Introducing ApexVision's revolutionary Nano-Coated Blue Mirrors, designed for luxury performance vehicles. These mirrors are a testament to advanced technology and superior craftsmanship. Constructed using state-of-the-art nano-coating technology, each particle is chemically bonded and smaller than 100 nm, resulting in a transparent, durable finish. This cutting-edge process ensures a surface hardness of 7H, nearly as tough as diamond, making your mirrors resilient against scratches, erosion, and the harshest environmental conditions.

ApexVision's Nano-Coated Blue Mirrors are not just about durability; they are designed for clarity and safety. By reflecting approximately 60% of blue light and significantly reducing the intensity of yellow and red light, these mirrors provide a gentler, clearer view. This reduction in glare is particularly beneficial for night driving, helping to diminish the blinding effects of headlights from vehicles behind you, thereby enhancing your driving comfort and safety. The perfectly uniform blue color is achieved through a meticulous immersion and baking process, resulting in a flawless, high-quality finish that conventional vacuum coating methods simply cannot match.

Choose ApexVision's Nano-Coated Blue Mirrors for a driving experience that combines luxury and practicality. These mirrors not only enhance the aesthetics of your vehicle but also improve functionality with their anti-glare and anti-UV properties. Perfect for both day and night driving, they ensure clear, sharp images and long-lasting performance. Trust in the same high standards as top European car manufacturers and enjoy a superior view with our Nano-Coated Blue Mirrors, crafted to perfection for the discerning driver.

Additional Features:
  • Water Repellent Treated:
    • The water-repellent effect on the mirrors is essential for driving safely in the rain. This feature is integrated during the manufacturing process, ensuring long-lasting performance.
    • Provides drivers with a clear view in rainy conditions, enhancing safety.
    • Prevents most grease and dirty water from adhering to the mirrors.
    • To restore the water repellent effect when diminished, rinse the mirrors with water, gently wipe with noninvasive wipers, and rinse off the dirty water. This cleaning process will restore the water-repellent feature, allowing clear vision in the rain once again.
  • Anti-Glare Effect:
    • Treated with advanced anti-glare technology, these mirrors effectively reduce glare and increase focus.
    • Diminishes glare from strong beam lights reflected in the side view mirrors, particularly beneficial when driving at night and switching lanes.
    • Enhances driving safety by reducing distractions caused by the glare from rear vehicles.
  • Wide Angle and Anti-Fog:
    • These features provide a broader view and prevent fogging, ensuring clear visibility in all weather conditions.
Disadvantages of Competitors' Products:

Most conventional blue rearview mirrors on the market are produced via vacuum coating. This method involves coating a layer of chrome on the mirror, followed by a thin layer of blue coating. Often, these mirrors have dirt or dust on them, which gets trapped during the coating process. As a result, the blue coating cannot adhere firmly to these areas, leading to "pinholes" where the coating disintegrates after normal wear and tear, such as wiping and washing.

Additionally, blue mirrors produced by vacuum coating have poor corrosion resistance. Extended exposure to rain, sunshine, and chemical cleaning agents can cause the blue coating to fade quickly. This results in a less durable product that requires frequent replacement and maintenance, unlike ApexVision's superior Nano-Coated Blue Mirrors.

Product Specifications:

Driving Position: In the US and Canada, the driver side uses a flat mirror, while the passenger side uses R1400 (where R indicates radius). Replacing the driver side mirror will increase visibility by 5.5 times, and the passenger side by 1.4 times.

Definition of Sol-Gel:

Sol: Sol refers to colloidal particles uniformly dispersed in a liquid. These solid particles are very small, with diameters ranging from 10 to 1000 Å, allowing them to suspend in the liquid phase without settling.

Gel: Gel appears to be a liquid but is actually a very dilute colloid.

In general, we refer to this as SOL-GEL Coating or SOL-GEL Process.