10 April 2009 Damage state evaluation of adhesive composite joints using chaotic ultrasonic waves
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Abstract
Ultrasonic chaotic excitations combined with sensor prediction algorithms have shown the ability to identify incipient damage (loss of preload) in a bolted joint. In this study we examine the capability of this damage detection scheme to identify disbonds and poorly cured bonds in a composite-to-composite adhesive joint. The test structure consists of a carbon fiber reinforced polymer (CFRP) plate that has been bonded to a CFRP rectangular tube/spar with several sizes of disbond as well as a poorly cured section. Each excitation signal is imparted to the CFRP plate through a macro-fiber composite (MFC) patch on one side of the adhesive joint and sensed using an equivalent MFC patch on the opposite side of the joint. A novel statistical classification feature is developed from information theory concepts of cross-prediction and interdependence. Temperature dependence of this newly developed feature will also be examined.
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Timothy R. Fasel, Timothy R. Fasel, Michael D. Todd, Michael D. Todd, Gyuhae Park, Gyuhae Park, } "Damage state evaluation of adhesive composite joints using chaotic ultrasonic waves", Proc. SPIE 7295, Health Monitoring of Structural and Biological Systems 2009, 729511 (10 April 2009); doi: 10.1117/12.815969; https://doi.org/10.1117/12.815969
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