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2016 | OriginalPaper | Buchkapitel

27. Fracture Toughness and Impact Damage Resistance of Nanoreinforced Carbon/Epoxy Composites

verfasst von : Joel S. Fenner, Isaac M. Daniel

Erschienen in: Fracture, Fatigue, Failure and Damage Evolution, Volume 8

Verlag: Springer International Publishing

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Abstract

In this study, the objective was to develop, manufacture, and test hybrid nano/microcomposites with a nanoparticle reinforced matrix and demonstrate improvements to damage tolerance via Mode-II fracture toughness and impact damage absorption. The material employed was a woven carbon fiber/epoxy composite, with multi-wall carbon nanotubes as a nano-scale reinforcement to the matrix. A direct-mixing process, aided by a block copolymer dispersant and sonication, was employed to produce the nanoparticle-filled epoxy matrix. Fracture toughness was tested by several different Mode-II and mixed Mode-I/Mode-II specimens to determine the toughness improvement. Testing and material difficulties were overcome by this approach, showing a Mode-II toughness improvement of approx. 35 % in the hybrid material. Impact tests were performed in a falling-weight drop tower at different energies to introduce interlaminar damage in samples of both materials. Impact damaged specimens were imaged by ultrasonic c-scans to assess the area of the damage zone at each ply interface. Post-mortem optical microscopy confirmed the interlaminar nature of the impact damage. These tests showed a consistently smaller absorbed energy and smaller total damage area for hybrid composite over reference material, translating to a nominally higher ‘effective impact toughness’ in the hybrid composite (approx 42 %) regardless of specific impact energy.

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Vorheriges Kapitel Experimental Fatigue Specimen and Finite Element Analysis for Characterization of Dental Composites

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Titel: Fracture Toughness and Impact Damage Resistance of Nanoreinforced Carbon/Epoxy Composites
verfasst von: Joel S. Fenner
Isaac M. Daniel
Verlag: Springer International Publishing
Buch: Fracture, Fatigue, Failure and Damage Evolution, Volume 8
Print ISBN: 978-3-319-21610-2

Electronic ISBN: 978-3-319-21611-9

Copyright-Jahr: 2016
DOI: https://doi.org/10.1007/978-3-319-21611-9_27

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