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Damage characterization of nano-interleaved CFRP under static and fatigue loading

Fotouhi, Mohamad; Fragassa, Cristiano; Fotouhi, Sakineh; Saghafi, Hamed; Minak, Giangiacomo

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Authors

Cristiano Fragassa

Sakineh Fotouhi

Hamed Saghafi

Giangiacomo Minak



Abstract

© 2019 by the authors. The use of high strength-to-weight ratio-laminated fiber-reinforced composites is emerging in engineering sectors such as aerospace, marine and automotive to improve productivity. Nevertheless, delamination between the layers is a limiting factor for the wider application of laminated composites, as it reduces the stiffness and strengths of the structure. Previous studies have proven that ply interface nanofibrous fiber reinforcement has an effective influence on delamination resistance of laminated composite materials. This paper aims to investigate the effect of nanofiber ply interface reinforcement on mode I properties and failure responses when being subjected to static and fatigue loadings. For this purpose, virgin and nanomodified woven laminates were subjected to Double Cantilever Beam (DCB) experiments. Static and fatigue tests were performed in accordance with standards and the Acoustic Emissions (AE) were acquired during these tests. The results showed not only a 130% increase of delamination toughness for nanomodified specimens in the case of static loads, but also a relevant crack growth resistance in the case of fatigue loads. In addition, the AE permitted to relate these improvements to the different failure mechanisms occurring.

Citation

Fotouhi, M., Fragassa, C., Fotouhi, S., Saghafi, H., & Minak, G. (2019). Damage characterization of nano-interleaved CFRP under static and fatigue loading. Fibers, 7(2), 13. https://doi.org/10.3390/fib7020013

Journal Article Type Article
Acceptance Date Jan 19, 2019
Online Publication Date Jan 28, 2019
Publication Date Feb 1, 2019
Deposit Date Feb 4, 2019
Publicly Available Date Mar 29, 2024
Journal Fibers
Electronic ISSN 2079-6439
Publisher MDPI
Peer Reviewed Peer Reviewed
Volume 7
Issue 2
Pages 13
DOI https://doi.org/10.3390/fib7020013
Keywords nanofibers, composites, interleaving, fatigue, delamination, acoustic emission, failure mechanisms
Public URL https://uwe-repository.worktribe.com/output/853271
Publisher URL https://doi.org/10.3390/fib7020013
Related Public URLs https://www.mdpi.com/2079-6439/7/2/13

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