PLASTIC KIT/4 WRF250 / WRF450 15-19, RTECH R-KITWRF-BN0-415
Plastic Kit/4 RTECH R-KITWRF-BN0-415. Color White/Black. Kit contains Front Fender, Rear Fender, Side Panels, Rad Scoops. Injection-molded, quality plastic components with a perfect OEM fit. Durable surface stays glossy for a long time. Developed with RTECH exclusive technologies (durable gloss propylene). Glossy and flexible. Impact and abrasion resistant. Less prone to scratching or marking.
- SKU
- 75-K518.WE.RT
- Brand
- Rtech Plastics
- Availability
- In Stock (2)
FULL DESCRIPTION
RTECH Plastic Kit for Yamaha WRF 250/450 (2015-2019) - White/Black
Upgrade the look and feel of your Yamaha WRF with this comprehensive RTECH plastic kit. Designed as a direct replacement for your original parts, this kit offers the same durability and precise fitment you expect from OEM components, but at a more affordable price point.
This RTECH kit is manufactured using exclusive technologies and high-quality, injection-molded propylene for exceptional resilience. The durable, glossy surface is engineered to resist fading, scratching, and abrasion, ensuring your bike maintains its sharp appearance ride after ride.
Key Features:
- Complete 4-Piece Kit: Includes everything you need to refresh your bike's plastic: Front Fender, Rear Fender, Side Panels, and Radiator Scoops.
- OEM Fitment: Injection-molded for a perfect fit, ensuring easy installation and seamless integration with your motorcycle's existing structure.
- Durable Gloss Propylene: Developed with RTECH's exclusive technology for a long-lasting, high-gloss finish that resists fading.
- Impact and Abrasion Resistant: Built to withstand the rigors of off-road riding, offering superior protection against impacts and wear.
- Cost-Effective Alternative: An economical choice compared to purchasing individual OEM replacement parts without compromising on quality.
- Color Matched: Stock color match designed for less fade, providing a consistent and vibrant look.
- Flexible and Resilient: Offers flexibility while maintaining its shape and integrity under stress.


