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PA66+30GF (Bromine-Based Flame Retardant 30% Glass Fiber Reinforced Polyamide 66) offers superior fire resistance, high mechanical strength, and excellent thermal stability. Designed for electrical enclosures, automotive components, and industrial applications, it ensures long-term reliability, safety, and durability.
Product Overview
PA66+30GF (Bromine-Based Flame Retardant) is a composite material incorporating bromine-based flame retardants with 30% glass fiber reinforcement in polyamide 66. This material offers superior flame resistance and excellent mechanical properties, complying with ROHS environmental standards. It is well-suited for applications requiring high flame retardancy and mechanical strength, particularly in the automotive, electrical, electronic, and tool housing industries.
Key Features
- Bromine-Based Flame Retardant: Utilizes a bromine-based flame retardant for exceptional flame resistance, meeting high safety standards for electrical and electronic applications.
- ROHS Compliant: Fully compliant with ROHS environmental regulations, suitable for use in green, eco-friendly products.
- Superior Mechanical Strength: Offers excellent tensile strength, compressive strength, and wear resistance, making it ideal for high-load, high-strength environments.
- Easy to Color: The material can be easily colored according to specific design requirements, offering flexibility in product appearance.
- High Stability: Exhibits excellent thermal stability and dimensional stability, suitable for use in high-temperature environments.
Applications
- Automotive Components: Used to manufacture automotive parts, particularly those requiring high flame resistance and mechanical strength.
- Electrical & Electronic Components: Suitable for electrical connectors, protective housings, and other parts requiring excellent electrical insulation and flame resistance.
- Tool Housings: Ideal for making tool housings that ensure safety and durability.
- Support Brackets: Used as structural support components, providing stable mechanical performance and flame retardant protection.
- Battery Housings: Applied in battery enclosures to ensure safety under high-temperature or high-load conditions.
| Test Properties | Unit | Test Method | Test Condition | Typical Value |
| Physical Properties | ||||
| Density | g/cm³ | ISO 1183 | 1.63 | |
| Filler Content | % | ISO 1172 | GF30 | |
| Mold Shrinkage | % | ISO 294 | Parallel: 0.2%, Vertical: 0.6% | |
| Mechanical Properties | ||||
| Tensile Strength | MPa | ISO 527 | Type I sample, 50mm/min | 170 |
| Elongation at Break | % | ISO 527 | Type I sample, 50mm/min, Gauge length 50mm | 2.2 |
| Flexural Strength | MPa | ISO 178 | 23℃, 10mm/min | 250 |
| Flexural Modulus | MPa | ISO 178 | 23℃, 10mm/min | 9300 |
| Izod Impact Strength (Notched) | KJ/m² | ISO 180 | 23℃ | 10 |
| Charpy Impact Strength (Unnotched) | KJ/m² | ISO 179 | 23℃ | 60 |
| Thermal Properties | ||||
| Melting Point | ℃ | ISO 11357-1 | 260 | |
| Heat Deflection Temperature (HDT) | ℃ | ISO 75 | 0.45MPa: 250℃, 1.8MPa: 245℃ | |
| Flammability | ||||
| UL Flammability Class | UL-94 | V0 | ||
| Glow Wire Ignition Temperature (GWIT) | ℃ | IEC 60695-2-13 | 875 | |
| Electrical Properties | ||||
| Surface Resistivity | Ω | IEC60093 | 100000000000000 | |
| Volume Resistivity | Ω·cm | IEC60093 | 1000000000000000 |
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