Lamb waves propagating in an infinite plate containing a circular hole, wit
h or without edge cracks, are investigated both theoretically and experimen
tally in this paper. The theoretical analysis is accomplished by means of a
hybrid method called the global local finite element method, in which a bo
unded region enclosing the hole and the cracks is discretized into finite e
lements, while the field external to this region is represented analyticall
y in terms of Lamb wave modes. The scattered field is calculated through th
e application of the boundary conditions at the interface between the discr
etized region and the unbounded exterior. In the experiments the incident L
amb wave of a specific mode is generated by means of a wedge transducer and
the waves scattered by the hole is recorded in conventional contact type t
ransducers located on the plate surface. The measured time histories and am
plitude spectra of the transmitted and reflected waves are compared with th
ose calculated from the hybrid model. The agreement between the theoretical
and experimental results is found to be excellent in the cases considered.
Application of the technique to non-destructive evaluation (NDE) of corros
ion and fatigue induced defects in aging structural components is discussed
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