Share:


The methodology for defect quantification in concrete using IR thermography

    Bojan Milovanović Affiliation
    ; Ivana Banjad Pečur Affiliation
    ; Nina Štirmer Affiliation

Abstract

This paper presents a procedure for detecting and quantifying defects in reinforced concrete structures by us-ing the method of active infrared thermography (IRT). For quantitative analysis, a methodology of thermal stimulation of concrete specimens and post-processing of the gathered data was developed. Presented methodology uses principles of step heating (SH) thermography, pulsed phase (PPT) thermography, principal component thermography (PCT) and correlation operators technique. A short descriptions of the post-processing methods used in the research is also provided in the paper. All three post-processing methods i.e. PPT, PCT and correlation operators technique have shown the pos-sibility to enhance the defect detection in concrete structures in comparison to raw thermograms. According to the data accessible to the authors, in presented research, correlation operators and PCT post-processing techniques are being suc-cessfully used for the first time for defect detection within concrete structures. The results of the research clearly show the possibility of using active IRT for the detection and assessment of defect depth (quantification) in reinforced concrete structures with the measurement error within 10%.

Keyword : testing methodology, defect characterization, IR thermography, non-destructive testing, reinforced concrete, active thermography techniques, principal component thermography, correlation operators technique

How to Cite
Milovanović, B., Banjad Pečur, I., & Štirmer, N. (2017). The methodology for defect quantification in concrete using IR thermography. Journal of Civil Engineering and Management, 23(5), 573-582. https://doi.org/10.3846/13923730.2016.1210220
Published in Issue
May 24, 2017
Abstract Views
875
PDF Downloads
725
Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.