RAD SCOOPS 19-22 HUSKY TC/FC, WHITE, RTECH R-CVHSQBN0019
RTECH Rad Scoops in white. Manufactured by RTECH Plastics, an Italian brand known for high-quality plastic components for enduro and motocross teams. Offers the same durability and fit as original plastic parts. Features a durable surface designed to stay glossy and is developed with RTECH's exclusive durable gloss propylene technology. These injection-molded plastic components provide a perfect OEM fit and serve as an inexpensive alternative to OEM replacement parts. Offers stock color match with less fading, a glossy and flexible finish, and is impact and abrasion resistant, making it less prone to scratching or marking.
- SKU
- 75-0395.WE.RT
- Brand
- Rtech Plastics
- Availability
- In Stock (9)
FULL DESCRIPTION
RTECH Radiator Scoops - White
Enhance the look and performance of your motorcycle with these premium RTECH Radiator Scoops. Crafted by RTECH, a leading Italian brand renowned for its high-quality plastic components used by professional enduro and motocross teams worldwide, these scoops offer superior durability and an exact OEM fit. Designed to provide the same quality and reliability as original equipment, they are an excellent and cost-effective alternative to OEM replacement parts.
These radiator scoops are manufactured using RTECH's exclusive technologies, featuring a durable gloss propylene that ensures a long-lasting, lustrous finish. The injection-molded plastic is both glossy and flexible, offering excellent resistance to impacts and abrasions, making them less prone to scratching or marking. Enjoy a stock color match with reduced fading for a consistently vibrant appearance.
Key Features:
- Premium quality plastic components from RTECH.
- Exact OEM fit for seamless integration.
- Durable gloss finish for long-lasting shine.
- Developed with RTECH's exclusive technologies.
- Glossy, flexible, and impact-resistant material.
- Abrasion resistant and less prone to scratching.
- Cost-effective alternative to OEM parts.
- Stock color match with reduced fading.


