PA6 CF10 Nylon 6 with 10% Carbon Fibers | Nylon Plastic

PA6 CF10 is an engineering thermoplastic composite. It is based on nylon 6 (PA6) reinforced with 10% carbon fibers. This entry-level carbon fiber grade provides a distinct upgrade over standard and glass-filled nylons, offering enhanced stiffness, superior dimensional stability, and inherent static dissipation, making it suitable for technical components requiring improved performance and reliability.

Why Choose Nylon Plastic’s PA6 CF10?
✅ Enhanced Stiffness and Conductivity: We deliver a material that provides a noticeable increase in rigidity and reliable static dissipation compared to unfilled or glass-filled PA6, making it ideal for sensitive electronic housings, gears, and mechanically loaded parts that benefit from these properties.
✅ Superior Dimensional Stability and Precision: Our PA6 CF10 offers exceptionally low thermal expansion and moisture absorption, ensuring precise dimensional tolerances and consistent performance in varying environmental conditions.
✅ Expert Guidance for Quality Results: We provide processing support for this carbon fiber compound to help achieve optimal surface finish and mechanical properties, bridging the gap between standard materials and advanced composites.
✅ Cost-Effective Entry into Carbon Fiber Technology: We are your partner in performance upgrading. Our team helps you implement PA6 CF10 to achieve weight reduction, wear resistance, and functional integration where advanced composites were previously not considered.

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PA6 CF10 Technical Data (Estimated Typical Values)

Property Value Test Standard
Carbon Fiber Content 10% ISO 1172
Tensile Strength 140 – 160 MPa ISO 527
Flexural Modulus 10,000 – 12,000 MPa ISO 178
Notched Impact Strength 9 – 12 kJ/m² ISO 180
HDT @1.8 MPa 215 – 225 °C ISO 75
Volume Resistivity 10^3 – 10^5 Ω·cm IEC 60093

PA6 CF Series Technical Data Table (Estimated Typical Values)

Property Test Standard PA6 CF10 PA6 CF20 PA6 CF30 PA6 CF40 PA6 CF50
Carbon Fiber Content ISO 1172 10% 20% 30% 40% 50%
Tensile Strength ISO 527 140 – 160 MPa 180 – 210 MPa 220 – 250 MPa 240 – 270 MPa 260 – 290 MPa
Flexural Modulus ISO 178 10,000 – 12,000 MPa 15,000 – 18,000 MPa 20,000 – 23,000 MPa 24,000 – 27,000 MPa 28,000 – 32,000 MPa
Notched Impact Strength ISO 180 9 – 12 kJ/m² 10 – 13 kJ/m² 11 – 14 kJ/m² 12 – 15 kJ/m² 13 – 16 kJ/m²
HDT @1.8 MPa ISO 75 215 – 225 °C 220 – 230 °C 225 – 235 °C 230 – 240 °C 235 – 245 °C
Volume Resistivity IEC 60093 10^3 – 10^5 Ω·cm 10^2 – 10^4 Ω·cm 10^1 – 10^3 Ω·cm 10^0 – 10^2 Ω·cm 10^-1 – 10^1 Ω·cm

PA6 CF10 Key Advantages

✅ Cost-Effective Entry into Carbon Fiber Performance: Offers a significant performance upgrade over standard or glass-filled grades, making advanced composites accessible for a wider range of applications without a steep cost premium.
✅ Enhanced Stiffness with Excellent Processability: Provides a noticeable increase in rigidity and dimensional stability while maintaining very good flow characteristics, ideal for molding complex geometries and thin-walled parts.
✅ Inherent Functional Properties: Delivers built-in electrostatic dissipation (ESD) capabilities and improved thermal conductivity compared to insulating materials, adding value to electronic and mechanical components.

Industry Applications:

the crucial role of injection molding in automotive industry

Explore the PA6 Carbon Fiber Series in Detail

Click on the links below to view comprehensive technical data, key advantages, and application details for each specific grade.

Grade Best For Overview Full Details
PA6 CF10 Entry-level carbon fiber performance in electronic & precision parts. The most accessible CF grade, offering a clear boost in stiffness, dimensional stability, and ESD protection over standard materials. View PA6 CF10 Full Data Sheet →
PA6 CF20 Versatile metal replacement demanding strength, weight & conductivity. A balanced performer, ideal for general lightweighting with excellent strength-to-weight ratio and functional conductivity. View PA6 CF20 Full Data Sheet →
PA6 CF30 High-stress structural components and dynamic load applications. The premier choice for structural integrity, providing near-metallic stiffness, high fatigue resistance, and precision stability. View PA6 CF30 Full Data Sheet →
PA6 CF40 Stiffness-critical designs where minimal deflection is paramount. Engineered for maximum rigidity and exceptional dimensional stability under extreme loads in advanced industrial sectors. View PA6 CF40 Full Data Sheet →
PA6 CF50 Mission-critical applications at the forefront of lightweight engineering. The ultimate grade, delivering peak specific performance for aerospace, motorsport, and elite automation applications. View PA6 CF50 Full Data Sheet →

Powering Innovation Across Industries

Industry Key Applications
Automotive Engine covers, intake manifolds, structural brackets, sensor housings, connectors.
Explore Automotive Applications →
Electrical & Electronics Circuit breakers, switches, connector housings, insulating components.
Discover E&E Solutions →
Industrial Equipment Gears, bearings, machine housings, rollers, mechanical components.
See Industrial Uses →
Various application scenarios of PA plastics
Various application scenarios of PA plastics

How to Choose the Right PA6 CF Grade?

In simple terms:

For an accessible entry into carbon fiber performance with enhanced stiffness, dimensional stability, and static control, consider PA6 CF10. It offers a clear upgrade over standard materials at a moderate cost.

For optimal balance of high strength, lightweight design, and functional conductivity in demanding metal replacement applications, choose PA6 CF30. It is the performance benchmark for most structural applications.

For the ultimate stiffness, strength, and thermal/electrical performance where weight savings and reliability are critical and cost is less sensitive, consider PA6 CF50. Higher carbon fiber content maximises these advanced properties.

Why Choose Us?

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FAQ Section:

Q1: What are the advantages of PA6 CF10 over standard PA6?
PA6 CF10 provides a significant upgrade with 10% carbon fiber reinforcement. Key benefits include:

  • Enhanced Stiffness & Strength: Improved mechanical properties for more robust components.

  • Dimensional Stability: Lower thermal expansion and moisture absorption for reliable performance.

  • Static Dissipation: Inherent conductivity protects sensitive electronic parts.

  • It’s the ideal cost-effective entry point into carbon fiber composites.

Q2: Is PA6 CF10 suitable for electronic housings?
Yes, it is an excellent choice. Besides good structural properties, its natural ESD (electrostatic discharge) capability helps prevent static damage to internal components, making it suitable for connectors, enclosures, and frames in electronic devices.

Q3: How should I process PA6 CF10?
For best results:

  • Dry thoroughly at 80-90°C for 4-6 hours before molding.

  • Use recommended melt temperatures (typically 280-300°C).

  • Mold temperature should be 80-100°C for optimal surface finish.

  • These settings help achieve strong fiber bonding and part consistency.

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