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ZAZ0030B Self-Clean Nano Coating for Solar Tempered Glass

SKU ZAZ0030B
Price

RM0.00

ZCP0030B is an advanced single-component, ultra-hydrophilic anti-static nano coating developed by Triz GmbH KG & Co. Ltd., UK in collaboration with AZ Nano Tech. It is specifically designed for factory-applied spraying on photovoltaic (PV) glass. Utilizing cutting-edge nanotechnology, including fractal-structured silicon dioxide, this coating creates a sub-50nm micro-rough surface. Once cured, the ultra-thin coating achieves a hydrophilic angle below 10°, offering superior weather resistance, wear resistance, and anti-static properties.

 

Additionally, ZAZ0030B incorporates 5nm titanium dioxide, enhancing organic decomposition capabilities to tackle bird droppings, oil, and other contaminants. This makes it especially suitable for PV modules used in agrivoltaics systems (e.g., fishery-solar). Post-application tempering at 700°C enhances coating hardness to 5H while maintaining high light transmittance and super-hydrophilic properties.

Quantity

TECHNICAL DATA

Key Features:

  • Rapid Medium-Temperature Curing:

    • Achieves 5H pencil hardness (Japan Mitsubishi Standard) after tempering at 700°C for 3-5 minutes.

  • Exceptional Wear Resistance:

    • Outperforms traditional ultra-hydrophilic coatings (1,000 cycles wear life), offering durability exceeding 15,000 wear cycles.

  • Anti-Static Properties:

    • Surface resistance of 10⁷-10⁹Ω minimizes dust adhesion, ensuring long-term cleanliness.

  • Ultra-Hydrophilic Efficiency:

    • Water contact angle below 10°, enabling self-cleaning through rain or dew, significantly reducing cleaning frequency.

  • Enhanced Transparency:

    • Specialized nano-rough structure increases light transmittance by 2.8-3.2%, boosting PV module efficiency.

  • Photocatalytic Self-Repair:

    • Effectively decomposes bird droppings, oil stains, and industrial pollutants such as coal tar.

  • Superior Weather Resistance:

    • Offers effective outdoor protection for 5+ years, ensuring consistent performance.

Suitable Materials:

  • Specifically designed for photovoltaic glass surfaces.

Curing Method:

  • Medium-Temperature Cure:

    • 100°C for 5-10 minutes for initial curing.

  • High-Temperature Tempering:

    • Temper at 700°C for 3-5 minutes to achieve optimal hardness and adhesion.

Suitable For:

  • Factory-use Photovoltaic Glass Treatment: Provides self-cleaning, anti-dust, and anti-static properties to maintain the efficiency of PV modules.

INSTRUCTIONS OF USE

Application Method

Pre-Treatment

  • Surface Preparation:

    • Before application, clean the surface to remove oil stains, oxide layers, and debris using an alkaline cleaning agent.
    • Rinse thoroughly with water and ensure no oil stains, dust, or water streaks remain.
    • Allow the surface to dry completely before starting the coating process.

  • Timely Application:

    • Apply the coating immediately after surface preparation to avoid contamination by dust or dirt.

  • Environmental Requirements:

    • Ensure the workspace is dust-free and equipped with proper ventilation systems or air filtration devices to maintain high application quality.

Application Methods

  • Coating Techniques:

    • Apply the product using one of the following methods:
      • Spray Coating
      • Dip Coating
      • Blade Coating
      • Flow Coating

  • Longevity of Treatment:

    • A single application provides 5 years of effective self-cleaning and anti-static performance.
    • In regions with severe air pollution, reapply the coating every 5 years to maintain optimal performance.

Storage

  • Recommended Storage Temperature: 18-25°c
  • Shelf Life: 12 months.

Packaging

  • 20L per container

Environmental

  • For safety recommendations and transportation rules, please refer to the SDS.
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