13-17 KTM85 RAD SCOOPS BLACK, RTECH R-CVKTMNR0985

£50.40
1

Black radiator scoops from Rtech Plastics. Developed with RTECH exclusive technologies, these injection-molded, quality plastic components offer a perfect OEM fit with durable gloss propylene. The durable surface stays glossy for a long time, providing stock color match with less fade. These radiator scoops are glossy, flexible, impact and abrasion resistant, and less prone to scratching or marking. This is an inexpensive alternative to OEM replacement parts.

Specifications
SKU
77-3164.BK.RT
Brand
Rtech Plastics
Availability
In Stock (1)
General Colour C
Black
General Product Group
Bodywork, Styling & Protection
General Product Type
Plastics - Rad Louvers
Variant Id
268816
Shipping OptionsShown at checkout
14-Day ReturnsHassle-free
Easy CheckoutCard friendly
Product details

FULL DESCRIPTION

RTECH Radiator Scoops - Black

Enhance your motorcycle's cooling system with these high-quality RTECH Radiator Scoops in a sleek black finish. Designed to meet the demands of enduro and motocross, these scoops offer a durable and reliable alternative to original equipment manufacturer (OEM) parts.

These radiator scoops are manufactured using RTECH's exclusive durable gloss propylene technology, ensuring exceptional longevity and a consistently shiny appearance. The injection-molded plastic components provide a perfect OEM fit, making installation straightforward.

  • Durable Gloss Propylene: Features RTECH's exclusive technology for a long-lasting, glossy finish.
  • OEM Fitment: Injection-molded for precise fit, matching original plastic components.
  • Impact and Abrasion Resistant: Built to withstand the rigors of off-road riding, resisting damage from impacts and scratches.
  • Flexible and Glossy: The plastic is both flexible and retains its shine, resisting fading.
  • Cost-Effective Alternative: An inexpensive option compared to OEM replacement parts without compromising on quality.
  • Stock Color Match: Designed to match original colors with reduced fading over time.