Bull Chemicals has been dedicated to upgrading brake pads friction materials, and Brake Pads Low Metallic Formulation (BL-ACV-D7) stands out as a high-performance product, boasting remarkable advantages in brake pad material applications.
Table of Contents
First, excellent friction stability and high temperature resistance
Brake Pads Low Metallic Formulation (BL-ACV-D7) features outstanding friction stability, thanks to the optimized brake pads mixes. Its composite metal matrix contains 12% iron powder, 8% copper fiber and 5% aluminum oxide, ensuring the friction coefficient stays stable at 0.38-0.45 even at 650℃. The fluctuation rate is only 3.2%, effectively preventing high-temperature brake failure and guaranteeing safe braking.
Second, superior wear resistance and long service life
The refined brake pads formula is the key to the formulation’s durability. With 7% high-purity graphite and 4% ceramic particles added to the brake pads mixes, the wear rate is significantly reduced. Test data shows that under 100,000km comprehensive driving, the average wear thickness is only 2.1mm, and the service life reaches 85,000km, 30% longer than ordinary low-metallic counterparts. It also reduces brake disc wear by 25%, cutting maintenance costs.
Third, excellent noise reduction and dust suppression effects
Brake Pads Low Metallic Formulation (BL-ACV-D7) enhances driving comfort through innovative brake pads friction materials design. The brake pads formula incorporates 6% modified rubber particles, absorbing braking vibration and reducing noise to below 58dB (industry average is 65dB). Meanwhile, the special fiber structure in brake pads mixes binds abrasive dust, reducing emission by 42% and improving environmental friendliness.
In summary, Brake Pads Low Metallic Formulation (BL-ACV-D7) excels in friction stability, durability and comfort, showcasing Bull Chemicals’ strength in brake pad material R&D.
