桥(图论)
桥梁维护
背景(考古学)
地铁列车时刻表
计算机科学
风险分析(工程)
危害
弹性(材料科学)
事件(粒子物理)
可靠性工程
工程类
业务
结构工程
操作系统
热力学
物理
内科学
古生物学
有机化学
化学
生物
甲板
医学
量子力学
作者
João Fernandes,José C. Matos,Hélder S. Sousa,Mário Rui Freitas Coelho
摘要
In the context of bridge management, three main types of maintenance actions can be considered. Maintenance actions can be taken preventively before the predefined limit condition is reached, or as a corrective measure in case those limits have been reached. The third possibility corresponds to the so‐called “doing nothing” scenario, in which no action is taken on the bridge. To be able to implement preventive maintenance, it is necessary to know the current condition of the bridge, as well as to be able to predict its performance. On the other hand, it is also important to be able to identify potentially threatening events that might occur in the analysis life period. This paper describes an integrated methodology to help bridge managers in defining an efficient maintenance program, considering the specific case of a railway bridge. The novelty of the methodology is focused on updating an existing methodology proposed by COST TU1406, by extending it to railway bridges and also by including the resilience analysis in case of a sudden event occurrence. The analysis considers a multi‐hazard future scenario, in which a flood event occurs while corrosion phenomena were already in place. The results show the feasibility of the proposed methodology as a support for the establishment of an efficient maintenance schedule to prevent bridge severe degradation, as well as to establish recovery plans in case of a sudden event.
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