Cure cycle effect on impact resistance under elevated temperatures in carbon prepreg laminates investigated using acoustic emission
Cure cycle effect on impact resistance under elevated temperatures in carbon prepreg laminates investigated using acoustic emission
Voids in composites have been a perennial problem, since the amount of porosities is deemed to bear a strong relation with the degradation of service performance of laminates. On the other side, the effect of porosity on impact resistance of laminates is often dependant on their distribution in the material, especially with respect to the location and severity of impact damage in it. In this study, the influence of void content percentage on the residual flexural strength of CFRP laminates impacted at very low energy, in the region of 1 J, at different temperatures was investigated. Laminates were fabricated using 16 layers of Cycom 977-2 prepreg material in a [0/90/90/0]2S layup with different void contents in the range from 1 to 7% by varying cure conditions. Low velocity impact tests were conducted on three categories of laminates, defined as high pressure cured, low pressure debulked and low pressure non debulked respectively, each of these at ambient temperature (30 °C) and elevated temperatures of 50, 70 and 90 °C. Post-impact residual flexural strength of the laminates was measured by three-point bending tests followed in real time by acoustic emission (AE) monitoring. From the separation of frequency bands and of their amplitude levels, identification of the different failure modes, such as matrix cracking, delamination and fibre failure, was performed. The results indicated that in the case of very low impact energy high porosity laminates, such as non debulked ones, may possess slightly higher residual flexural strength and an enhanced delamination resistance with respect to debulked ones.
carbon fibre, impact behaviour, acoustic emission, cure, damage characterisation
298-306
Kakakasery, J.
464d4fcd-298d-4630-8a1e-2959d9ae0d17
Arumugam, V.
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Abdul Rauf, K.
80eba76a-885b-4e0e-9fe1-455cf9e855fe
Bull, D.J.
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Chambers, A.R.
74fa9b7e-6362-478e-a038-15f2828c5446
Scarponi, C.
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Santulli, C.
ec0be24d-db9f-46a6-9f41-1b89d7529212
15 June 2015
Kakakasery, J.
464d4fcd-298d-4630-8a1e-2959d9ae0d17
Arumugam, V.
d42b6b9f-19e6-48b5-adde-8d271dde2eb9
Abdul Rauf, K.
80eba76a-885b-4e0e-9fe1-455cf9e855fe
Bull, D.J.
3569ba02-89de-4398-a14d-02c3f9b4eab2
Chambers, A.R.
74fa9b7e-6362-478e-a038-15f2828c5446
Scarponi, C.
fa2c0e33-fb9a-4460-b6d8-c471efb83ad2
Santulli, C.
ec0be24d-db9f-46a6-9f41-1b89d7529212
Kakakasery, J., Arumugam, V., Abdul Rauf, K., Bull, D.J., Chambers, A.R., Scarponi, C. and Santulli, C.
(2015)
Cure cycle effect on impact resistance under elevated temperatures in carbon prepreg laminates investigated using acoustic emission.
Composites Part B: Engineering, 75, .
(doi:10.1016/j.compositesb.2015.02.002).
Abstract
Voids in composites have been a perennial problem, since the amount of porosities is deemed to bear a strong relation with the degradation of service performance of laminates. On the other side, the effect of porosity on impact resistance of laminates is often dependant on their distribution in the material, especially with respect to the location and severity of impact damage in it. In this study, the influence of void content percentage on the residual flexural strength of CFRP laminates impacted at very low energy, in the region of 1 J, at different temperatures was investigated. Laminates were fabricated using 16 layers of Cycom 977-2 prepreg material in a [0/90/90/0]2S layup with different void contents in the range from 1 to 7% by varying cure conditions. Low velocity impact tests were conducted on three categories of laminates, defined as high pressure cured, low pressure debulked and low pressure non debulked respectively, each of these at ambient temperature (30 °C) and elevated temperatures of 50, 70 and 90 °C. Post-impact residual flexural strength of the laminates was measured by three-point bending tests followed in real time by acoustic emission (AE) monitoring. From the separation of frequency bands and of their amplitude levels, identification of the different failure modes, such as matrix cracking, delamination and fibre failure, was performed. The results indicated that in the case of very low impact energy high porosity laminates, such as non debulked ones, may possess slightly higher residual flexural strength and an enhanced delamination resistance with respect to debulked ones.
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More information
Accepted/In Press date: 2 February 2015
e-pub ahead of print date: 11 February 2015
Published date: 15 June 2015
Keywords:
carbon fibre, impact behaviour, acoustic emission, cure, damage characterisation
Organisations:
Engineering Science Unit
Identifiers
Local EPrints ID: 376363
URI: http://eprints.soton.ac.uk/id/eprint/376363
ISSN: 1359-8368
PURE UUID: 2553c5ae-efca-4148-8666-cb1ab1f4d138
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Date deposited: 27 Apr 2015 10:17
Last modified: 14 Mar 2024 19:40
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Contributors
Author:
J. Kakakasery
Author:
V. Arumugam
Author:
K. Abdul Rauf
Author:
A.R. Chambers
Author:
C. Scarponi
Author:
C. Santulli
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