Nondestructive evaluation of low-velocity impact-induced damage in basalt-carbon hybrid composite laminates using eddy current-pulsed thermography

摘要

Hai Zhang$1$2Stefano Sfarra$3$4Ahmad Osman$2$5Fabrizio Sarasini$6Udo Netzelmann$2Bernd Valeske$2$5Nicolas P. Avdelidis$1$7Clemente Ibarra-Castanedo$1Xavier Maldague$1 $1Laval University, Department of Electrical and Computer Engineering, Computer Vision and Systems Laboratory (CVSL), Quebec City, Canada$2Fraunhofer-lnstitute for Nondestructive Testing IZFP, Department of Inspection of Components and Assemblies, Saarbruecken, Germany$3University of L'Aquila, Department of Industrial and Information Engineering and Economics, L'Aquila, Italy$4Tomsk Polytechnic University, Tomsk, Russia$5University of Applied Sciences Saarland, htw saar, Saarbruecken, Germany$6Sapienza University of Rome, Department of Chemical Engineering Materials Environment and UDR INSTM, Rome, Italy$7Aerospace Integration Research Centre (AIRC), Cranfield, United Kingdom; hai.zhang.1 @ulaval.ca;;;;;;;; Recently, basalt-carbon hybrid composite structures have attracted increasing attention due to their better damage tolerance, if compared with carbon fiber-reinforced polymer composites (CFRP). Low-velocity is considered as one of the most severe threats to composite materials as it is usually invisible and it occurs frequently in service. With this regard, nondestructive testing (NDT) techniques, especially emerging modalities, are expected to be an effective damage detection method. Eddy current-pulsed thermography (ECPT), as an emerging NDT technique, was used to evaluate the damage induced by low-velocity impact loading in a CFRP laminate, as well as in two different-structured basalt-carbon hybrid composite laminates. In addition, ultrasonic C-scan and x-ray computed tomography were performed to validate the thermographic results. Pulsed phase thermography, principal component thermography, and partial least squares thermography were used to process the thermal data and to retrieve the damage imagery. Then, a further analysis was performed on the imagery and temperature profile. As a result, it is concluded that ECPT is an effective technique for hybrid composite evaluation. The impact energy tends to create an interlaminar damage in a sandwich-like structure, while it tends to create an intralaminar damage in an intercalated stacking structure. eddy current pulsed thermography; composite; basa carbon; nondestructive testing.