A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Reliability-based assessment of masonry arch bridges
Research highlights ► Probabilistic assessment of masonry arches at the serviceability and ultimate limit states. ► Definition of failure modes and limit state functions for single and multi-ring. ► A methodology is presented for the fatigue assessment, including probabilistic S-N curves. ► Proposal of a fatigue equation for deterministic assessment with a predefined safety level. ► Application to an existing bridge.
Abstract The paper presents a methodology for the probabilistic assessment of masonry arches at the serviceability and Ultimate Limit States. First, it explains the definition of the different failure modes and corresponding limit state functions that may occur depending on the type of masonry construction (single-ring and multi-ring). The most reported modes of failure are the four-hinge mechanism, the ring separation in multi-ring arches and the slippage at the foundations. Because of the lack of reliable material data (in the statistic sense) or available response models, only those more prone to be analyzed using reliability-based methods are shown in this paper: four-hinge mechanism and ring separation. The possibility of fatigue failure of masonry arch bridges under service loads and the proposal of reliability-based assessment methods at the ultimate level of the four-hinge mechanism are also analyzed. Finally, the proposed methodology is applied to an existing bridge.
Reliability-based assessment of masonry arch bridges
Research highlights ► Probabilistic assessment of masonry arches at the serviceability and ultimate limit states. ► Definition of failure modes and limit state functions for single and multi-ring. ► A methodology is presented for the fatigue assessment, including probabilistic S-N curves. ► Proposal of a fatigue equation for deterministic assessment with a predefined safety level. ► Application to an existing bridge.
Abstract The paper presents a methodology for the probabilistic assessment of masonry arches at the serviceability and Ultimate Limit States. First, it explains the definition of the different failure modes and corresponding limit state functions that may occur depending on the type of masonry construction (single-ring and multi-ring). The most reported modes of failure are the four-hinge mechanism, the ring separation in multi-ring arches and the slippage at the foundations. Because of the lack of reliable material data (in the statistic sense) or available response models, only those more prone to be analyzed using reliability-based methods are shown in this paper: four-hinge mechanism and ring separation. The possibility of fatigue failure of masonry arch bridges under service loads and the proposal of reliability-based assessment methods at the ultimate level of the four-hinge mechanism are also analyzed. Finally, the proposed methodology is applied to an existing bridge.
Reliability-based assessment of masonry arch bridges
Casas, Joan R. (author)
Construction and Building Materials ; 25 ; 1621-1631
2010-10-23
11 pages
Article (Journal)
Electronic Resource
English
Masonry , Arch , Reliability , Fatigue , Serviceability
Reliability-based assessment of masonry arch bridges
| British Library Online Contents | 2011
Reliability-based assessment of masonry arch bridges
| Online Contents | 2011
Reliability-based assessment of existing masonry arch railway bridges
| British Library Online Contents | 2016
Reliability-based assessment of existing masonry arch railway bridges
| British Library Online Contents | 2016
Reliability-based assessment of existing masonry arch railway bridges
| British Library Online Contents | 2016