Enhanced elastic behavior of all-carbon composites reinforced by in-situ synthesized morphed graphene

Enhanced elastic behavior of all-carbon composites reinforced by in-situ synthesized morphed graphene

We present the mechanical properties of all-carbon composites reinforced with in situ incorporated morphed graphene nanostructures by means of high energy ball milling and spark plasma sintering. The composites demonstrate enhanced elasticity for carbon sp3/sp2 ratio ≈1/4. High resolution TEM charac...

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Veröffentlicht in:Carbon (New York) 2019-11, Vol.153 (C), p.657-662
Hauptverfasser: Calderon, H.A., Alvarez Ramirez, F., Barber, D., Hadjiev, V.G., Okonkwo, A., Ordoñez Olivares, R., Estrada Guel, I., Robles Hernandez, F.C.
Format: Artikel
Sprache:eng
Schlagworte:
Ball milling
Carbon
Chemical synthesis
Composite materials
Crosslinking
Elastic properties
Elasticity
Graphene
Mechanical properties
Molecular dynamics
Nanostructure
Particulate composites
Spark plasma sintering
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Zusammenfassung:We present the mechanical properties of all-carbon composites reinforced with in situ incorporated morphed graphene nanostructures by means of high energy ball milling and spark plasma sintering. The composites demonstrate enhanced elasticity for carbon sp3/sp2 ratio ≈1/4. High resolution TEM characterization and molecular dynamics simulations show that this bonding type ratio is due mostly to the morphed graphene structures. Specifically, the presence of Rh6, crosslinked graphene-like, nanostructures is attributed to the enhanced elastic properties of these all-carbon composites. The improvements in mechanical properties is approximately 2 orders of magnitude when compared to similar composites produced with graphene. [Display omitted]
ISSN:0008-6223
1873-3891
DOI:10.1016/j.carbon.2019.07.012