
The Power Stop AR85124XPR rear brake rotors represent a premium upgrade solution specifically engineered for 2007-2017 Ford Expedition and 2008-2017 Lincoln Navigator models. As part of the Evolution series, these drilled and slotted rotors are designed to enhance braking performance, durability, and heat dissipation, ensuring reliable stopping power under demanding conditions.
Manufactured by PowerStop, a reputable brand renowned for its commitment to quality and innovation in automotive braking components, these rotors meet stringent industry standards and provide a direct OE fitment. This ensures seamless installation without the need for modifications, maintaining the vehicle’s original specifications and safety features.
Key Features and Benefits:
Fitment Overview:
These rear drilled and slotted rotors are compatible with a comprehensive range of Ford Expedition models from 2007 through 2017, including:
Additionally, these rotors fit Lincoln Navigator models from 2007 through 2017, including Base, L, L Luxury, L Reserve, L Select, L Ultimate, Luxury, Reserve, Select, and Ultimate trims.
Brand Overview:
PowerStop has established itself as a leading manufacturer in the automotive braking industry, specializing in high-performance brake components tailored for both everyday drivers and enthusiasts. The company emphasizes rigorous testing, engineering precision, and the use of premium materials to deliver products that meet or exceed OEM standards. PowerStop’s Evolution series, to which these rotors belong, is recognized for combining advanced design features with reliable construction, providing enhanced safety and performance for a variety of vehicles.
Choosing the Power Stop 07-17 Ford Expedition Rear Evolution Drilled & Slotted Rotors ensures that your vehicle’s braking system operates at optimal efficiency, offering improved heat management, consistent stopping power, and long-term durability. These rotors are an excellent investment for maintaining vehicle safety and performance, particularly for drivers who demand reliability under diverse driving conditions.