- Sintered compound, specifically designed for front applications to perform efficiently in all conditions
- NUCAP NRS technology secures a mechanical and indestructible bonding of the compound
- Good wear resistance that performs from cold to hot
Upgrade your motorcycle's braking performance with the Brembo OE Powersports 07HO42SA sintered brake pads, designed specifically for front applications on select Honda models including the CBR1100XX Super Blackbird, VFR800 Interceptor, and Gold Wing. Crafted with a sintered compound, these pads deliver reliable stopping power in a variety of riding conditions, ensuring safety and confidence on every ride. The advanced NUCAP NRS technology firmly bonds the compound, providing an indestructible connection that withstands the rigors of daily riding and aggressive braking.
These Brembo pads are engineered for optimal wear resistance, maintaining their performance from cold starts to high temperatures generated during spirited riding or long-distance touring. Their durable construction reduces the need for frequent replacements, making them a cost-effective choice for motorcycle enthusiasts seeking consistent braking performance. Whether you ride on city streets or highway, these pads offer excellent modulation and fade resistance, enhancing overall ride safety.
Designed for easy installation, the Brembo 07HO42SA brake pads are a perfect fit for the specified Honda models, ensuring a seamless upgrade. With their high-quality sintered material and innovative bonding technology, these pads provide superior braking efficiency and durability, making them an ideal choice for both everyday commuting and more demanding riding experiences. Trust Brembo to deliver performance and reliability you can count on for your motorcycle's front braking system.
Features:
- Sintered compound designed for front brake application to perform efficiently in all conditions
- NUCAP NRS technology ensures a mechanical, indestructible bond of the brake compound
- Excellent wear resistance that performs consistently from cold to hot temperatures
