Acoustic characterization of void distributions across carbon-fiber composite layers
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AIP Publishing LLC
Reference31 articles.
1. Comparison of numerical and effective-medium modeling of porosity in layered media
2. Ultrasonic attenuation as a measure of void content in carbon-fibre reinforced plastics
3. A review of NDE methods for porosity measurement in fibre-reinforced polymer composites
4. Automated analysis and advanced defect characterisation from ultrasonic scans of composites
5. E. A. S. A. Standard, “Composite aircraft structure,” in AMC 20-29 (2010).
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