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2018-12-01 - Article/Dans un journal avec peer-review - Anglais - 7 page(s)

Khathyri Fatima, Elkihel Bachir, Delaunois Fabienne , "Non-Destructive Testing by Ultrasonic and Thermal Techniques of an Impacted Composite Material" in International Journal on Advanced Science, Engineering and Information Technology, 8, 6, 2360-2366

  • Edition : Indonesian Society for Knowledge and Human Development (INSIGHT)
  • Codes CREF : Métallurgie (DI2310), Résistance et comportement des matériaux (DI2110), Essais non destructifs (DI2832)
  • Unités de recherche UMONS : Métallurgie (F601)
  • Instituts UMONS : Institut de Recherche en Science et Ingénierie des Matériaux (Matériaux)
  • Centres UMONS : Ingénierie des matériaux (CRIM)
Texte intégral :

Abstract(s) :

(Anglais) The aim of this work is to control the state of the structure of a composite material after low velocity impact. In fact, the impact damage is one of the most critical flaws that can reduce the intrinsic characteristics of a composite structure drastically. The diagnostic of composite laminates in this case will be very difficult, because during impact several modes of failure appear (matrix carking, delamination and fiber breakage), and it can be often not visible on the surface. For this reason it will be necessary to use the non-destructive techniques (NDT) of control to make sure of the state of the material without damaging it. This paper presents some methods of control to detect and characterize defects appeared after low velocity impact on a hybrid composite plate of epoxy resin reinforced with carbon fiber. The methods used in this work are considered among the most used in the control of composite material. Indeed, each technique has advantages and disadvantages. Therefore, the use of several control techniques ensures the diagnosis, so we talk about the complementarity of techniques. For this reason, the following methodology is followed. First of all, a quick and general control is performed of the whole specimen to designate the damaged area using the infrared technique. After that, the ultrasonic technique (phazed array) is performed in the previously localized area for finer results. Finally, for validating the precision of the results obtained by the ultrasonic technique a metallurgy study is used. The methodology followed in this work will allow us a fast and precise control.

Mots-clés :
  • (Anglais) Infrared
  • (Anglais) diagnostic
  • (Anglais) composite laminates
  • (Anglais) ultrasound
  • (Anglais) non-destructive techniques
  • (Anglais) metallurgy
  • (Anglais) low velocity impact