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On impact damage detection and quantification for CFRP laminates using structural response data only

On impact damage detection and quantification for CFRP laminates using structural response data only
On impact damage detection and quantification for CFRP laminates using structural response data only
The overall purpose of the research is to detect and attempt to quantify impact damage in structures made from composite materials. A study that uses simplified coupon specimens made from a Carbon Fibre Reinforced Polymer (CFRP) prepreg with 11, 12 and 13 plies is presented. PZT sensors were placed at three separate locations in each test specimen to record the responses from impact events. To perform damaging impact tests, an instrumented drop test machine was used and the impact energy was set to cover a range from 0.37 J to 41.72 J. The response signals captured from each sensor were recorded by a data acquisition system for subsequent evaluation. The impacted specimens were examined with an X-ray technique to determine the extent of the damaged areas and it was found that the apparent damaged area grew monotonically with impact energy. A number of simple univariate and multivariate features were extracted from the sensor signals recorded during impact by computing their spectra and calculating frequency centroids. The concept of discordancy from the statistical discipline of outlier analysis is employed in order to separate the responses from non-damaging and damaging impacts. The results show that the potential damage indices introduced here provide a means of identifying damaging impacts from the response data alone.
0888-3270
3135-3152
Sultan, M.T.H.
488c3ab1-e888-4001-97cd-ce2cd9355044
Worden, K.
07522936-fd47-4df2-b75e-c3d297d104b3
Pierce, S.G.
9b618edd-6d5c-42ac-9e0c-f285ba75daa2
Staszewski, W.J.
15188b58-fea6-42bf-8c9a-961434d6813c
Hickey, D.
5a893c7e-477a-4a2d-8539-99086cc6ff64
Dulieu-Barton, J.M.
9e35bebb-2185-4d16-a1bc-bb8f20e06632
Hodzic, A
709e3105-f949-4c33-a476-a39d00778fe0
Sultan, M.T.H.
488c3ab1-e888-4001-97cd-ce2cd9355044
Worden, K.
07522936-fd47-4df2-b75e-c3d297d104b3
Pierce, S.G.
9b618edd-6d5c-42ac-9e0c-f285ba75daa2
Staszewski, W.J.
15188b58-fea6-42bf-8c9a-961434d6813c
Hickey, D.
5a893c7e-477a-4a2d-8539-99086cc6ff64
Dulieu-Barton, J.M.
9e35bebb-2185-4d16-a1bc-bb8f20e06632
Hodzic, A
709e3105-f949-4c33-a476-a39d00778fe0

Sultan, M.T.H., Worden, K., Pierce, S.G., Staszewski, W.J., Hickey, D., Dulieu-Barton, J.M. and Hodzic, A (2011) On impact damage detection and quantification for CFRP laminates using structural response data only. Mechanical Systems and Signal Processing, 25 (8), 3135-3152. (doi:10.1016/j.ymssp.2011.05.014).

Record type: Article

Abstract

The overall purpose of the research is to detect and attempt to quantify impact damage in structures made from composite materials. A study that uses simplified coupon specimens made from a Carbon Fibre Reinforced Polymer (CFRP) prepreg with 11, 12 and 13 plies is presented. PZT sensors were placed at three separate locations in each test specimen to record the responses from impact events. To perform damaging impact tests, an instrumented drop test machine was used and the impact energy was set to cover a range from 0.37 J to 41.72 J. The response signals captured from each sensor were recorded by a data acquisition system for subsequent evaluation. The impacted specimens were examined with an X-ray technique to determine the extent of the damaged areas and it was found that the apparent damaged area grew monotonically with impact energy. A number of simple univariate and multivariate features were extracted from the sensor signals recorded during impact by computing their spectra and calculating frequency centroids. The concept of discordancy from the statistical discipline of outlier analysis is employed in order to separate the responses from non-damaging and damaging impacts. The results show that the potential damage indices introduced here provide a means of identifying damaging impacts from the response data alone.

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Published date: November 2011
Organisations: Engineering Science Unit

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Local EPrints ID: 338759
URI: http://eprints.soton.ac.uk/id/eprint/338759
ISSN: 0888-3270
PURE UUID: 4ef26bbf-3b53-4448-9239-333768157ea6

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Date deposited: 17 May 2012 09:09
Last modified: 14 Mar 2024 11:04

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Contributors

Author: M.T.H. Sultan
Author: K. Worden
Author: S.G. Pierce
Author: W.J. Staszewski
Author: D. Hickey
Author: A Hodzic

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