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Brembo 07YA53CC Organic Brake Pads

Original price was: 36,00 €.Current price is: 32,40 €.

The Brembo 07YA53CC, featuring an innovative carbon-ceramic compound, redefines brake performance and durability standards. Renowned for versatility in various conditions, it holds CE certification, ensuring efficiency, sustainability, and dimensional precision for an exceptional braking experience.

SKU: 07YA53CC Categories: , Tags: ,

Description

Brembo 07YA53CC

The introduction of a higher proportion of carbon represents a significant innovation in the evolution of organic compounds. This advancement, supported by extensive research in the automotive industry, has resulted in a friction material that redefines performance and durability standards. Its ability to perform exceptionally well in various thermal and surface conditions, whether at high or low temperatures, on dry or wet surfaces, highlights the versatility and efficiency of this new component.

Key Additional Benefits

  • Unparalleled Performance in Variable Environments: The enhanced carbon-ceramic formula translates into outstanding performance across a wide range of environmental conditions. From extremely high temperatures to humid situations, these brake pads maintain consistent effectiveness, providing a safe and predictable response in any driving scenario. This level of versatility ensures a reliable braking experience at all times.
  • CE Certification and Sustainability Commitment: CE certification backs the quality and safety of these brake pads, complying with rigorous European standards. Additionally, the choice of an organic composition not only optimizes braking efficiency but also addresses environmental concerns by reducing disc wear, prolonging the lifespan of the entire braking system. This combination of certification and sustainability reinforces user confidence in choosing this component.
  • Designed for Low Displacements: Meticulous attention to the specific needs of vehicles with low displacements is evident in the design of these brake pads. They offer an optimal balance between performance and durability, delivering a smooth and controlled braking experience that perfectly adapts to the particular requirements of lower-capacity engines. This specialization ensures precise and efficient braking behavior, enhancing safety and driving experience.

Key Features

  • Advanced Carbon-Ceramic Compound: The combination of carbon and ceramic in this advanced compound sets new standards for strength and durability. The increased presence of carbon not only enhances mileage but also optimizes performance in various conditions, providing a reliable and efficient braking experience that translates into increased safety for the driver.
  • Dimensional Precision for Optimal Performance: The exact measurements of these brake pads, with a width (L) of 113.1 mm and a height (L) of 52.7 mm on the left side, and a width (R) of 97.1 mm and a height (R) of 39.4 mm on the right side, along with a thickness of 10.5 mm, reflect a commitment to dimensional precision. This approach ensures a perfect and secure fit, contributing to uniform and effective contact with the brake disc, thereby maximizing the efficiency of the entire system.

Additional information

Information:

-Advanced Carbon-Ceramic Compound: The combination of carbon and ceramic in this advanced compound sets new standards for strength and durability. The increased presence of carbon not only enhances mileage but also optimizes performance in various conditions, providing a reliable and efficient braking experience that translates into increased safety for the driver.
-Dimensional Precision for Optimal Performance: The exact measurements of these brake pads, with a width (L) of 113.1 mm and a height (L) of 52.7 mm on the left side, and a width (R) of 97.1 mm and a height (R) of 39.4 mm on the right side, along with a thickness of 10.5 mm, reflect a commitment to dimensional precision. This approach ensures a perfect and secure fit, contributing to uniform and effective contact with the brake disc, thereby maximizing the efficiency of the entire system.