Structural reliability and partial safety factor assessment of unreinforced masonry in vertical bending

• Published in: Australian journal of structural engineering Vol. 24; no. 3; pp. 191 - 205
• Main Authors: Isfeld, Andrea C., Stewart, Mark G., Masia, Mark J.
• Format: Journal Article
• Language: English
• Published: Taylor & Francis 03.07.2023
• Subjects: code calibration; finite element modelling; Monte Carlo simulation; out-of-plane loading; spatial variability; structural reliability; Unreinforced masonry; vertical bending
• ISSN: 1328-7982; 2204-2261
• DOI: 10.1080/13287982.2023.2173868

This paper focuses on a structural reliability-based assessment of clay brick unreinforced masonry (URM) walls subjected to uniformly distributed out-of-plane loads in one-way vertical bending. Stochastic models combining finite element analysis (FEA) and Monte Carlo simulations (MCS) are used to account for spatial variability of the flexural tensile bond strength when estimating the wall failure loads. The strength of URM walls is known to be influenced by the flexural tensile bond strength, which is subject to high spatial variability as batching, workmanship, and environmental exposure alter the strength of this bond. For this assessment, single skin walls have been considered with bond strength statistics seen in typical construction. The model error statistics available for similar walls are combined with the results of the spatial stochastic FEA and probabilistic load models to determine the reliability index corresponding to the Australian Standard for Masonry Structures AS 3700 design of members in vertical bending. It was found that existing levels of reliability exceed target reliabilities, and the capacity reduction factor can be increased from 0.60 to 0.65 for URM walls in one-way vertical bending while still providing an acceptable level of reliability. A sensitivity analysis showed this finding to be robust.