In order to join a composite structure to a metallic structure, metal-wire mats were co-cured with composite laminas using the vacuum assisted resin transfer molding technique. Then, interface fracture toughness was measured for Mode II fracture for various lay-up and interface conditions. The study included interfaces of metal-wire to composite, composite to composite, and metal-wire to metal-wire. In addition, the lay-up orientations of metal-wire mats were varied between 0 deg and 90 deg. This study also examined the crack propagation from a composite to a metal/composite interface. During the test, the digital image correlation technique was applied to capture the strain field around the crack tip. The results suggested that a hybrid metal-wire/composite laminate would be effective to connect a composite structure to a metallic structure as long as some critical interface conditions were avoided.

Issue Section:
Research Papers
Keywords:
hybrid joint, composite and metal-wire interface, fracture toughness, sliding mode (Mode II), cracks, fracture, laminates, ships, transfer moulding, underwater vehicles, wires
Topics:
Composite materials, Fracture (Materials), Metals, Wire, Glass, Fracture toughness
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