Use HT-PB-2 for application.
Hi-Tech Lens Seal Kote - HRSK4 is a specially formulated protective sealant designed to maintain and enhance the clarity of your vehicle's headlights, taillights, and other plastic lenses. This high-quality product provides a long-lasting barrier against yellowing, fading, and discoloration caused by UV rays, environmental contaminants, and oxidation. The easy-to-apply solution ensures that your vehicle's lenses remain clear and bright, ultimately improving both aesthetics and safety. Hi-Tech Lens Seal Kote is the go-to choice for professional detailers and car enthusiasts looking to maintain the pristine appearance of their vehicle's exterior lighting components.
Primary Uses:
- Primarily used for protecting headlights, taillights, and plastic lenses from yellowing, fading, and discoloration
- Can also be used on other exterior plastic components susceptible to UV damage and oxidation
Why Use This Over Other Products:
- Specially formulated to provide long-lasting protection and maintain lens clarity
- Effective in preventing damage from UV rays, environmental contaminants, and oxidation
- Easy-to-apply solution for both professionals and enthusiasts
Directions for Use:
- Ensure the surface of the lens is clean and free from dirt, grease, and debris
- Apply a small amount of Hi-Tech Lens Seal Kote to a clean, applicator pad or foam paint brush
- Gently spread the product evenly over the entire surface of the lens
- Allow the product to haze for 5-10 minutes or as directed on the product label
- Buff the lens with a clean, soft microfiber cloth to remove any excess product and reveal a clear, protected surface
- Reapply as needed or according to the recommended maintenance schedule to maintain optimal protection
Best Practices and Safety Information:
- Work in a well-ventilated area, away from direct sunlight and extreme temperatures
- Use appropriate personal protective equipment, such as gloves and eye protection, to ensure safe handling
- Store the product in a cool, dry place, away from direct sunlight and heat sources