Affiliation:
1. Mageba SA, Bulach, Switzerland
Abstract
<p>The movements a bridge experiences, both absolute and accumulated over time, can significantly influence the structure’s life-cycle performance – especially as it relates to the components that facilitate these movements. Structural health monitoring (SHM) systems, with sensors placed at – or ideally, integrated in – a bridge’s bearings and expansion joints, can be used to efficiently record and evaluate these movements, facilitating continuous monitoring of the components’ and the structure’s performance over time. This can enable potential problems to be recognised at an early stage, and maintenance (e.g. replacement of “wear parts” such as sliding materials) to be optimised. The significance of the frequency at which measurements are recorded must be appreciated, as high-frequency data can capture micro-movements (e.g. due to wind or traffic) that far exceed the slow thermal movements. This paper explores this topic with reference to a number of case studies.</p>
Publisher
International Association for Bridge and Structural Engineering (IABSE)
Reference8 articles.
1. Sliding materials – the often essential but generally weakest links in bridge bearings and expansion joints;Gianni MOOR,2019
2. Treacy M., Meng N., and Paciacconi A. What added value can SHM bring to my construction project or structure maintenance programme? Proc. 5th International Conference on Smart Monitoring, Assessment and Rehabilitation of Civil Structures (SMAR), Potsdam, Germany. 2019.