PA12 CF40 Technical Data (Estimated Typical Values)
| Property | Value | Test Standard |
|---|---|---|
| Carbon Fiber Content | 40% | ISO 1172 |
| Tensile Strength | 175 – 195 MPa | ISO 527 |
| Flexural Modulus | 16,000 – 18,000 MPa | ISO 178 |
| Notched Impact Strength | 6 – 9 kJ/m² | ISO 180 |
| HDT @1.8 MPa | 165 – 175 °C | ISO 75 |
| Water Absorption (24h) | ~0.55% | ISO 62 |
| Volume Resistivity | 10^1 – 10^3 Ω·cm | IEC 60093 |
PA12 CF Series Performance Comparison Table (Estimated Typical Values)
| Property | PA12 CF10 | PA12 CF20 | PA12 CF30 | PA12 CF40 | PA12 CF50 |
|---|---|---|---|---|---|
| Carbon Fiber Content | 10% | 20% | 30% | 40% | 50% |
| Tensile Strength | 110 – 130 MPa | 140 – 160 MPa | 160 – 180 MPa | 175 – 195 MPa | 190 – 210 MPa |
| Flexural Modulus | 7,000 – 8,500 MPa | 10,000 – 12,000 MPa | 13,000 – 15,000 MPa | 16,000 – 18,000 MPa | 19,000 – 22,000 MPa |
| Notched Impact Strength | 9 – 12 kJ/m² | 8 – 11 kJ/m² | 7 – 10 kJ/m² | 6 – 9 kJ/m² | 5 – 8 kJ/m² |
| HDT @1.8 MPa | 150 – 160 °C | 155 – 165 °C | 160 – 170 °C | 165 – 175 °C | 170 – 180 °C |
| Water Absorption (24h) | ~0.7% | ~0.65% | ~0.6% | ~0.55% | ~0.5% |
| Volume Resistivity | 10^4 – 10^6 Ω·cm | 10^3 – 10^5 Ω·cm | 10^2 – 10^4 Ω·cm | 10^1 – 10^3 Ω·cm | 10^0 – 10^2 Ω·cm |
| Key Profile | Stiffness & stability upgrade | Balanced performance | Structural benchmark in harsh env. | High rigidity & precision | Maximum performance |
Note: All data are estimated typical values for comparison. Exact properties must be verified with the official datasheet.
PA12 CF40 Key Advantages
✅ Extreme Rigidity & Load-Bearing Capacity: Engineered with 40% carbon fiber to achieve metal-like flexural modulus, capable of withstanding extreme mechanical loads with minimal deflection, ideal for heavy-duty structural metal replacement.
✅ Top-Tier Dimensional Stability in Wet/Chemical Environments: Combines carbon fiber reinforcement with the inherently low water uptake of PA12, providing unparalleled dimensional accuracy and creep resistance in humid or corrosive settings.
✅ Superior Environmental Tolerance & Functionality: Maintains PA12‘s excellent chemical and hydrolysis resistance while the carbon fiber network provides effective electrostatic dissipation (ESD) and enhanced thermal conductivity.
Industry Applications:

Explore the PA12 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 |
|---|---|---|---|
| PA12 CF10 | Cost-effective enhancement of stiffness & dimensional stability for parts in wet or chemical environments. | The most accessible CF grade for PA12, offering a sustainable upgrade with enhanced stiffness while retaining exceptional low moisture absorption and chemical resistance. | View PA12 CF10 Full Data Sheet → |
| PA12 CF20 | Components requiring a balance of rigidity, impact strength at low temperatures, and resistance to hydrolysis. | A balanced performer, excelling in damp or chemically aggressive environments where dimensional stability and durability are key. | View PA12 CF20 Full Data Sheet → |
| PA12 CF30 | Structural parts exposed to moisture, chemicals, or requiring consistent performance over a wide temperature range. | The performance benchmark, providing an optimal balance of high stiffness, superior low-temperature toughness, and outstanding environmental resistance. | View PA12 CF30 Full Data Sheet → |
| PA12 CF40 | High-precision, rigid parts where maximum dimensional stability in humid or variable conditions is critical. | Engineered for extreme rigidity and exceptional dimensional stability from a polymer with inherently low water uptake, for the most demanding technical applications. | View PA12 CF40 Full Data Sheet → |
| PA12 CF50 | Mission-critical applications demanding peak performance in harsh environments with minimal moisture sensitivity. | The pinnacle grade, delivering top stiffness and functional performance from a material known for its stability and resistance in challenging conditions. | View PA12 CF50 Full Data Sheet → |
Need expert advice? Contact our engineering team to discuss your specific application and material requirements.
Powering Innovation Across Industries (PA12 CF Series)
| Industry | Key Applications |
|---|---|
| Automotive & Fluid Systems | Fuel line quick connectors, structural brackets in wet underbody areas, sensor housings exposed to road spray, charge air cooler components requiring chemical resistance. Explore Automotive Solutions → |
| Energy, Oil & Gas | Components for downhole tools, sensor and connector protectors in subsea environments, valve and manifold parts resistant to sour gas and chemicals. See Industrial Uses → |
| Industrial & Precision Equipment | Gears, bearings, and pump housings in lubricated or humid environments, robotic components for wash-down areas, high-precision parts for medical and fluid handling devices. Inquire About Specialty Uses → |
| Electrical & Specialized | Connectors and enclosures for harsh outdoor or industrial environments, cable management systems in high-humidity settings, components requiring stable dielectric properties in varying climates. Contact for Electrical Solutions → |
How to Choose the Right PA12 CF Grade?
In simple terms:
For a cost-effective upgrade into a dimensionally stable, chemical-resistant carbon fiber composite, consider PA12 CF10.
For the optimal balance of enhanced stiffness, excellent low-temperature impact strength, and unwavering resistance to moisture and chemicals, choose PA12 CF30. It is the performance benchmark for most demanding applications in harsh environments.
For the ultimate stiffness and dimensional precision from a material with minimal hygroscopicity, consider PA12 CF50.
Unsure which is perfect for your part? Describe your application to our engineers for a tailored recommendation.
Why Choose Us?


PA12 CF40 FAQ
Q1: What is the primary application for PA12 CF40?
PA12 CF40 is designed for high-load structural applications where minimal deflection and long-term dimensional stability are paramount in corrosive or humid environments. Typical uses include structural components in chemical processing equipment, critical parts in subsea oil & gas applications, and high-stress components in specialty vehicles operating in harsh climates.
Q2: How does PA12 CF40’s performance in wet environments compare to PA66 GF40?
PA12 CF40 holds a decisive advantage in wet environments. Due to its much lower moisture absorption, it retains a far greater percentage of its stiffness and dimensional accuracy when saturated. PA66 GF40 can lose significant stiffness and swell, compromising precision, while PA12 CF40 remains stable and reliable.
Q3: Does processing PA12 CF40 require special equipment?
Yes, specific considerations are necessary: Tooling: Hardened tool steels (e.g., H13) are mandatory for cores, cavities, and runners due to extreme abrasiveness. Machine: A robust injection molding machine with high injection pressure and good control is recommended. Drying: While less critical than for PA6, drying at 80-90°C for 3-4 hours is still advised for optimal surface finish.











