Abstract
This study focuses on the three-dimensional (3D) scattering characteristics of the fundamental anti-symmetric (A0) Lamb wave at a delamination in composite laminates. The understanding of the scattering characteristics plays an important role in the application of Lamb wave based damage detection techniques. One critical factor affecting the performance of Lamb wave based damage detection techniques is the angular distribution of the scattered wave amplitudes at the delamination. Analytical solutions for this problem do not exist due to the anisotropic nature and multilayer characteristics of composite laminates. This paper employs a 3D finite element method to analyse the A 0 mode Lamb wave scattering characteristics at delaminations. Good agreement is found between the simulations and experimental measurements. Extended parameter studies show that the angular distribution of the scattered wave amplitudes depends on the stacking sequence of the laminates, the damage size to wavelength ratio and the through-thickness location of delamination. The results of these studies provide improved physical insight into the scattering phenomena at a delamination, which can be used to validate and improve the performance of Lamb wave based damage detection methods by selecting transducer locations and excitation frequency. The study also investigates the feasibility of simulating delamination damage by bonding masses to the surface of composite laminates for Lamb wave based damage detection and characterisation methodologies verification. The results suggest that simulating delamination damage by bonded masses requires careful design and is not as straight forward as suggested in the literature.
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Notes on contributors
C T Ng
Dr Ching-Tai Ng received his BEng and MPhil degrees in structural engineering from City University of Hong Kong in 2005 and 2007, respectively. He completed his PhD degree in the School of Mechanical and Mining Engineering at the University of Queensland in 2011, and is now a lecturer in the School of Civil, Environmental and Mining Engineering at the University of Adelaide. His current research focuses are structural health monitoring, system identification and guided wave propagation.
M Veidt
Dr Martin Veidt is an Associate Professor in the Division of Mechanical Engineering at the University of Queensland in Brisbane, Australia. He received his PhD in 1991 from the Swiss Federal Institute of Technology in Zurich, Switzerland. His area of expertise and research focus is continuum mechanics, with a special focus on guided wave ultrasonics, stress analysis and fibre-reinforced composites.