"In this work, the combined effect of indentation damage and of manufacturing defects of a hybrid laminate including jute. hessian cloth (plain weave) and hemp fibres in an epoxy matrix has been investigated. With this aim, various non-destructive evaluation (NDE). techniques have been employed, such as near-infrared (NIR) reflectography, infrared thermography (IRT), holographic interferometry (HI). and digital speckle photography (DSP). In particular, two different methods of heating were applied during IRT data collection: pulse. thermography and square pulse thermography (SPT). The first one using a mid-wave infrared (IR) camera, while the second one using a longwave. IR camera. In the same way, two different cameras working into the near- and short-wave IR spectra were used, to compare different. results from 0.74 to 14 lm. Data were processed applying principal component thermography (PCT), correlation and the robust secondorder. blind identification (SOBI-RO) algorithms. The latter is used for the first time to our knowledge in this work. The defects found were. enhanced by image subtraction between the reflectogram and the transmittogram, distance transform and image fusion. In particular, data. fusion from IRT and DPS images allowed clearly defining the extension of the indentation damage."
Eco-friendly laminates: from the indentation to non-destructive evaluation by optical and infrared monitoring techniques
SFARRA, STEFANO
;AMBROSINI, DARIO;PAOLETTI, Domenica;
2013-01-01
Abstract
"In this work, the combined effect of indentation damage and of manufacturing defects of a hybrid laminate including jute. hessian cloth (plain weave) and hemp fibres in an epoxy matrix has been investigated. With this aim, various non-destructive evaluation (NDE). techniques have been employed, such as near-infrared (NIR) reflectography, infrared thermography (IRT), holographic interferometry (HI). and digital speckle photography (DSP). In particular, two different methods of heating were applied during IRT data collection: pulse. thermography and square pulse thermography (SPT). The first one using a mid-wave infrared (IR) camera, while the second one using a longwave. IR camera. In the same way, two different cameras working into the near- and short-wave IR spectra were used, to compare different. results from 0.74 to 14 lm. Data were processed applying principal component thermography (PCT), correlation and the robust secondorder. blind identification (SOBI-RO) algorithms. The latter is used for the first time to our knowledge in this work. The defects found were. enhanced by image subtraction between the reflectogram and the transmittogram, distance transform and image fusion. In particular, data. fusion from IRT and DPS images allowed clearly defining the extension of the indentation damage."Pubblicazioni consigliate
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