HPS - High Performance Street disc brake pads are world renowned for increasing stopping power on your street legal vehicle. Increasing the performance of your vehicles braking system is easy when you choose Hawk Performance’s HPS braking compound. This unique Ferro-Carbon formula was developed for street performance using the safety and quality of Aerospace and Motorsports severe-duty friction technology. The High Performance Street compound offers a higher coefficient of friction over stock brake pads and can provide you 20-40 percent more stopping power and higher resistance to brake fade than most standard replacement pads. Less fade means you’ll have a highly durable brake pad with less brake dust.
- Revolutionary Friction Stability – ER-1 Brake Pads provide consistent, high-performance braking lap after lap, under the toughest conditions.
- Superior Wear & Longevity – Delivers excellent pad and rotor wear with improved lifespan over competing endurance pads.
- Precise Modulation & Pedal Feel – Engineered for optimal modulation, release, and pedal communication, offering a responsive driving experience.
- Ideal for Racing & Track Use – Perfect for light-to-medium weight vehicles in HPDE, time trials, and endurance racing.
- High-Temperature Durability – Handles operating temperatures from 400–1600 degree, maintaining consistent performance even under extreme heat.
- Revolutionary Friction Stability – ER-1 Brake Pads provide consistent, high-performance braking lap after lap, under the toughest conditions.
- Superior Wear & Longevity – Delivers excellent pad and rotor wear with improved lifespan over competing endurance pads.
- Precise Modulation & Pedal Feel – Engineered for optimal modulation, release, and pedal communication, offering a responsive driving experience.
- Ideal for Racing & Track Use – Perfect for light-to-medium weight vehicles in HPDE, time trials, and endurance racing.
- High-Temperature Durability – Handles operating temperatures from 400–1600 degree, maintaining consistent performance even under extreme heat.
