@article {bnh-5073, title = {Fault tree analysis method for deterioration of timber bridges using an Australian case study}, journal = {Built Environment Project and Asset Management}, volume = {6}, year = {2016}, abstract = {
Purpose
{\textendash} Deterioration of timber bridges can often be related to a number of deficiencies in the bridge elements, connectors and/or as a result of been in aggressive environments which they are exposed to. The maintenance cost of timber bridges is affected significantly by a number of deterioration mechanisms which require a systematic approach for diagnosis and treatment. Evaluating the risk of failure of these bridges is of importance in bridge performance assessment and decision making to optimize rehabilitation options. The paper aims to discuss these issues.

Design/methodology/approach
{\textendash} This paper identifies common causes for timber bridge deterioration and demonstrates an integrated approach based on fault tree analysis to obtain qualitative or quantitative estimation of the risk of failure of timber bridge sub-systems. Level 2 inspection report for a timber bridge in Queensland, Australia has been utilized as a case study in this research to identify the failure modes of the bridge.

Findings
{\textendash} A diagnostic tool for timber bridge deterioration will benefit asset inspectors, managers, and engineers to identify the type, size and the distress mechanisms in order to recognize the proper corrective measures either to prevent or to reduce further deterioration. Timber bridge maintenance is a major issue in Queensland, Australia. If a decision support tool can be developed, it will benefit road authorities and local councils.

Originality/value
{\textendash} Timber bridge maintenance is a major issue in Queensland, Australia. If a decision support tool can be developed as initiated in this research paper it will benefit road authorities and local councils.
}, doi = {https://doi.org/10.1108/BEPAM-01-2016-0001}, url = {https://www.emeraldinsight.com/doi/pdfplus/10.1108/BEPAM-01-2016-0001}, author = {Weena Lokuge and Nirdosha Gamage and Sujeeva Setunge} }