Camila P. Gonçalves scite author profile

Two different carbon based nanostructures, multiwall carbon nanotubes and multilayered graphene, were incorporated to carbon epoxy laminated. X-ray diffractometry indicates that graphene blocks are formed by approximately 66 layers of graphene. Scanning electron microscopy observation revealed that graphene blocks are located mainly near to the fiber/matrix region, while carbon nanotubes are dispersed into the matrix. These nanostructures can affect significantly the overall mechanical properties, in special the tensile and bending strength, which are direct, related to the internal stress distribution and failure modes. No significant stiffness changes were observed in both, tensile and bending, tests, while tensile strength were improved by 19% with 2 wt.% addition of graphene. The carbon nanotube + multi-layer graphene nanostructures need to be improved as some segregated areas between the two components were observed. Nevertheless, the results from those nano-modified specimens were all higher than the one without nanoparticle dispersion for tensile loads. When the bending tests are analyzed a different scenario is noticed. The nanostructure scattering has high influence into the laminate composite overall behavior. Matrix failure is dominant for those specimens with irregular dispersal, while a fiber failure seems to be an evidence of nanostructure uniform distribution.

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Camila P. Gonçalves

Nano-based systems for oil spills control and cleanup

Hybrid Carbon/Epoxy Composites with Interlocking Properties: The Graphene Nanostructure Morphology Investigation

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