Car Brake Pads Sintered Formula

Introduction to Car Brake Pads with Sintered Formula

Sintered brake pads employ a high-performance Brake Pads Formula that combines metallic and ceramic components through powder metallurgy, achieving exceptional durability and thermal stability. This advanced Brake Pads Mixture is engineered for heavy-duty applications, including racing and high-performance vehicles.

Technical Specifications

Advantages of Sintered Brake Pads

1. Extreme Heat Resistance
   • The Brake Pads Friction Materials maintain stable friction performance even at 800°C, reducing brake fade during aggressive driving.
2. Enhanced Durability
   • Sintered Brake Pads Mixes (copper/iron alloys + ceramic fibers) exhibit 30% longer lifespan than semi-metallic counterparts.
3. Low Rotor Wear
   • Optimized particle distribution in the brake pads formula minimizes rotor abrasion (average wear rate <0.1 mm/10,000 km).
4. Instant Response
   • Achieves full braking efficiency within 0.3 seconds at 100 km/h due to high thermal conductivity.

Storage & Packaging Requirements

• Packaging:
  • Individually wrapped in anti-oxidation foil bags with desiccant.
  • Stacked vertically in reinforced cardboard boxes (max 10 layers).
• Storage:
  • Temperature: -10°C–40°C in low-humidity environments (<50% RH).
  • Avoid direct sunlight to prevent premature oxidation.

Key Formula Components

The sintered brake pads mixture contains:

• Metallic Matrix: Copper (50–60%), iron (20–25%)
• Friction Modifiers: Graphite (8–10%), silicon carbide (5–8%)
• Binders: Sintered bronze (10–12%)

This brake pads formula undergoes 800°C hot pressing and 2-hour sintering, ensuring uniform material density and heat dissipation.

Application Notes

Ideal for:

• Motorsport vehicles requiring rapid heat dissipation
• Commercial trucks operating in mountainous regions
• Electric vehicles needing consistent braking torque