2021
DOI: 10.1002/app.51846
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Improving carbon/carbon composites mechanical and thermal properties by the co‐carbonization of pre‐oxidized carbon fiber and pitch

Abstract: The interfacial cracks generated during the high-temperature carbonization process, caused by the mismatch of thermal shrinkage rate between the fiber and matrix, limit the huge application potential of C/C composites. In this study, pre-oxidized carbon fiber (OPF) prepared from pitch, as a reinforcement, was introduced into the pitch-based carbon matrix to realize the co-carbonization of OPF and pitch. The results showed that the mechanical and thermal properties of the OPF-reinforced C/C composites were sign… Show more

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Cited by 5 publications
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“…We briefly present the methods for fiber's functionalization in Figure 1, which will obtain the composite fiber through functionalizing the original fiber. Carbonization is the thermal decomposition of pre-prepared fibers under high temperatures, which removes the unstable parts and gains high pure carbon-based composite fiber to enhance the electroconductivity, chemical stability, and mechanical strength [24]. Hydroxylation is a chemical reaction where hydroxyl groups are coated on the fibers' surface [25].…”
Section: Functionalization Of Fibermentioning
confidence: 99%
“…We briefly present the methods for fiber's functionalization in Figure 1, which will obtain the composite fiber through functionalizing the original fiber. Carbonization is the thermal decomposition of pre-prepared fibers under high temperatures, which removes the unstable parts and gains high pure carbon-based composite fiber to enhance the electroconductivity, chemical stability, and mechanical strength [24]. Hydroxylation is a chemical reaction where hydroxyl groups are coated on the fibers' surface [25].…”
Section: Functionalization Of Fibermentioning
confidence: 99%