BRAKE PADS SINTERED METAL HS MX-N HIGH FRICTION, DB2220.OR-N, BP022T05B

€ 17,23
1

Brake pads sintered metal HS MX-N high friction. Designed for high-performance racing applications. Constructed with hard sintered metal for exceptional longevity. Engineered to provide a high friction coefficient for enhanced braking performance. Suitable for a wide range of racing motorcycles. Cross reference DB2220.OR-N and BP022T05B. Designed by Factory Image Racing. Enhances safety and control during intense racing conditions. Compatible with standard braking systems for straightforward installation.

Specifications
SKU
39-181.H.FIR.HS
Brand
Factory Image Racing
Availability
In Stock (46)
General Product Group
Braking
General Product Type
Brake Pads
Variant Id
236589
Shipping OptionsShown at checkout
60-Day ReturnsHassle-free
Easy CheckoutCard friendly
Product details

FULL DESCRIPTION

Factory Image Racing Sintered Metal HS MX-N High Friction Brake Pads

Upgrade your braking system with these premium Sintered Metal HS MX-N High Friction Brake Pads from Factory Image Racing. Engineered for the demands of racing, these brake pads offer superior stopping power and exceptional durability.

Key Features:

  • High Friction Coefficient: Designed to deliver superior braking performance when you need it most.
  • Sintered Metal Construction: Made with hard sintered metal for outstanding longevity and consistent performance.
  • Racing Application Focused: Ideal for high-performance racing motorcycles, providing the reliability and stopping power that racers depend on.
  • Enhanced Safety and Control: Contribute to improved rider safety and control during intense racing conditions.
  • Cross-Reference Compatibility: These pads are designed to be compatible with models -N and BP022T05B, simplifying replacement.
  • Reputable Brand: Manufactured by Factory Image Racing, a trusted name in the racing industry known for quality and performance.
  • Easy Installation: Designed to fit standard braking systems, ensuring a straightforward installation process.