In this paper, the impact behavior of repaired cracked plates was investigated
experimentally. single edge cracked aluminum plate having crack length to width ratios of 0.1, 0.3
and 0.5 was repaired with four different patch configurations namely: 3 layer GRP, 5 layer GRP
patch, 2/1 FML patch and 3/2 FML patches tested in Charpy impact and the energy absorbed by
specimens were compared together and compared with the unrepaired cracked plate. FML patches
were made of thin layers of glass/epoxy composites of 0.2 mm thickness with phosphor bronze
sheets of 0.2 mm thickness. The patching was single side. The composite and FML patching was
more effective in repairing the specimens with greater crack length. Placing 3 GRP and 5 GRP
patches increased the absorbed energy by only 3 to 4 joules respectively as compared to unrepaired
plate. The use of 2/1 and 3/2 FML patches could increase the absorbed energy two to four times
depend on crack length.
Interfacial delamination has become one of the key reliability issues in the microelectronic industry and therefore is getting more and more attention.
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