The spilling drop test (SDT) is a non-destructive test that uses passive thermography to characterise the property of the building surfaces to absorb and diffuse water. However, the drops made visible by the evaporation process, show unclear contours that do not allow easy quantification of the wetted area. In this work, three image segmentation methods based on different statistical treatments have been considered in order to estimate the wet area. The information acquired by spilling drop test were also compared with standardised methods for the assessment of moisture in porous geomaterials. In addition, the pore size distribution was assessed by nuclear magnetic resonance. The proposed methods were tested by analysing a set of ancient Roman plasters and modern mock-ups to highlight the ability of the thermographic method to provide useful information in the field of conservation of historical building materials.
Automatic thermograms segmentation, preliminary insight into spilling drop test / J. Melada, P. Arosio, M. Gargano, N. Ludwig. - In: QUANTITATIVE INFRARED THERMOGRAPHY JOURNAL. - ISSN 2116-7176. - (2023), pp. 1-15. [Epub ahead of print] [10.1080/17686733.2023.2213555]
Automatic thermograms segmentation, preliminary insight into spilling drop test
J. MeladaPrimo
Investigation
;P. ArosioSecondo
Membro del Collaboration Group
;M. GarganoPenultimo
Writing – Review & Editing
;N. Ludwig
Ultimo
Writing – Original Draft Preparation
2023
Abstract
The spilling drop test (SDT) is a non-destructive test that uses passive thermography to characterise the property of the building surfaces to absorb and diffuse water. However, the drops made visible by the evaporation process, show unclear contours that do not allow easy quantification of the wetted area. In this work, three image segmentation methods based on different statistical treatments have been considered in order to estimate the wet area. The information acquired by spilling drop test were also compared with standardised methods for the assessment of moisture in porous geomaterials. In addition, the pore size distribution was assessed by nuclear magnetic resonance. The proposed methods were tested by analysing a set of ancient Roman plasters and modern mock-ups to highlight the ability of the thermographic method to provide useful information in the field of conservation of historical building materials.
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