Slide

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.

Slide
Core Functions & Advantages
Slide

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

Slide
Applications Examples
Slide
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.

Slide
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.