Multifunctional graphene/polyimide composite coating with electrothermal and superhydrophobic properties for wind turbine blade anti-icing

A graphene/polyimide (GE/PI) multilayer composite coating coated with organic silicon, specifically designed to achieve dual electrothermal and hydrophobic functions was proposed. By optimizing the dispersion of GE in the PI matrix (3.0–10.0 wt%) and adding a hydrophobic silicone layer, the coating achieves rapid Joule heating (reaching 128℃ within 60 ss at 4 wt% GE) while maintaining a contact angle exceeding 110°. Systematic experiments showed that the coating resistance decreases exponentially with increasing GE content, while thicker coatings (44.75–68.60 μm) exhibited lower steady-state temperatures due to enhanced thermal conduction pathways. Anti-icing tests under −15℃ humid conditions indicated that the coating surface shows minimal ice formation after 120 min, attributed to the synergistic effects of hydrophobicity and thermal regulation. De-icing experiments showed that ice (18 mm × 23 mm ice column) could be completely removed within 360 ss under 220 V/105 mA conditions, a 40 % improvement over traditional methods. Cyclic durability tests confirmed that anti-icing performance remained stable after 50 cycles, with ice coverage below 1 %. This study provides an energy-efficient and durable solution for protecting wind turbine blades and offers insights into the GE arrangement and interface engineering of multifunctional coatings.