J. Bieniaś scite author profile

This article presents the low-velocity impact response of fiber metal laminates, based on aluminum with a polymer composite, reinforced with carbon and glass fibers. The influence of fiber orientations as well as analysis of load-time history, damage area and damage depth in relation to different energy levels is presented and discussed. The obtained results made it possible to determine characteristic points, which may be responsible for particular stages of the laminate structure degradation process: local microcracks and delaminations, leading to a decrease in the stiffness of the laminate, as well as further damage represented by laminate cracks and its perforation. The damage mechanism of fiber metal laminates is rather complex. In case of carbon fiber laminates, a higher tendency to perforation was observed in comparison to laminates containing glass fibers. Delaminations in composite interlayers and at the metal/composite interface constitute a significant damage form of fiber metal laminates resulting from dynamic loads. Fiber metal laminates with glass fibers absorb energy mainly through plastic deformation as well as through delamination initiation and propagation, whereas laminates containing carbon fibers absorb energy for penetration and perforation of the laminate. POLYM. COMPOS.,

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Interface analysis of fiber metal laminates

Ostapiuk

Surowska

Bieniaś

2013

Composite Interfaces

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Residual fatigue life of carbon fibre aluminium laminates

Dadej

Bieniaś

Surowska

2017

International Journal of Fatigue

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Impact damage growth in carbon fibre aluminium laminates

Bieniaś

Jakubczak

2017

Composite Structures

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J. Bieniaś

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Low-energy impact behaviour and damage characterization of carbon fibre reinforced polymer and aluminium hybrid laminates

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The comparison of low‐velocity impact resistance of aluminum/carbon and glass fiber metal laminates

Interface analysis of fiber metal laminates

Residual fatigue life of carbon fibre aluminium laminates

Impact damage growth in carbon fibre aluminium laminates

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