PA12 CF30 with 30% Carbon Fiber | Nylon Plastic

PA12 CF30 is an engineering thermoplastic composite based on Nylon 12 (PA12) reinforced with 30% carbon fibers. This high-performance grade is the industry benchmark for applications that require a critical combination of structural rigidity, long-term durability, and unwavering performance in the presence of moisture, aggressive chemicals, or wide temperature swings.

Why Choose Our PA12 CF30?
✅ The Definitive Choice for Harsh Environment Engineering: We supply the proven benchmark material for applications where environmental resistance is as crucial as mechanical performance.
✅ Guaranteed Stability for Precision Assemblies: Our PA12 CF30 ensures that complex, tight-tolerance assemblies will maintain their fit and function throughout their service life, even in variable climates.
✅ Technical Partnership for Critical Applications: We provide in-depth support for the design and processing of PA12 CF30, helping you mitigate risk in your most challenging projects.
✅ Driving Advanced Solutions in Specialized Markets: We enable innovation in sectors like energy, fluid transportation, and specialized automotive where material selection dictates reliability.

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PA12 CF30 Technical Data (Estimated Typical Values)

Property Value Test Standard
Carbon Fiber Content 30% ISO 1172
Tensile Strength 160 – 180 MPa ISO 527
Flexural Modulus 13,000 – 15,000 MPa ISO 178
Notched Impact Strength 7 – 10 kJ/m² ISO 180
HDT @1.8 MPa 160 – 170 °C ISO 75
Water Absorption (24h) ~0.6% ISO 62
Volume Resistivity 10^2 – 10^4 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 CF30 Key Advantages

✅ Benchmark for Demanding Environmental Structural Use: Represents the optimal balance of high stiffness, good toughness, and top-tier resistance to moisture, chemicals, and hydrolysis.
✅ Unwavering Dimensional Integrity: Provides exceptional dimensional stability due to the synergistic effect of high fiber content and the low hygroscopicity of the PA12 matrix.
✅ Consistent Performance Across Temperature Ranges: Maintains mechanical properties reliably from below freezing up to its elevated heat deflection temperature.

Industry Applications:

the crucial role of injection molding in automotive industry

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 →

Various application scenarios of PA plastics

Various application scenarios of PA plastics

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?

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PA12 CF30 FAQ

Q1: Why is PA12 CF30 considered a ‘benchmark’ for harsh environments?
PA12 CF30 achieves the best practical balance of properties needed for structural parts in aggressive conditions: high stiffness from carbon fiber, sufficient toughness, and the inherent stability and chemical resistance of PA12. It is the most commonly specified grade for demanding applications where PA6 or PA66 would be compromised by moisture or chemicals.

Q2: What are typical applications for PA12 CF30?
It is widely used in: Oil & Gas (components for downhole tools, sensor housings), Automotive (fuel system structural parts, charge air cooler components), Industrial Valves & Pumps, and Marine/Offshore Equipment. Anywhere long-term exposure to moisture, salts, or chemicals is combined with structural needs.

Q3: How does its weathering resistance compare to other nylons?
PA12 generally has better resistance to hydrolysis and thermal aging than PA6 or PA66. While UV stabilization is still needed for direct sunlight exposure, its bulk properties are less affected by long-term heat and humidity exposure, making it more suitable for outdoor technical components.

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