The Effect of High Glass Fiber Content and Reinforcement Combination on Pulse-Echo Ultrasonic Measurement of Composite Ship Structures

Ship structures made of glass fiber-reinforced polymer (GFRP) composite laminates are considerably thicker than aircraft and automobile structures and more likely to contain voids. The production characteristics of such composite laminates were investigated in this study by ultrasonic nondestructive...

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Bibliographic Details
Published in:Journal of marine science and engineering 2021-04, Vol.9 (4), p.379
Main Authors: Lee, Sang-Gyu, Oh, Daekyun, Woo, Jong Hun
Format: Article
Language:English
Subjects:
Acoustics
Chopped strand mats
Composite materials
composite ship
Composite structures
defect
Defects
Density
E glass
Echoes
Fiber composites
Fiber reinforced polymers
Glass
Glass fiber reinforced plastics
glass fiber-reinforced polymer
Laminates
nondestructive evaluation
Nondestructive testing
Polyesters
Polymers
Relative density
Shear strength
Ultrasonic testing
ultrasonics
Velocity
Voids
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Summary:Ship structures made of glass fiber-reinforced polymer (GFRP) composite laminates are considerably thicker than aircraft and automobile structures and more likely to contain voids. The production characteristics of such composite laminates were investigated in this study by ultrasonic nondestructive evaluation (NDE). The laminate samples were produced from E-glass chopped strand mat (CSM) and woven roving (WR) fabrics with different glass fiber contents of 30–70%. Approximately 300 pulse-echo ultrasonic A-scans were performed on each sample. The laminate samples produced from only CSM tended to contain more voids compared with those produced from a combination of CSM and WR, resulting in the relative density of the former being lower than the design value, particularly for high glass fiber contents of ≥50%. The velocity of the ultrasonic waves through the CSM-only laminates was also lower for higher glass fiber contents, whereas it steadily increased for combined CSM–WR laminates. Burn-off tests of the laminates further revealed that the fabric configuration of the combined CSM–WR laminates was of higher quality, prevented the formation of voids, and improved inter-layer bonding. These findings indicate that combined CSM–WR laminates should be used to achieve more accurate ultrasonic NDE of GFRP composite structures.
ISSN:2077-1312
2077-1312
DOI:10.3390/jmse9040379