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PA 6-XH
Forever
PA 6-XH compounds are a type of thermoplastic polymer that exhibit elastomeric behavior across a broad temperature range due to the process of beta radiation cross-linking. This cross-linking enables the original thermoplastic material to endure higher temperatures, up to 350 °C, leading to improved shape retention under thermal stress. With its exceptional performance characteristics, crosslinkable PA 6-XH can serve as a cost-effective alternative to expensive high-performance plastics like PPA, PPS, or LCP in various applications.
General | ||
Form Resin Pellets | ||
Feature Crosslinkable | Good Electrical Properties | |
Physical | Nominal Value | Test Method |
Density, dry | 1.13 g/cm³ | ISO 1183 |
Dry: Molding Shrinkage, Across Flow(600 bar;80 °C;260 °CWZ) | 1.3 % | ISO 294-4 |
Dry: Molding Shrinkage, Flow(600 bar;80 °C;260 °CWZ) | 1.0 % | ISO 294-4 |
Dry: Water Absorption, Saturation(23 °C) | 9.0 % | ISO 62 |
Dry: Water Absorption, Equilibrium(50% RH;23 °C) | 3.0 % | ISO 62 |
Dry: Viscosity Number | 150 cm³/g | ISO 307 |
Mechanical | Nominal Value | Test Method |
Dry: Tensile Modulus | 2900 MPa | ISO 527-2/1 |
Condition: Tensile Modulus | 1000 MPa | ISO 527-2/1 |
Dry: Tensile Stress, Yield | 80.0 MPa | ISO 527-2/50 |
Condition: Tensile Stress, Yield | 40.0 MPa | ISO 527-2/50 |
Dry: Tensile Stress, Break | 55.0 MPa | ISO 527-2/50 |
Condition: Tensile Stress, Break | 50.0 MPa | ISO 527-2/50 |
Dry: Tensile Strain, Yield | 4.0 % | ISO 527-2/50 |
Condition: Tensile Strain, Yield | 15 % | ISO 527-2/50 |
Dry: Tensile Strain, Break | 15 % | ISO 527-2/50 |
Condition: Tensile Strain, Break | > 50 % | ISO 527-2/50 |
Dry: Charpy Notched Impact Strength -30 °C 23 °C |
4.0 kJ/m² 4.0 kJ/m² | ISO 179 1eA |
Condition: Charpy Notched Impact Strength -30 °C 23 °C |
4.0 kJ/m² 30 kJ/m² | ISO 179 1eA |
Dry: Charpy Unnotched Impact Strength -30 °C 23 °C |
No Break No Break | ISO 179 1eU |
Condition: Charpy Unnotched Impact Strength(23 °C) | No Break | ISO 179 1eU |
Thermal | Nominal Value | Test Method |
Dry: Heat Deflection Temperature, Unannealed 0.45 MPa 1.8 MPa |
175 °C 60.0 °C |
ISO 75-2/B ISO 75-2/A |
Dry: Vicat softening temperature | 200 °C | ISO 306/B120 |
Dry: Melting Temperature | 222 °C | ISO 11357-3 |
Dry: CLTE, Flow(23 - 80 °C) | 7.0E-5 - 1.0E-4 cm/cm/°C | ISO 11359-2 |
Dry: CLTE, Transverse(23 - 80 °C) | 7.0E-5 - 1.0E-4 cm/cm/°C | ISO 11359-2 |
Dry: Heat Distortion | < 350 °C | |
Condition: Heat Distortion | < 350 °C | |
Dry: Flame Rating(0.8 mm) | V-2 | UL 94 |
Electrical | Nominal Value | Test Method |
Dry: Surface Resistivity | 1.0E+10 ohms | IEC 60093 |
Dry: Volume Resistivity | 1.0e+15 ohms ·cm | IEC 60093 |
Dry: Electric Strength(1 mm) | 30 kV/mm | IEC 60243-1 |
Dry: Relative permittivity(1.0e+6 Hz) | 3.50 | IEC 60250 |
Dry: Comparative Tracking Index, Solution A | 600 V | IEC 60112 |
PA 6-XH compounds are a type of thermoplastic polymer that exhibit elastomeric behavior across a broad temperature range due to the process of beta radiation cross-linking. This cross-linking enables the original thermoplastic material to endure higher temperatures, up to 350 °C, leading to improved shape retention under thermal stress. With its exceptional performance characteristics, crosslinkable PA 6-XH can serve as a cost-effective alternative to expensive high-performance plastics like PPA, PPS, or LCP in various applications.
General | ||
Form Resin Pellets | ||
Feature Crosslinkable | Good Electrical Properties | |
Physical | Nominal Value | Test Method |
Density, dry | 1.13 g/cm³ | ISO 1183 |
Dry: Molding Shrinkage, Across Flow(600 bar;80 °C;260 °CWZ) | 1.3 % | ISO 294-4 |
Dry: Molding Shrinkage, Flow(600 bar;80 °C;260 °CWZ) | 1.0 % | ISO 294-4 |
Dry: Water Absorption, Saturation(23 °C) | 9.0 % | ISO 62 |
Dry: Water Absorption, Equilibrium(50% RH;23 °C) | 3.0 % | ISO 62 |
Dry: Viscosity Number | 150 cm³/g | ISO 307 |
Mechanical | Nominal Value | Test Method |
Dry: Tensile Modulus | 2900 MPa | ISO 527-2/1 |
Condition: Tensile Modulus | 1000 MPa | ISO 527-2/1 |
Dry: Tensile Stress, Yield | 80.0 MPa | ISO 527-2/50 |
Condition: Tensile Stress, Yield | 40.0 MPa | ISO 527-2/50 |
Dry: Tensile Stress, Break | 55.0 MPa | ISO 527-2/50 |
Condition: Tensile Stress, Break | 50.0 MPa | ISO 527-2/50 |
Dry: Tensile Strain, Yield | 4.0 % | ISO 527-2/50 |
Condition: Tensile Strain, Yield | 15 % | ISO 527-2/50 |
Dry: Tensile Strain, Break | 15 % | ISO 527-2/50 |
Condition: Tensile Strain, Break | > 50 % | ISO 527-2/50 |
Dry: Charpy Notched Impact Strength -30 °C 23 °C |
4.0 kJ/m² 4.0 kJ/m² | ISO 179 1eA |
Condition: Charpy Notched Impact Strength -30 °C 23 °C |
4.0 kJ/m² 30 kJ/m² | ISO 179 1eA |
Dry: Charpy Unnotched Impact Strength -30 °C 23 °C |
No Break No Break | ISO 179 1eU |
Condition: Charpy Unnotched Impact Strength(23 °C) | No Break | ISO 179 1eU |
Thermal | Nominal Value | Test Method |
Dry: Heat Deflection Temperature, Unannealed 0.45 MPa 1.8 MPa |
175 °C 60.0 °C |
ISO 75-2/B ISO 75-2/A |
Dry: Vicat softening temperature | 200 °C | ISO 306/B120 |
Dry: Melting Temperature | 222 °C | ISO 11357-3 |
Dry: CLTE, Flow(23 - 80 °C) | 7.0E-5 - 1.0E-4 cm/cm/°C | ISO 11359-2 |
Dry: CLTE, Transverse(23 - 80 °C) | 7.0E-5 - 1.0E-4 cm/cm/°C | ISO 11359-2 |
Dry: Heat Distortion | < 350 °C | |
Condition: Heat Distortion | < 350 °C | |
Dry: Flame Rating(0.8 mm) | V-2 | UL 94 |
Electrical | Nominal Value | Test Method |
Dry: Surface Resistivity | 1.0E+10 ohms | IEC 60093 |
Dry: Volume Resistivity | 1.0e+15 ohms ·cm | IEC 60093 |
Dry: Electric Strength(1 mm) | 30 kV/mm | IEC 60243-1 |
Dry: Relative permittivity(1.0e+6 Hz) | 3.50 | IEC 60250 |
Dry: Comparative Tracking Index, Solution A | 600 V | IEC 60112 |