Graphene/sol–gel modified polyurethane coating for wind turbine blade leading edge protection: Properties and performance

Arash Dashtkar, Nicolai Frost-Jensen Johansen, Leon Mishnaevsky, Neil A. Williams, Shadi W. Hasan, Vijay S. Wadi, Alessio Silvello, Homayoun Hadavinia*

*Corresponding author for this work

    Research output: Contribution to journalJournal articleResearchpeer-review

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    Abstract

    The development of two novel elastomeric erosion resistant coatings for the protection of wind turbine blades is presented. The coatings are prepared by modifying polyurethane (PU) with (i) hydroxyl functionalised graphene nanoparticles (f-GNP) and (ii) f-GNP and a hydrophobic silica-based sol–gel (SG). Tensile, monotonic and cyclic compression and tearing tests have been conducted on the neat PU and the two newly developed elastomeric PU nanocomposites (PU + GNP and PU + GNP + SG) to allow their properties to be compared. The test results showed that the mechanical properties of PU and the modified PUs have strong dependency on temperature, strain rate and nanoparticles loading and addition of GNP and SG to PU improved the mechanical properties. Compared to PU, Young’s modulus and modulus of toughness of PU + GNP + SG increased 95% and 124%, respectively. The PU + GNP nanocomposite displayed the highest tearing strength and the PU + GNP + SG nanocomposite showed the highest elongation at break. An investigation of the microstructures of the modified PUs by FTIR, field emission scanning electron microscope (FESEM) and energy-dispersive X-ray spectroscopy (EDX) are discussed. Hydrophobicity of the PU and developed PU nanocomposites are reported by measuring their water droplet contact angles and their free surface energies.
    Original languageEnglish
    Article number096739112210741
    JournalPolymers and Polymer Composites
    Volume30
    Number of pages18
    ISSN0967-3911
    DOIs
    Publication statusPublished - 2022

    Keywords

    • Graphene
    • Sol-gel
    • Silica
    • Polyurethane
    • Erosion resistance
    • Wind turbine blade

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