Abstract
The use of fibre-reinforced composite laminates in aerospace, maritime and civil structure has grown over recent decades. The advantage of composites is that they have high specific strength and stiffness, as well as resistance to chemical reactivity. However, they are prone to damage, such as matrix cracking and delamination. Thus, methods for detecting internalised defects, such as delamination, is of great interest.
This paper presents two separate studies for the detection of delamination damage in composite beam specimens. The first study investigates the use of SLDV on fibreglass beam specimens, whereas, the second study investigates the use of embedded fibre optics in carbon fibre beam specimens. For both studies, a curvature-based damage index algorithm was demonstrated to be able to evaluate the location of the delamination damage and the slope of curvature could be used to evaluate the depth of the delamination. However, deflection measurements are significantly affected by noise and peak damage detection occurs when the delamination is located in the middle layers of the beam. Strain measurements are less affected by noise and peak damage detection occurs when the delamination is located near the surface closest to the fibre optic and at a delamination depth to beam thickness ratio of 0.583:1. Finally, practical implementation of fibre Bragg grating sensors in a structural health monitoring strategy is proposed.
This paper presents two separate studies for the detection of delamination damage in composite beam specimens. The first study investigates the use of SLDV on fibreglass beam specimens, whereas, the second study investigates the use of embedded fibre optics in carbon fibre beam specimens. For both studies, a curvature-based damage index algorithm was demonstrated to be able to evaluate the location of the delamination damage and the slope of curvature could be used to evaluate the depth of the delamination. However, deflection measurements are significantly affected by noise and peak damage detection occurs when the delamination is located in the middle layers of the beam. Strain measurements are less affected by noise and peak damage detection occurs when the delamination is located near the surface closest to the fibre optic and at a delamination depth to beam thickness ratio of 0.583:1. Finally, practical implementation of fibre Bragg grating sensors in a structural health monitoring strategy is proposed.
Original language | English |
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Number of pages | 15 |
Publication status | Published - 2021 |
Event | 10th Australasian Congress on Applied Mechanics - Held online Duration: 29 Nov 2021 → 1 Dec 2021 Conference number: 10th https://acamconference.com.au/ |
Conference
Conference | 10th Australasian Congress on Applied Mechanics |
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Abbreviated title | ACAM10 |
Period | 29/11/21 → 1/12/21 |
Other | ACAM provides an international forum for delegates to share their experiences, present their research on the wide-ranging topics in applied mechanics. |
Internet address |
Keywords
- curvature-based damage detection
- fibre Bragg grating
- non-destructive testing
- scanning laser Doppler vibrometer
- structural health monitoring