Hostname: page-component-848d4c4894-ndmmz Total loading time: 0 Render date: 2024-05-14T21:35:45.755Z Has data issue: false hasContentIssue false
  • English
  • Français

Non-destructive testing of metallic materials using passive and active infrared thermography

Published online by Cambridge University Press:  20 June 2014

P. Bouteille ,
G. Legros ,
H. Walaszek  and
J.L. Bodnar
P. Bouteille*
Affiliation:
CETIM, 52, avenue Félix Louat, 60300 Senlis, France
G. Legros
Affiliation:
CETIM, 52, avenue Félix Louat, 60300 Senlis, France
H. Walaszek
Affiliation:
CETIM, 52, avenue Félix Louat, 60300 Senlis, France
J.L. Bodnar
Affiliation:
GRESPI, UFR Sciences Exactes et Naturelles, BP 1039, 51687 Reims Cedex 2, France
*
a Corresponding author:patrick.bouteille@cetim.fr
Get access

Abstract

In this work, we approach the possibilities of infrared thermography for non-destructive testing of metallic materials. We show that the passive alternative of the method makes it possible to improve detection of surface defects existing in deep-drawn parts and visible to the naked eye. We then show that active infrared thermography, in particular coupled with induction excitation, can replace in certain cases the magnetic particle inspection, allowing the detection of very fine defects in forged parts. Finally, the study of a stepped block confirms the possibilities of active infrared thermography to detect defects not open to the surface and underlying defects.

Keywords

Non destructive testinginfrared thermographydefect detectionmetallic samplesindustrial samples
Type
Research Article
Information
Mechanics & Industry , Volume 15 , Issue 4 , 2014 , pp. 313 - 321
Copyright
© AFM, EDP Sciences 2014

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

D. Pajani, Mesure par thermographie infrarouge, Chap. 8 – Les applications de la thermographie, p. 331, 1989, ISBN: 2-9504171-0-8
D. Pajani, Mesure par thermographie infrarouge, Chap. 1 – Introduction, 1989, p. 11, ISBN: 2-9504171-0-8
X. Maldague, Theory and practice of infrared technology for non-destructive testing, Ed. Willey, 2001, ISBN: 0-471-18190-0
Bodnar, J.L., Edée, M., Wear characterization by photothermal radiometry, Wear 196 (1996) 5459 CrossRefGoogle Scholar
Bodnar, J.L., Edée, M., Menu, C., Besnard, R., Le Blanc, A., Pigeon, M., Sellier, J.Y., Cracks detection by a moving photothermal probe, J. Phys. IV 4 (1994) C7-592 Google Scholar
Walther, H.G., Fournier, D., Krapez, J.C., Luukkala, M., Schmitz, B., Sibilia, C., Stamm, H., Thoen, J., Photothermal Steel Hardness Measurements – Results and Perspectives, Anal. Sci. 17 (2001) s158s160 Google Scholar
Zweschper, Th., Dillenz, A., Riegert, G., Scherling, D., Busse, G., Ultrasound excited thermography using frequency modulated elastic waves, Insight 45 (2003) 178182 CrossRefGoogle Scholar
Vrana, J., Goldammer, M., Baumann, J., Rothenfusser, M., Arnold, W., Mechanisms and Models for Crack Detection with Induction Thermography, Rev. Prog. QNDE 27 (2008) 475482 Google Scholar
H. Mooshofer, M. Goldammer, W. Heine, M. Rothenfusser, J. Bass, E. Lombardo, J. Vrana, Induktionsthermographie zur automatischen Prüfung von Generatorkomponenten, DGZfP-Jahrestagung 2009, Münster, Allemagne, 2009
Bamberg, J., Erbeck, G., Zenzinger, G., EddyTherm: Ein Verfahren zur bildgebenden Rißprüfung metallischer Bauteile, ZfP-Zeitung 68 (1999) 6062 Google Scholar
G. Riegert, Th. Zweschper, A. Dillenz, G. Busse, Wirbelstromangeregte Lockin-Thermografie – Prinzip und Anwendungen, DACH – Jahrestagung 2004 Salzburg, http://www.ndt.net/article/dgzfp04/papers/v90/v90.htm
J.L. Bodnar, K. Mouhoubi, G. Szatanik-Perrier, J.M. Vallet, V. Detalle, Photothermal thermography applied to the non-destructive testing of different types of works of art, IJOT, DOI: 10.1007/s10765-012-1301-2
Bodnar, J.L., Contrôle optique des matériaux par radiométrie photothermique aléatoire infrarouge, Revue de l’électricité et de l’électronique 2 (2007) 6874 Google Scholar
Maldague, X., Introduction to NDT by active infrared thermography, Mater. Evaluation 6 (2002) 10601073 Google Scholar
S. Maillard, J. Cadith, Walaszek H., Bodnar J.L., La thermographie infrarouge active et ses nouvelles applications aux matériaux métalliques, COFREND congress proceedings, Dunkerque, France, 2011
S. Maillard, J. Cadith, G. Legros, P. Bouteille, H. Walaszek, J.L. Bodnar, Contrôle de matériaux métalliques par thermographie active, Thermogram congress proceedings, Chalons en Champagne France, 2011
S. Maillard, J. Cadith, D. Eschimese, H. Walaszek, H. Mooshofer, J.C. Candore, J.L. Bodnar, Towards the use of passive and active infrared thermography to inspect metallic components in the mechanical industry, QIRT congress proceedings, Laval, Quebec, 2010
S. Maillard, J. Cadith, H. Walaszek, J.L. Bodnar, Contrôle non destructif de matériaux métalliques par thermographie infrarouge active, Mesures et Techniques Optiques pour l’Industrie, Lille France, 2011
P. Bouteille, G. Legros, S. Maillard, J. Cadith, J.L. Bodnar, Induction active thermography as an alternative to magnetic particle inspection, QIRT congress proceeding, Naples, Italie, 2012
S. Maillard, J. Cadith, P. Bouteille, G. Legros, J.L. Bodnar, V. Detalle, Non-destructive testing of forged metallic materials by active infrared thermography, IJOT, DOI: 10.1007/s10765-012-1275-0