Journal
THIN-WALLED STRUCTURES
Volume 170, Issue -, Pages -Publisher
ELSEVIER SCI LTD
DOI: 10.1016/j.tws.2021.108653
Keywords
Spectral Finite Element Method; Wave propagation; Sandwich panel; High Frequency; Debond identification
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A new two-node spectral finite element is proposed to study face sheet-core disbond in a sandwich panel. The numerical results obtained using this element are validated by comparing with commercially available finite element software simulations. The study on wave propagation characteristics and the effect of core damping on waves propagating in the panel are discussed.
A new two-node spectral finite element for a sandwich panel with 13DOF/node is formulated to study the face sheet-core disbond in a sandwich panel. The spectral element formulation results in an exact dynamic stiffness matrix for the element. The study on wave propagation characteristics for both healthy and disbonded sandwich panel is carried out. The numerical results obtained using this spectral element are validated by comparing with the results obtained through simulations using commercially available finite element software. The effect of core damping for waves propagating in both through-thickness and along the length of the panel is clearly demonstrated. The interaction of the waves propagating between the face sheet-core disbond is studied and using numerical examples it is shown that the amplitude change is a measure to identify the disbond whereas the arrival times can be used to estimate the size of the disbond.
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