2021
DOI: 10.3390/aerospace8120365
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Enhancing the Interlaminar Fracture Toughness and AO Resistance of CFRPs by Using Phosphorus-Containing Polymer/PEC-K Bifunctional Film

Abstract: A new attempt to use a bifunctional interleaf for developing a novel structure–function-integrated composite with simultaneously improved interlaminar fracture toughness and atomic oxygen resistance was studied. The toughening mechanism and the atomic oxygen erosion property of the delaminated surfaces of the composites were examined. The bifunctional interleaf was prepared by blending a phosphorus-containing polymer and a thermoplastic polymer. After being interleaved, the mode I and mode II fracture toughnes… Show more

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Cited by 2 publications
(3 citation statements)
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References 27 publications
(42 reference statements)
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“…After interleaving Mode-I and Mode-II fractures, toughness improved by 8.2% and 23.7% compared to unmodified composite, respectively. Similarly, atomic oxygen erosion rates of Mode-I and II delamination surfaces decreased by 45.3% and 31.3% in comparison with unmodified composite, respectively [82].…”
Section: Synergistic Effect Of Third Phase and Aging On Compositementioning
confidence: 89%
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“…After interleaving Mode-I and Mode-II fractures, toughness improved by 8.2% and 23.7% compared to unmodified composite, respectively. Similarly, atomic oxygen erosion rates of Mode-I and II delamination surfaces decreased by 45.3% and 31.3% in comparison with unmodified composite, respectively [82].…”
Section: Synergistic Effect Of Third Phase and Aging On Compositementioning
confidence: 89%
“…Moreover, a 3-point bending test also exposed that the crack density in the aged composite is higher than in unaged composites [53]. It is assisted by degradation in the interlaminar region and hence proceeds towards delamination [82].…”
Section: Effect Of Aging On Mechanical Performancementioning
confidence: 98%
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