Assessment of the reliability of concrete evaluation by multi-physical inversion of NDT measurements – A probabilistic approach

The evaluation of the spatial variability of concrete properties is an important issue for a better diagnosis of reinforced concrete structures. The combination between destructive techniques and nondestructive techniques (NDT) is a common practice to establish relationships between concrete propert...

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Bibliographic Details
Published in:Construction & building materials 2021-09, Vol.300, p.124371, Article 124371
Main Authors: Abdallah, Wafaa, Sbartaï, Zoubir-Mehdi, Saliba, Jacqueline, Elachachi, Sidi Mohammed, Hage Chehade, Fadi, Sadek, Marwan
Format: Article
Language:English
Subjects:
Combination
Concrete
Engineering Sciences
Evaluation
Fusion
Inversion
Materials
NDT
Probabilistic
Uncertainty
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Summary:The evaluation of the spatial variability of concrete properties is an important issue for a better diagnosis of reinforced concrete structures. The combination between destructive techniques and nondestructive techniques (NDT) is a common practice to establish relationships between concrete properties and NDT measurements. Concrete properties can then be estimated at each test location using the corresponding NDT values on the basis of the calibration and inversion of these relationships. However, NDT measurements include many sources of uncertainties that can lead to biased or even inaccurate estimation. Thus, the improvement of the reliability of this estimation requires to specify and control the principal influencing factors on these uncertainties. The main objective of this paper is to propose a calibration methodology of conversion models and to study the reliability of concrete properties assessment considering the effect of the number of measurements, the uncertainty of NDT measurements and the combination of NDT techniques. Three conversion models linking the ultrasonic pulse velocity, the electrical resistivity, and the dielectric permittivity to two physical concrete properties, the porosity and saturation degree, are considered. The results show that the inversion of the proposed analytical models enables an accurate evaluation of concrete properties. In addition, it has been shown that there is a minimal number of measurements needed for an efficient non-destructive evaluation of concrete properties considering their variabilities.
ISSN:0950-0618
1879-0526
DOI:10.1016/j.conbuildmat.2021.124371