Introduction to Car Brake Pads with Organic Formula
Organic brake pads employ eco-friendly brake pads mixtures composed of non-metallic Brake Pads Friction Materials, delivering quiet operation and minimal environmental impact. This Brake Pads Formula leverages natural fibers and resin-based Brake Pads Mixes to balance performance and sustainability.
Technical Specifications
| Parameter | Value/Description |
|---|---|
| Friction Coefficient | 0.32–0.38 (μ) |
| Operating Temperature | -30°C to 350°C |
| Compressive Strength | 45–55 MPa |
| Density | 1.8–2.0 g/cm³ |
| Hardness (Shore D) | 75–80 |
| Certifications | NAO Standard, SAE J661 |
Key Advantages
- Eco-Friendly Performance
- The Brake Pads Mixture combines cellulose, aramid fibers, and rubber particles, ensuring 100% asbestos-free and heavy-metal-free composition.
- Complies with EU REACH and RoHS regulations for hazardous substance control.
- Low Noise & Dust
- Organic brake pads friction materials generate <65 dB noise during braking (tested at 80 km/h) and reduce dust emission by 40% compared to semi-metallic formulas.
- Gentle Rotor Wear
- Softer brake pads mixes minimize rotor scoring, extending rotor lifespan by 20–30%.
- Rapid Heat Dissipation
- Glass fiber reinforcement in the brake pads formula ensures stable friction coefficient up to 350°C, ideal for urban commuting.
Storage & Packaging Requirements
- Packaging:
- Individually wrapped in anti-static polyethylene bags with desiccant.
- Outer cartons printed with “Keep Dry” and temperature range icons.
- Storage:
- Temperature: 5°C–30°C (avoid direct sunlight).
- Maximum stack height: 8 layers to prevent deformation.
Formula Composition Breakdown
The brake pads formula includes:
- Friction Modifiers: Cashew dust (15–18%), graphite (10–12%)
- Binders: Modified phenolic resin (12–15%)
- Reinforcements: Aramid fibers (20–25%), glass fibers (8–10%)
This optimized brake pads mixture provides reliable stopping power for hybrid/electric vehicles and daily-driven passenger cars.