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Enhancing Epoxy Composite Performance with Carbon Nanofillers: A Solution for Moisture Resistance and Extended Durability in Wind Turbine Blade Structures.

Angelos NtaflosGeorgios FoteinidisTheodora LiangouElias BilalisKonstantinos AnyfantisNicholas TsouvalisThomais TyriakidiKosmas TyriakidisNikolaos TyriakidisAlkiviadis S Paipetis
Published in: Materials (Basel, Switzerland) (2024)
The increasing prominence of glass-fibre-reinforced plastics (GFRPs) in the wind energy industry, due to their exceptional combination of strength, low weight, and resistance to corrosion, makes them an ideal candidate for enhancing the performance and durability of wind turbine blades. The unique properties of GFRPs not only contribute to reduced energy costs through improved aerodynamic efficiency but also extend the operational lifespan of wind turbines. By modifying the epoxy resin with carbon nanofillers, an even higher degree of performance can be achieved. In this work, graphene nanoplatelet (GNP)-enhanced GFRPs are produced through industrial methods (filament winding) and coupons are extracted and tested for their mechanical performance after harsh environmental aging in high temperature and moisture. GNPs enhance the in-plane shear strength of GFRP by 200%, while reducing their water uptake by as much as 40%.
Keyphrases
  • high temperature
  • heavy metals
  • wastewater treatment
  • physical activity
  • weight loss
  • risk assessment
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  • room temperature