Litcius/Paper detail

Long-Term Numerical Analysis of Subsurface Delamination Detection in Concrete Slabs via Infrared Thermography

Sandra Pozzer, Francisco Dalla Rosa, Zacarias Martin Chamberlain Pravia, Ehsan Rezazadeh Azar, Xavier Maldague

2021Applied Sciences23 citationsDOIOpen Access PDF

Abstract

One of the concerns about the use of passive Infrared Thermography (IRT) for structural health monitoring (SHM) is the determination of a favorable period to conduct the inspections. This paper investigates the use of numerical simulations to find appropriate periods for IRT-based detection of subsurface damages in concrete bridge slabs under passive heating along a 1 year of time span. A model was built using the Finite Element Method (FEM) and calibrated using the results of a set of thermographic field inspections on a concrete slab sample. The results showed that the numerical simulation properly reproduced the experimental thermographic measurements of the concrete structure under passive heating, allowing the analysis to be extended for a longer testing period. The long-term FEM results demonstrated that the months of spring and summer are the most suitable for passive IRT inspections in this study, with around 17% more detections compared to the autumn and winter periods in Brazil. By enhancing the possibility of using FEM beyond the design stage, we demonstrate that this computation tool can provide support to long-term SHM.

Topics & Concepts

ThermographyFinite element methodStructural engineeringSlabStructural health monitoringDelamination (geology)Bridge (graph theory)Term (time)InfraredMaterials scienceEngineeringGeologyOpticsInternal medicineTectonicsPaleontologyQuantum mechanicsSubductionMedicinePhysicsThermography and Photoacoustic TechniquesStructural Health Monitoring TechniquesFire effects on concrete materials