Inversion Technique for Quantitative Infrared Thermography Evaluation of Delamination Defects in Multilayered Structures

Abstract: Inverse analysis is a promising tool for quantitative evaluation offering informative model-based prediction and providing accurate reconstruction results without pre-inspections for characterization criteria. For traditional defect inverse reconstruction, a large number of parameters are required to reconstruct a complex defect, and the corresponding forward modelling simulation is very time-consuming. Such issues result in ill-posed and complex inverse reconstruction results, which further reduces its practi… Show more

“…The relation between the surface temperature of each pixel and the input energy can be expressed as Eq. ( 1) [24]:…”

“…The Thermographic Signal Reconstruction (TSR) [24] method is remarkable at improving the temporal resolution and reducing time-domain noise of the thermogram sequence and consequently promoting the time-domain sensitive features. By focusing on thermal sequence reconstruction and alleviating the transient noise simultaneously, TSR-based thermogram analysis has been applied to characterise defect and transform the thermography data into RGB images.…”

A Sliding-Window Principal Component thermography reconstruction approach for enhancement and identification of electronic components internal structure

“…The relation between the surface temperature of each pixel and the input energy can be expressed as Eq. ( 1) [24]:…”

“…The Thermographic Signal Reconstruction (TSR) [24] method is remarkable at improving the temporal resolution and reducing time-domain noise of the thermogram sequence and consequently promoting the time-domain sensitive features. By focusing on thermal sequence reconstruction and alleviating the transient noise simultaneously, TSR-based thermogram analysis has been applied to characterise defect and transform the thermography data into RGB images.…”

A Sliding-Window Principal Component thermography reconstruction approach for enhancement and identification of electronic components internal structure

“…Recently, some emerging techniques have been developed in order to solve the mechanism issue in the industrial applications, like infrared thermography (IRT). IRT has many advantages including non-contact, greater inspection speed, higher resolution and sensitivity, detectability of inner defects due to heat conduction, and real-time measurements over a large detection area [3][4][5]. In addition, considering the large number of blades and short inspection time for the evaluation of the blade surface fatigue cracks, the inspection speed and detection accuracy are the factors that should be prioritized.…”

An efficient electromagnetic and thermal modelling of eddy current pulsed thermography for quantitative evaluation of blade fatigue cracks in heavy-duty gas turbines

“…As it is a thermal-based penetration inspection technique, the inner material and structural defects in ECs can be interrogated by reconstructing the thermal features of captured thermal decay profile and image. Although quantitative characterisation of damage/defect in uncomplicated structure has been well studied and proven to be effective [ 18 , 19 , 20 , 21 ], as a new inspection technique against UVECs, the thermal response and corresponding detectability using PT for UVECs are still unknown.…”

A Novel Inspection Technique for Electronic Components Using Thermography (NITECT)