Title :
Modal analysis for characterization of fatigue cracks in thin metal plates
Author :
Wincheski, B. ; Namkung, M.
Author_Institution :
Analytical Services & Materials Inc., Hampton, VA, USA
Abstract :
Detailed experimental investigation and numerical analysis were performed to characterize fatigue cracks in thin aluminum alloys by a low-frequency resonant modal analysis technique. The resonance frequency of plates modes is altered by the presence of fatigue cracks. This frequency shift was analyzed using a finite element approach and the results were compared to experimental data. Acoustic sensors were used to detect the fatigue cracks which were stimulated by standing waves in 0.1-cm aluminum alloy plates. The response of several different sensors to the crack noise was studied, as was the response at higher order modes. It was found that critical crack information can be obtained from the amplitude and phase of the emitted signal with respect to that of the external driving force
Keywords :
acoustic emission testing; aluminium alloys; crack detection; fatigue cracks; finite element analysis; 0.1 cm; acoustic sensors; crack noise; critical crack information; emitted signal amplitude; emitted signal phase; external driving force; fatigue cracks; finite element approach; frequency shift; higher order modes; low-frequency resonant modal analysis; resonance frequency; standing waves; thin Al alloys; thin metal plates; Acoustic noise; Acoustic sensors; Acoustic signal detection; Aluminum alloys; Fatigue; Finite element methods; Modal analysis; Numerical analysis; Resonance; Resonant frequency;
Conference_Titel :
Ultrasonics Symposium, 1991. Proceedings., IEEE 1991
Conference_Location :
Orlando, FL
DOI :
10.1109/ULTSYM.1991.234276
