EBC High-Performance Rear Street Brake Pads Double-H Sintered Formula for Kawasaki
$10.79
Description
EBC Brakes Double-H™ Sintered Superbike Brake Pads for Kawasaki
Upgrade your Kawasaki’s braking system with the ultimate street-sport solution: EBC Brakes Double-H™ Sintered Superbike Brake Pads. Designed for riders who demand precision and reliability, these pads combine cutting-edge technology with rigorous safety standards to deliver unmatched stopping power in any condition.
Why Choose Double-H™ Sintered Pads?
– ECE R90 Certified & TÜV Tested: Built to exceed global safety standards for exceptional durability and consistent performance.
– All-Weather Performance: Whether you’re tackling dry backroads or wet city commutes, these pads maintain peak friction levels for confident control.
– Long-Lasting Durability: Engineered in Ohio’s state-of-the-art sintering facility with premium materials that resist wear and fading over thousands of miles.
– High-Friction HH Rating: Delivers superior grip without excessive noise or dust, perfect for spirited street riding or track days.
Experience the Difference
Feel the difference from the first stop. These pads provide smooth modulation for precise braking in tight corners while maintaining maximum stopping force at high speeds. Designed specifically for Kawasaki models, they ensure optimal fitment and compatibility with stock or aftermarket calipers.
Outperform Competitors
Unlike generic pads that fade under heavy use or squeal during hard stops, Double-H™ Sintered Brake Pads stay quiet and effective—whether you’re carving mountain passes or navigating urban traffic jams. Their advanced sintered compound resists thermal degradation, so you can push harder without compromising safety.
Perfect for:
– Riders seeking a balance between sporty performance and everyday usability
– Track enthusiasts who need consistent braking under extreme conditions
– Daily commuters who prioritize safety in unpredictable weather
Upgrade your braking game with EBC Brakes—where innovation meets real-world reliability.
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