Wear-Resistant Nano-Polymer Self-Cleaning Coating

Features ultra-wear resistance, anti-fouling, self-cleaning, and corrosion resistance. Application: Surfaces of industrial machinery, power equipment, construction facilities, ports, and wind turbines, extending service life and reducing maintenance costs.

Apr 8th,2026 18 Views

This series targets the major durability challenges faced by wind turbines and other exposed structures, including ice loading, dust accumulation, surface abrasion, and long-term contamination.
Two enhanced nano-polymer coatings are offered to meet different environmental and application conditions.

● NanoClean SH-IceGuard Coat YNT-PV-003
The superhydrophobic interface suppresses water-film formation, reducing ice adhesion and improving operational stability in cold and humid environments.

● NanoClean SH-Armor Coat YNT-PV-005
With high abrasion resistance, strong weatherability, and self-cleaning performance, the coating minimizes surface contamination buildup and extends the service life of wind turbine blades and other exposed components.

Core Functions & Advantages

Ice-Resistant
● Reduces ice accumulation: lowers ice load on equipment; tests show ice mass can be halved
● Discontinuous and thin ice layer: easily detached under external forces

Easy De-Icing
● Significantly reduced adhesion between ice and coating; stress decreased by over 120%
● Durable under cycles: maintains superhydrophobic and anti-icing performance after repeated ice formation and removal

Enhanced Material

● Extends coating service life; suitable for long-term abrasion
● Improves surface strength; resists corrosion and surface aging
Self-Cleaning

● Hydrophobic and oleophobic: suppresses dust and oil adhesion, reducing maintenance frequency

Applications Examples

Where to Use

NanoClean SH-Armor Coat: For wind turbine blades and towers, power transmission lines and communication antennas, aviation infrastructure, and traffic signs.

NanoClean SH-IceGuard Coat: For wind turbine blades and housings, industrial equipment enclosures, and highly exposed building surfaces.

How to Apply

Can be applied by spraying or brushing after routine cleaning.

Performance & Testing

Test Item	Test Standard	Result
Artificial Weathering Resistance	GB/T 1865-2009	10000 h, no change in coating film
Solar Reflectance Change after Artificial Weathering		≤5%
6M NaOH Resistance	GB/T 9274-1988	3000 h, no change in coating film
6M HCl Resistance	GB/T 9274-1988	1000 h, no change in coating film
Neutral Salt Spray Corrosion	GB/T 10125-1997	1000 h, no change in coating film
Acidic Salt Spray Corrosion	GB/T 10125-1997	600 h, no change in coating film
Aqua Regia Corrosion Resistance	GB/T 9274-1988	48 h, no change in coating film
High Temperature Resistance		1100°C
Thermal Conductivity	ASTM C518	0.09 W/m·K
Tensile Strength		2500 kPa
Impact Strength	GB/T 1732-1993	80 Kg·cm
VOC Content	GB/T 34675-2017	0
Bond Strength (Adhesion)	ASTM-D3359	5B
Drying Time	GB/T 1728-1989	Surface Dry 2 h Full Cure 14 h
Coverage		26–35 m²/L
Ice Adhesion Reduction Factor		1.85
Note: The above data were obtained under laboratory conditions according to national standards. Due to uncontrollable environmental factors during actual use, no warranty is given regarding possible deviations.

Nano-Polymer Hydrophobic Anti-Corrosion Coating Series

Nano-Polymer Superhydrophobic Anti-Icing Coating