Product Details
Basic Info.
Model NO.
truck brake shoes
Type
Brake Pads
Material
Iron
Position
Rear
Certification
ISO/TS16949, ISO13485, ISO14001, BSCI, IATF-16949, ISO9001, ISO9002, AMECA, DOT, ECE, FSC, HACCP, GSV, GMP
Classification
Disc
Drum Brakes Classification
Brake Shoe
Main Market
South America, North America, Eastern Europe, Mild East, Southeast Asia, Africa, Western Europe, Eastern Asia, Northern Europe, Oceania, Southern Europe, Central America, South Asia, Domestic Market
Transport Package
Pallet
Specification
many
Trademark
JL
Origin
China
HS Code
8708309990
Production Capacity
50000
Packaging & Delivery
Package Size
0.00cm * 0.00cm * 0.00cm
Package Gross Weight
0.000kg
Product Description
Product agvantages
1. Certificates: ECE R90, ISO9001, SGS, AMECA
2.Materials: low-semi-metal, semi-metal, ceramic, NAO
3.Low MOQ: 50 sets per item
4.Warranty: 30000-50000km
5. Free samples
5. Free samples
6. Products color : customized
7.Box design: customized
Brake Pad Product Description
1. Basic Structure & Functions
Brake pads are critical safety components in automotive braking systems, composed of a steel backing plate, adhesive heat-insulating layer, and friction material. The corrosion-resistant coated steel plate integrates a non-conductive insulation layer to prevent heat transfer. The friction material generates braking force through contact with the brake rotor, converting kinetic energy into thermal energy for deceleration or stopping. Their performance directly impacts driving safety, earning them the title of "guardian for drivers and vehicles."
2. Types & Material Characteristics
• Organic/Non-Asbestos (NAO): Resin-based, quiet operation but limited heat resistance.
• Semi-Metallic: Metal fiber-reinforced, cost-effective but prone to noise.
• Full-Ceramic: High-end option (withstands 640°C), low-noise ceramic/aramid fiber composite, offering stable friction coefficients and extended lifespan.
3. Key Technical Parameters
• Friction coefficient: 0.38-0.40
• High-temperature resistance: Up to 640°C
• Low wear rate & noise control
• Compliance with ECE R-90 standards
4. Usage & Maintenance
• Replacement intervals: Front pads ~30,000 km, rear pads ~60,000 km.
• Warning signs: Reduced braking efficiency, metallic screeching, or dashboard alerts.
• Post-installation: 200-km bedding-in period; synchronize with brake fluid checks.
Packaging & Delivery
Package Size
3.00cm * 5.00cm * 5.00cm
Package Gross Weight
14.000kg
Lead Time
30 days (1 - 100 Sets)
To be negotiated ( > 100 Sets)
To be negotiated ( > 100 Sets)
1. Basic Structure & Functions
Brake pads are critical safety components in automotive braking systems, composed of a steel backing plate, adhesive heat-insulating layer, and friction material. The corrosion-resistant coated steel plate integrates a non-conductive insulation layer to prevent heat transfer. The friction material generates braking force through contact with the brake rotor, converting kinetic energy into thermal energy for deceleration or stopping. Their performance directly impacts driving safety, earning them the title of "guardian for drivers and vehicles."
2. Types & Material Characteristics
• Organic/Non-Asbestos (NAO): Resin-based, quiet operation but limited heat resistance.
• Semi-Metallic: Metal fiber-reinforced, cost-effective but prone to noise.
• Full-Ceramic: High-end option (withstands 640°C), low-noise ceramic/aramid fiber composite, offering stable friction coefficients and extended lifespan.
3. Key Technical Parameters
• Friction coefficient: 0.38-0.40
• High-temperature resistance: Up to 640°C
• Low wear rate & noise control
• Compliance with ECE R-90 standards
4. Usage & Maintenance
• Replacement intervals: Front pads ~30,000 km, rear pads ~60,000 km.
• Warning signs: Reduced braking efficiency, metallic screeching, or dashboard alerts.
• Post-installation: 200-km bedding-in period; synchronize with brake fluid checks.
