PA11 GF10 Technical Data (Estimated Typical Values)
| Property | Value | Test Standard |
|---|---|---|
| Glass Fiber Content | 10% | ISO 1172 |
| Tensile Strength | 90 – 110 MPa | ISO 527 |
| Flexural Modulus | 4,500 – 5,500 MPa | ISO 178 |
| Notched Impact Strength | 12 – 16 kJ/m² | ISO 180 |
| HDT @1.8 MPa | 155 – 165 °C | ISO 75 |
| Water Absorption (24h) | ~0.8% | ISO 62 |
PA11 GF Series Performance Comparison Table (Estimated Typical Values)
| Property | PA11 GF10 | PA11 GF20 | PA11 GF30 | PA11 GF40 | PA11 GF50 |
|---|---|---|---|---|---|
| Glass Fiber Content | 10% | 20% | 30% | 40% | 50% |
| Tensile Strength | 90 – 110 MPa | 115 – 135 MPa | 135 – 155 MPa | 150 – 170 MPa | 165 – 185 MPa |
| Flexural Modulus | 4,500 – 5,500 MPa | 6,500 – 7,800 MPa | 8,500 – 10,000 MPa | 10,500 – 12,500 MPa | 12,500 – 15,000 MPa |
| Notched Impact Strength | 12 – 16 kJ/m² | 10 – 14 kJ/m² | 9 – 12 kJ/m² | 8 – 11 kJ/m² | 7 – 10 kJ/m² |
| HDT @1.8 MPa | 155 – 165 °C | 160 – 170 °C | 165 – 175 °C | 170 – 180 °C | 175 – 185 °C |
| Water Absorption (24h) | ~0.8% | ~0.7% | ~0.6% | ~0.5% | ~0.4% |
| Key Profile | Stiffness upgrade | Balanced performance | Structural benchmark | High rigidity | Maximum performance |
PA11 GF10 Key Advantages
✅ Cost-Effective Stiffness Enhancement: Offers a meaningful and affordable increase in rigidity and dimensional stability over unreinforced PA11, making it a practical first step into reinforced bio-plastics.
✅ Retained Exceptional Toughness & Chemical Resistance: Preserves the high impact strength and outstanding resistance to fuels, oils, and chemicals that are the hallmark of the PA11 matrix.
✅ Inherent Sustainability with Improved Performance: Provides a clear upgrade in mechanical performance while maintaining the bio-based origin and low moisture absorption benefits of PA11.
Industry Applications:

Explore the PA11 Glass 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 |
|---|---|---|---|
| PA11 GF10 | Cost-effective enhancement of stiffness & dimensional stability for durable, chemical-resistant parts. | The most accessible reinforced grade, offering a clear boost in rigidity and heat resistance while retaining the excellent toughness and chemical resistance of PA11. | View PA11 GF10 Full Data Sheet → |
| PA11 GF20 | Technical components requiring a balanced upgrade in mechanicals, precision, and environmental resistance. | A balanced performer, providing significantly higher stiffness and strength than GF10, ideal for more demanding structural applications in harsh conditions. | View PA11 GF20 Full Data Sheet → |
| PA11 GF30 | High-performance parts demanding toughness, rigidity, and stability in aggressive chemical or humid environments. | The benchmark grade, delivering an optimal balance of high mechanical properties, thermal resistance, and PA11‘s signature durability. | View PA11 GF30 Full Data Sheet → |
| PA11 GF40 | Ultra-stiff components where minimal deflection and maximum dimensional precision are critical in demanding settings. | Engineered for maximum rigidity and exceptional long-term dimensional stability from a bio-based foundation. | View PA11 GF40 Full Data Sheet → |
| PA11 GF50 | Maximum sustainable performance for structural metal replacement in chemically challenging applications. | The pinnacle grade, offering the highest stiffness and strength in the series for the most advanced sustainable engineering designs. | View PA11 GF50 Full Data Sheet → |
Powering Innovation Across Industries (PA11 GF Series)
| Industry | Key Applications |
|---|---|
| Automotive | Fuel line components, clips and connectors, structural under-hood brackets, sensor housings exposed to fluids. Explore Automotive Solutions → |
| Industrial Fluid Handling | Pump housings, valve bodies, compressor parts, and components in chemical processing equipment requiring corrosion resistance. See Industrial Uses → |
| Consumer & Sports Goods | High-performance sports equipment (ski bindings, cleats), power tool housings requiring durability, and premium appliance components. Explore Consumer Applications → |
| Electrical & Specialized | Connectors and housings in harsh environments, cable management systems, and specialized industrial components. Inquire About Specialty Uses → |
How to Choose the Right PA11 GF Grade?
In simple terms:
For a cost-effective step into reinforced bio-based plastics with improved stiffness and stability for fluid-handling parts, consider PA11 GF10.
For the optimal balance of enhanced mechanical properties, precision, and unmatched chemical/fuel resistance in demanding technical components, choose PA11 GF30. It is the performance benchmark for most structural uses in harsh environments.
For the ultimate stiffness and dimensional stability from a bio-based material in high-load, high-precision applications, consider PA11 GF50.
Unsure which is perfect for your part? Describe your application to our engineers for a tailored recommendation.
Why Choose Us?


PA11 GF10 FAQ
Q1: What is the main benefit of PA11 GF10 over unreinforced PA11?
The primary benefit is a significant increase in flexural modulus (stiffness) and heat deflection temperature (HDT), allowing parts to carry more load and resist deformation better, especially in warmer environments. It also reduces molding shrinkage for improved dimensional accuracy.
Q2: Can PA11 GF10 be used for parts in constant contact with oil?
Yes, absolutely. PA11 GF10 inherits the excellent resistance to oils, greases, and hydraulic fluids from its PA11 base. This makes it suitable for components in machinery, automotive systems, or fluid transfer applications where both chemical resistance and some structural rigidity are needed.
Q3: How does processing PA11 GF10 differ from processing PA6 GF10?
Key differences include: Lower Processing Temperature: PA11 processes at 220-250°C vs. 280-310°C for PA6. Less Drying Criticality: While drying is still required, PA11 is less prone to hydrolysis than PA6. Different Mold Temperature: A mold temperature of 50-70°C is typical for PA11, potentially lower than for PA6.










