Characterization of defects of pulsed thermography inspections by orthogonal polynomial decomposition

C. A. Alvarez-Restrepo; H. D. Benitez-Restrepo; L. E. Tobón

doi:10.1016/j.ndteint.2017.05.003

Characterization of defects of pulsed thermography inspections by orthogonal polynomial decomposition

C. A. Alvarez-Restrepo, H. D. Benitez-Restrepo, L. E. Tobón

Universidad Javeriana

Producción: Contribución a una revista › Artículo › revisión exhaustiva

31 Citas (Scopus)

Resumen

Methods in infrared nondestructive testing such as normalized thermal contrast (NTC) and thermal signal reconstruction (TSR) are based on a pixel-by-pixel time domain analysis that ignores spatial correlation. Other techniques in the frequency domain such as pulsed phase thermography (PPT) present the same disadvantage. In this paper, we propose a method to evaluate defects in composite specimens based on image decomposition into a 2D orthogonal space. We compare NTC, TSR, PPT, and principal component thermography (PCT) with the new approach by inspecting three samples of composite anisotropic materials. Without defining a sound area our method estimates the depths of defects up to 1.2 mm in carbon and glass reinforced plastic specimens. An implementation of the proposed method in Matlab is available at https://github.com/charlielito/2DOrthogonal_Polynomial_Decomposition.

Idioma original	Inglés
Páginas (desde-hasta)	9-21
Número de páginas	13
Publicación	NDT and E International
Volumen	91
DOI	https://doi.org/10.1016/j.ndteint.2017.05.003
Estado	Publicada - oct. 2017

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title = "Characterization of defects of pulsed thermography inspections by orthogonal polynomial decomposition",

abstract = "Methods in infrared nondestructive testing such as normalized thermal contrast (NTC) and thermal signal reconstruction (TSR) are based on a pixel-by-pixel time domain analysis that ignores spatial correlation. Other techniques in the frequency domain such as pulsed phase thermography (PPT) present the same disadvantage. In this paper, we propose a method to evaluate defects in composite specimens based on image decomposition into a 2D orthogonal space. We compare NTC, TSR, PPT, and principal component thermography (PCT) with the new approach by inspecting three samples of composite anisotropic materials. Without defining a sound area our method estimates the depths of defects up to 1.2 mm in carbon and glass reinforced plastic specimens. An implementation of the proposed method in Matlab is available at https://github.com/charlielito/2DOrthogonal_Polynomial_Decomposition.",

keywords = "Defect depth, Inverse problems, Orthogonal decomposition, Pulsed thermography, Time-resolved methods",

author = "Alvarez-Restrepo, {C. A.} and Benitez-Restrepo, {H. D.} and Tob{\'o}n, {L. E.}",

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doi = "10.1016/j.ndteint.2017.05.003",

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AU - Alvarez-Restrepo, C. A.

AU - Benitez-Restrepo, H. D.

AU - Tobón, L. E.

PY - 2017/10

Y1 - 2017/10

N2 - Methods in infrared nondestructive testing such as normalized thermal contrast (NTC) and thermal signal reconstruction (TSR) are based on a pixel-by-pixel time domain analysis that ignores spatial correlation. Other techniques in the frequency domain such as pulsed phase thermography (PPT) present the same disadvantage. In this paper, we propose a method to evaluate defects in composite specimens based on image decomposition into a 2D orthogonal space. We compare NTC, TSR, PPT, and principal component thermography (PCT) with the new approach by inspecting three samples of composite anisotropic materials. Without defining a sound area our method estimates the depths of defects up to 1.2 mm in carbon and glass reinforced plastic specimens. An implementation of the proposed method in Matlab is available at https://github.com/charlielito/2DOrthogonal_Polynomial_Decomposition.

AB - Methods in infrared nondestructive testing such as normalized thermal contrast (NTC) and thermal signal reconstruction (TSR) are based on a pixel-by-pixel time domain analysis that ignores spatial correlation. Other techniques in the frequency domain such as pulsed phase thermography (PPT) present the same disadvantage. In this paper, we propose a method to evaluate defects in composite specimens based on image decomposition into a 2D orthogonal space. We compare NTC, TSR, PPT, and principal component thermography (PCT) with the new approach by inspecting three samples of composite anisotropic materials. Without defining a sound area our method estimates the depths of defects up to 1.2 mm in carbon and glass reinforced plastic specimens. An implementation of the proposed method in Matlab is available at https://github.com/charlielito/2DOrthogonal_Polynomial_Decomposition.

KW - Defect depth

KW - Inverse problems

KW - Orthogonal decomposition

KW - Pulsed thermography

KW - Time-resolved methods

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VL - 91

SP - 9

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JO - NDT and E International

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Characterization of defects of pulsed thermography inspections by orthogonal polynomial decomposition

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