Bursting and bulging of carbon fibre composite discs

Multi-directional discs of carbon fibre-reinforced plastics were subjected to transverse dynamic loading by their own inertia. This was obtained using a machine with a spring-loaded arm which accelerated the disc and ring to a velocity of up to 30 m/s. The ring was arrested by impinging against a ri...

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Published in:Composites 1982-01, Vol.13 (4), p.383-388
Main Authors: Austin, C.D., Johnson, W., Walters, B.J.
Format: Article
Language:English
Subjects:
bursting mechanism
carbon fibre composite discs
composite materials
impact testing
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creator Austin, C.D.
Johnson, W.
Walters, B.J.
description Multi-directional discs of carbon fibre-reinforced plastics were subjected to transverse dynamic loading by their own inertia. This was obtained using a machine with a spring-loaded arm which accelerated the disc and ring to a velocity of up to 30 m/s. The ring was arrested by impinging against a rigid anvil which ensured deformation of the disc under its own inertia force. The bursting strength of the composite disc was obtained and, together with high speed photography, the time taken to burst was found. Photography also gave an estimate of the delamination crack propagation speeds once the disc had burst and some insight into the bursting mechanism.
doi_str_mv 10.1016/0010-4361(82)90147-1
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source Backfile Package - Materials Science [YMS]
subjects bursting mechanism
carbon fibre composite discs
composite materials
impact testing
title Bursting and bulging of carbon fibre composite discs
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