Archivio Istituzionale della RicercaThis paper describes a viable and self-contained imaging system able to assess and quantify the effects of microbial corrosion on metals surface. The proposed image processing uses Scanning Electron Microscope micrographs to analyze bacteria attachment on sample surface and to estimate the degradation degree of the material. After a preliminary brightness and contrast normalization, which refines the image taken by the operator, the software is able to identify dark spots on the clear metal surface. These are then attributed to singly attached bacteria or to larger clusters, which are the most dangerous ones, as they could overlay corrosion pits. After that, the degradation of the material is evaluated through the quantification of microbial attachment on the surface and through dimensional distribution of bacteria clusters.
An imaging system for microbial corrosion analysis / Iannucci, Leonardo; Lombardo, Luca; Parvis, Marco; Cristiani, Pierangela; Basseguy, Regine; Angelini, Emma; Grassini, Sabrina. - ELETTRONICO. - (2019), pp. 1-6. (Intervento presentato al convegno 2019 IEEE International Instrumentation and Measurement Technology Conference (I2MTC) tenutosi a Auckland, New Zealand nel 20-23 May 2019) [10.1109/I2MTC.2019.8826965].
An imaging system for microbial corrosion analysis
Iannucci, Leonardo;Lombardo, Luca;Parvis, Marco;Angelini, Emma;Grassini, Sabrina
2019
Abstract
This paper describes a viable and self-contained imaging system able to assess and quantify the effects of microbial corrosion on metals surface. The proposed image processing uses Scanning Electron Microscope micrographs to analyze bacteria attachment on sample surface and to estimate the degradation degree of the material. After a preliminary brightness and contrast normalization, which refines the image taken by the operator, the software is able to identify dark spots on the clear metal surface. These are then attributed to singly attached bacteria or to larger clusters, which are the most dangerous ones, as they could overlay corrosion pits. After that, the degradation of the material is evaluated through the quantification of microbial attachment on the surface and through dimensional distribution of bacteria clusters.
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https://hdl.handle.net/11583/2752734