The Wilwood Dynapro DP6A brake caliper offers professional-grade performance combined with modern design, making it ideal for custom, show, and competition vehicles. Engineered with a forged aluminum body, this six-piston caliper provides exceptional strength and durability while maintaining lightweight characteristics. The high-performance stainless steel pistons with high-temperature seals ensure reliable operation under demanding conditions. Designed to accommodate rotors up to 13 inches in diameter and widths from 0.38 to 1.10 inches, the DP6A caliper delivers versatile braking power for various applications. Its reinforced triple bridge construction, featuring five high-strength steel bridge bolts, makes it the strongest and stiffest DP6 caliper in the series, enhancing braking response and pedal feel. The caliper is available in a vibrant red powder coat finish, with options for gloss black, Type III anodized, or Wilwood*s Quick-Silver nickel plating, allowing for customization to match your vehicle*s aesthetic. This model offers direct interchangeability with all 5.25-inch pattern lug mount DynaPro and Dynalite calipers, simplifying upgrades or replacements. Whether for street performance or competitive racing, the Wilwood DP6A caliper combines cutting-edge technology with reliable performance, ensuring your vehicle stops precisely when you need it to. Easy to install and maintain, this caliper is an excellent choice for enthusiasts seeking high-tech style and superior braking power in a lightweight package.
Features:
- Forged aluminum body for strength and lightweight performance
- Six high-strength steel bridge bolts for maximum rigidity
- Stainless steel pistons with high-temperature seals for durability
- Accommodates rotors up to 13 inches in diameter
- Designed for rotors from 0.38 to 1.10 inches wide
- Direct interchange with 5.25-inch pattern DynaPro and Dynalite calipers
- Available in red powder coat finish with options for gloss black, Type III anodized, or Quick-Silver nickel plating
- Reinforced triple bridge construction for superior stiffness
