Influence of thickness and lateral size of graphene nanoplatelets on water uptake in epoxy/graphene nanocomposites
Applied Sciences, 2018•mdpi.com
In this study, the hydrothermal resistance of an epoxy resin (aircraft quality) reinforced with
graphene is analyzed. Different geometries and aspect ratios (thickness and lateral
dimensions) of graphene nanoplatelets were studied. The addition of these graphene
nanoplatelets induces important advantages, such as an increase of the glass transition
temperature and stiffness and an enhancement of barrier properties of the epoxy matrix, in
spite of the excellent behavior of pristine resin. The effectiveness of graphene nanoplatelets …
graphene is analyzed. Different geometries and aspect ratios (thickness and lateral
dimensions) of graphene nanoplatelets were studied. The addition of these graphene
nanoplatelets induces important advantages, such as an increase of the glass transition
temperature and stiffness and an enhancement of barrier properties of the epoxy matrix, in
spite of the excellent behavior of pristine resin. The effectiveness of graphene nanoplatelets …
In this study, the hydrothermal resistance of an epoxy resin (aircraft quality) reinforced with graphene is analyzed. Different geometries and aspect ratios (thickness and lateral dimensions) of graphene nanoplatelets were studied. The addition of these graphene nanoplatelets induces important advantages, such as an increase of the glass transition temperature and stiffness and an enhancement of barrier properties of the epoxy matrix, in spite of the excellent behavior of pristine resin. The effectiveness of graphene nanoplatelets increases with their specific surface area while their dispersion degree is suitable. Thinner nanoplatelets tend to wrinkle, decreasing their efficiency as nanofillers. Graphene used as reinforcement not only reduces the absorbed moisture content but also decreases its effect on the thermal and mechanical properties related to the matrix.
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