically. The concept of global probability of system failure is introduced to assess the reliability of structural systems subjected to multiple loading conditions. Example applications are presented. The results show that the proposed method is effective for a large variety of structural systems and can be applied considering either all the failure modes or only the dominant ones.

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Keywords
structural system reliability, structural component reliability, multiple failure modes, multiple load cases, probabilistic modelling
Mathematical Subject Classification
Primary: 82M60
Milestones
Received: 21 July 2021
Revised: 2 December 2021
Accepted: 23 August 2022
Published: 30 April 2023

Communicated by Emilio Barchiesi
Authors
Filippo Sangiorgio
Civil Infrastructures
Nordics, AECOM
Stockholm
Sweden
© 2022 MSP (Mathematical Sciences Publishers).