Description
SBD’s CCM Street Series brake pads are engineered for BMW G8x M3 & M4 owners seeking high-performance braking with OE caliper compatibility for Iron-to-CCM rotor conversions. Designed for both premium road use and high-load driving conditions, these pads combine carbon-based structures with ceramic fibers and advanced polymer binders, delivering a friction coefficient of 0.45–0.48, exceptional fade resistance, and stable operation at temperatures above 800°C.
Fitment:
- BMW M3 (G80) – 2021-2025
- BMW M4 (G82/G83) – 2021-2025
- Compatible with OE BMW calipers for Iron-to-CCM rotor upgrades
- Standard calipers for BMW M2, M3 & M4
Material Composition & Technical Features:
- DuPont Kevlar® Fiber: Enhances tensile strength and impact resistance, ensuring consistent friction during prolonged use.
- Otsuka Chemical Potassium Titanate (Japan): Stabilizes friction at high temperatures while reducing noise and vibration (NVH).
- Morgan Advanced Materials Ceramic Fiber: Provides heat resistance beyond 600°C and prevents thermal cracking.
- Sumitomo Chemical Phenolic Resin (Japan): High-performance binder with excellent adhesion and thermal durability.
- SGL Carbon High-Purity Graphite & Carbon (Germany): Improves thermal conductivity, reduces fade, lowers brake dust, and reinforces the composite structure.
- Tokai Carbon Materials (Japan): High-purity carbon powders and fibers maintain strength and stability under extreme braking temperatures.
Key Advantages:
- Stable friction coefficient (0.45–0.48) for predictable, linear braking
- Extreme heat resistance (800°C+) for high-load and motorsport conditions
- Outstanding fade resistance under repeated heavy braking
- Low dust and low corrosion to keep wheels clean and protect rotors
- Comfortable and quiet operation with reduced NVH
- Extended durability for longer pad life and reduced maintenance
SBD CCM Street Series pads provide premium braking performance for BMW G8x M Series, offering precise, reliable stopping power, minimal brake dust, and exceptional durability for daily-driven and high-performance road use.
