Optimization of thermal joint behaviour for the detection of bonding defects by infrared thermography
Language
en
Communication dans un congrès avec actes
This item was published in
Proceedings of PhotoMechanics 2018, PhotoMechanics 2018, 2018-03-19, Toulouse. 2018-03p. 0
English Abstract
This study intends to develop the use of bonded solutions for the repair of primary aircraft structures. We propose in this way a new NDT procedure by Infrared Thermography in order to be able to detect internal bonding ...Read more >
This study intends to develop the use of bonded solutions for the repair of primary aircraft structures. We propose in this way a new NDT procedure by Infrared Thermography in order to be able to detect internal bonding defects. Difficulties come from the weak thermal contrast between the properties of the constitutive parts of the repair and, above all, the small thickness of the joint and the depth of the bonded interfaces The strategy consists in designing the joint material in view of the non destructive thermal inspection, specially by introducing boron nitride particles within the epoxy joint to enhance the thermal gradients.Read less <
English Keywords
CFRP laminates
Bonding defects
Infrared thermography
Thermal properties
Material design
Origin
Hal imported