Litcius/Paper detail

Bridge Health Monitoring Using Strain Data and High-Fidelity Finite Element Analysis

Behzad Ghahremani, Alireza Enshaeian, Piervincenzo Rizzo

2022Sensors30 citationsDOIOpen Access PDF

Abstract

This article presented a physics-based structural health monitoring (SHM) approach applied to a pretensioned adjacent concrete box beams bridge in order to predict the deformations associated with the presence of transient loads. A detailed finite element model was generated using ANSYS software to create an accurate model of the bridge. The presence of concentrated loads on the deck at different locations was simulated, and a static analysis was performed to quantify the deformations induced by the loads. Such deformations were then compared to the strains recorded by an array of wireless strain gauges during a controlled truckload test performed by an independent third party. The test consisted of twenty low-speed crossings at controlled distances from the bridge parapets using a truck with a certified load. The array was part of a SHM system that consisted of 30 wireless strain gauges. The results of the comparative analysis showed that the proposed physics-based monitoring is capable of identifying sensor-related faults and of determining the load distributions across the box beams. In addition, the data relative to near two-years monitoring were presented and showed the reliability of the SHM system as well as the challenges associated with environmental effects on the strain reading. An ongoing study is determining the ability of the proposed physics-based monitoring at estimating the variation of strain under simulated damage scenarios.

Topics & Concepts

Structural health monitoringStrain gaugeStructural engineeringFinite element methodBridge (graph theory)DeckLoad testingEngineeringWeigh in motionComputer scienceInternal medicineAxleMedicineStructural Health Monitoring TechniquesConcrete Corrosion and DurabilityInfrastructure Maintenance and Monitoring