Flash infrared thermography efficient detection of production defects in a cfrp aircraft component by means of flash infrared thermography
- Author
- Gaétan Poelman (UGent) , Saeid Hedayatrasa (UGent) , Joost Segers, Wim Van Paepegem (UGent) and Mathias Kersemans (UGent)
- Organization
- Project
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- DETECT-IV: Model-supported development of nondestructive testing (NDT) methods for detecs DETECTion in composite parts with Industrial complexity and Volume production
- Automated NDT of Industrial Composite Parts by Enhanced Optical Infrared Thermography
- Investigation to Local Defect Resonance (LDR) for Non-Destructive Evaluation of Composites: Experiment & Simulation
- Single-Sided Ultrasonic Characterization of (Damaged) Composites having Mechanical and/or Geometrical Anisotropy
- Abstract
- Flash thermography is a promising technique to perform quick and non-contact non-destructive testing of composite materials. However, several limitations such as non-uniform heating and lateral heat diffusion complicate the accurateness of this technique. This paper presents an experimental case study of flash thermography for the non-destructive testing of a CFRP component of an aircraft with production defects. Three post-processing techniques, namely Differential Absolute Contrast (DAC), Pulsed Phase Thermography (PPT) and Principal Component Thermography (PCT), are applied to the recorded dataset. A qualitative comparison between these processing techniques is performed based on their defect enhancement capabilities in a component with industrial complexity.
- Keywords
- CONTRAST
Downloads
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SAMPE 2020 GaetanPoelman TechnicalPaper vFinal2.pdf
- full text (Accepted manuscript)
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Citation
Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-01HTHW71DD34ZRXJW8WH258BQZ
- MLA
- Poelman, Gaétan, et al. “Flash Infrared Thermography Efficient Detection of Production Defects in a Cfrp Aircraft Component by Means of Flash Infrared Thermography.” SAMPE JOURNAL, vol. 58, no. 3, 2022, pp. 10–16.
- APA
- Poelman, G., Hedayatrasa, S., Segers, J., Van Paepegem, W., & Kersemans, M. (2022). Flash infrared thermography efficient detection of production defects in a cfrp aircraft component by means of flash infrared thermography. SAMPE JOURNAL, 58(3), 10–16.
- Chicago author-date
- Poelman, Gaétan, Saeid Hedayatrasa, Joost Segers, Wim Van Paepegem, and Mathias Kersemans. 2022. “Flash Infrared Thermography Efficient Detection of Production Defects in a Cfrp Aircraft Component by Means of Flash Infrared Thermography.” SAMPE JOURNAL 58 (3): 10–16.
- Chicago author-date (all authors)
- Poelman, Gaétan, Saeid Hedayatrasa, Joost Segers, Wim Van Paepegem, and Mathias Kersemans. 2022. “Flash Infrared Thermography Efficient Detection of Production Defects in a Cfrp Aircraft Component by Means of Flash Infrared Thermography.” SAMPE JOURNAL 58 (3): 10–16.
- Vancouver
- 1.Poelman G, Hedayatrasa S, Segers J, Van Paepegem W, Kersemans M. Flash infrared thermography efficient detection of production defects in a cfrp aircraft component by means of flash infrared thermography. SAMPE JOURNAL. 2022;58(3):10–6.
- IEEE
- [1]G. Poelman, S. Hedayatrasa, J. Segers, W. Van Paepegem, and M. Kersemans, “Flash infrared thermography efficient detection of production defects in a cfrp aircraft component by means of flash infrared thermography,” SAMPE JOURNAL, vol. 58, no. 3, pp. 10–16, 2022.
@article{01HTHW71DD34ZRXJW8WH258BQZ, abstract = {{Flash thermography is a promising technique to perform quick and non-contact non-destructive testing of composite materials. However, several limitations such as non-uniform heating and lateral heat diffusion complicate the accurateness of this technique. This paper presents an experimental case study of flash thermography for the non-destructive testing of a CFRP component of an aircraft with production defects. Three post-processing techniques, namely Differential Absolute Contrast (DAC), Pulsed Phase Thermography (PPT) and Principal Component Thermography (PCT), are applied to the recorded dataset. A qualitative comparison between these processing techniques is performed based on their defect enhancement capabilities in a component with industrial complexity.}}, author = {{Poelman, Gaétan and Hedayatrasa, Saeid and Segers, Joost and Van Paepegem, Wim and Kersemans, Mathias}}, issn = {{0091-1062}}, journal = {{SAMPE JOURNAL}}, keywords = {{CONTRAST}}, language = {{eng}}, number = {{3}}, pages = {{10--16}}, title = {{Flash infrared thermography efficient detection of production defects in a cfrp aircraft component by means of flash infrared thermography}}, volume = {{58}}, year = {{2022}}, }