DuPont Zytel? 101 NC010 Nylon 66
Subcategory: Nylon; Nylon 66; Polymer; Thermoplastic
Material Notes:
Zytel? 101 NC010 is a general purpose polyamide 66 resin for injection molding and extrusion.
No vendors are listed for this material. Please click here if you are a supplier and would like information on how to add your listing to this material.
| Physical Properties | Metric | English | Comments | |
|
||||
| Specific Gravity | 1.14 g/cc | 0.0412 lb/in? | DAM; ASTM D 792 | |
| Water Absorption | 1.2 % | 1.2 % | Immersion 24h; 23?C; DAM; ASTM D 570 | |
| Moisture Absorption at Equilibrium | 2.6 % | 2.6 % | 50%RH; 23?C; DAM; ISO 62, Similar to | |
| Water Absorption at Saturation | 8.5 % | 8.5 % | Immersed; 23?C; DAM; ISO 62, Similar to | |
| Water Absorption at Saturation | 8.5 % | 8.5 % | DAM; ASTM D 570 | |
| Linear Mold Shrinkage | 0.014 cm/cm | 0.014 in/in | Parallel 2.0mm; ISO 294-4 | |
| Linear Mold Shrinkage | 0.015 cm/cm | 0.015 in/in | Flow 3.2mm (0.125in) | |
| Linear Mold Shrinkage, Transverse | 0.014 cm/cm | 0.014 in/in | 2.0mm; ISO 294-4 | |
Mechanical Properties |
||||
|
||||
| Hardness, Rockwell M | 59 | 59 | 50%RH; ASTM D 785 | |
| Hardness, Rockwell M | 79 | 79 | DAM; ASTM D 785 | |
| Hardness, Rockwell R | 108 | 108 | 50%RH; ASTM D 785 | |
| Hardness, Rockwell R | 121 | 121 | DAM; ASTM D 785 | |
| Tensile Strength, Ultimate | 110 MPa | 16000 psi | -40?C; 50%RH; ASTM D 638 | |
| Tensile Strength, Ultimate | 114 MPa | 16500 psi | -40?C; DAM; ASTM D 638 | |
| Tensile Strength, Ultimate | 38 MPa | 5510 psi | 121?C; 50%RH; ASTM D 638 | |
| Tensile Strength, Ultimate | 41 MPa | 5950 psi | 77?C; 50%RH; ASTM D 638 | |
| Tensile Strength, Ultimate | 43 MPa | 6240 psi | 121?C; DAM; ASTM D 638 | |
| Tensile Strength, Ultimate | 62 MPa | 8990 psi | 77?C; DAM; ASTM D 638 | |
| Tensile Strength, Ultimate | 77 MPa | 11200 psi | 50%RH; ASTM D 638 | |
| Tensile Strength, Ultimate | 83 MPa | 12000 psi | DAM; ASTM D 638 | |
| Tensile Strength, Yield | 110 MPa | 16000 psi | -40?C; 50%RH; ASTM D 638 | |
| Tensile Strength, Yield | 114 MPa | 16500 psi | -40?C; DAM; ASTM D 638 | |
| Tensile Strength, Yield | 28 MPa | 4060 psi | 121?C; 50%RH; ASTM D 638 | |
| Tensile Strength, Yield | 33 MPa | 4790 psi | 121?C; DAM; ASTM D 638 | |
| Tensile Strength, Yield | 40 MPa | 5800 psi | 77?C; 50%RH; ASTM D 638 | |
| Tensile Strength, Yield | 45 MPa | 6530 psi | 77?C; DAM; ASTM D 638 | |
| Tensile Strength, Yield | 55 MPa | 7980 psi | 50%RH; ISO 527 | |
| Tensile Strength, Yield | 58 MPa | 8410 psi | 50%RH; ASTM D 638 | |
| Tensile Strength, Yield | 82 MPa | 11900 psi | DAM; ISO 527 | |
| Tensile Strength, Yield | 83 MPa | 12000 psi | DAM; ASTM D 638 | |
| Elongation at Break | Min 300 % | Min 300 % | 121?C; 50%RH; ASTM D 638 | |
| Elongation at Break | Min 300 % | Min 300 % | 121?C; DAM; ASTM D 638 | |
| Elongation at Break | Min 300 % | Min 300 % | 50%RH; ASTM D 638 | |
| Elongation at Break | Min 300 % | Min 300 % | 77?C; 50%RH; ASTM D 638 | |
| Elongation at Break | Min 300 % | Min 300 % | 77?C; DAM; ASTM D 638 | |
| Elongation at Break | Min 50 % | Min 50 % | 50%RH; Nominal; ISO 527 | |
| Elongation at Break | 15 % | 15 % | -40?C; DAM; ASTM D 638 | |
| Elongation at Break | 20 % | 20 % | -40?C; 50%RH; ASTM D 638 | |
| Elongation at Break | 25 % | 25 % | DAM; Nominal; ISO 527 | |
| Elongation at Break | 45 % | 45 % | ISO 527 | |
| Elongation at Break | 60 % | 60 % | DAM; ASTM D 638 | |
| Elongation at Yield | 25 % | 25 % | ASTM D 638 | |
| Elongation at Yield | 25 % | 25 % | ISO 527 | |
| Elongation at Yield | 30 % | 30 % | ASTM D 638 | |
| Elongation at Yield | 30 % | 30 % | ASTM D 638 | |
| Elongation at Yield | 4 % | 4 % | ASTM D 638 | |
| Elongation at Yield | 4.5 % | 4.5 % | ISO 527 | |
| Elongation at Yield | 40 % | 40 % | ASTM D 638 | |
| Elongation at Yield | 45 % | 45 % | ASTM D 638 | |
| Elongation at Yield | 5 % | 5 % | ASTM D 638 | |
| Tensile Modulus | 1.4 GPa | 203 ksi | 50%RH; ISO 527 | |
| Tensile Modulus | 3.1 GPa | 450 ksi | DAM; ISO 527 | |
| Flexural Modulus | 0.414 GPa | 60 ksi | 121?C; 50%RH; ASTM D 790 | |
| Flexural Modulus | 0.538 GPa | 78 ksi | 121?C; DAM; ASTM D 790 | |
| Flexural Modulus | 0.565 GPa | 81.9 ksi | 77?C; 50%RH; ASTM D 790 | |
| Flexural Modulus | 0.689 GPa | 99.9 ksi | 77?C; DAM; ASTM D 790 | |
| Flexural Modulus | 1.2 GPa | 174 ksi | 50%RH; ISO 178 | |
| Flexural Modulus | 1.21 GPa | 175 ksi | 50%RH; ASTM D 790 | |
| Flexural Modulus | 2.8 GPa | 406 ksi | DAM; ISO 178 | |
| Flexural Modulus | 2.83 GPa | 410 ksi | DAM; ASTM D 790 | |
| Flexural Modulus | 3.241 GPa | 470 ksi | -40?C; DAM; ASTM D 790 | |
| Flexural Modulus | 3.447 GPa | 500 ksi | -40?C; 50%RH; ASTM D 790 | |
| Shear Strength | 66.2 MPa | 9600 psi | DAM; ASTM D 732 | |
| Izod Impact, Notched (ISO) | 12 kJ/m? | 5.71 ft-lb/in? | 50%RH; ISO 180/1A | |
| Izod Impact, Notched (ISO) | 5.5 kJ/m? | 2.62 ft-lb/in? | DAM; ISO 180/1A | |
| Izod Impact, Unnotched (ISO) | NB | NB | 50%RH; ISO 180/1U | |
| Izod Impact, Unnotched (ISO) | NB | NB | DAM; ISO 180/1U | |
| Izod Impact, Unnotched Low Temp (ISO) | 300 kJ/m? | 143 ft-lb/in? | -30?C; DAM; ISO 180/1U | |
| Izod Impact, Notched, Low Temp (ISO) | 5.5 kJ/m? | 2.62 ft-lb/in? | -40?C; DAM; ISO 180/1A | |
| Izod Impact, Notched, Low Temp (ISO) | 5.5 kJ/m? | 2.62 ft-lb/in? | -30?C; DAM; ISO 180/1A | |
| Charpy Impact Unnotched | NB | NB | 50%RH; ISO 179/1eU | |
| Charpy Impact Unnotched | NB | NB | DAM; ISO 179/1eU | |
| Charpy Impact, Notched, Low Temp | 0.3 J/cm? | 1.43 ft-lb/in? | -40?C; DAM; ISO 179/1eA | |
| Charpy Impact, Notched, Low Temp | 0.3 J/cm? | 1.43 ft-lb/in? | -30?C; 50%RH; ISO 179/1eA | |
| Charpy Impact, Notched, Low Temp | 0.45 J/cm? | 2.14 ft-lb/in? | -30?C; DAM; ISO 179/1eA | |
| Charpy Impact, Unnotched Low Temp | 40 J/cm? | 190 ft-lb/in? | -30?C; DAM; ISO 179/1eU | |
| Charpy Impact, Unnotched Low Temp | NB | NB | -30?C; 50%RH; ISO 179/1eU | |
| Charpy Impact, Notched | 0.55 J/cm? | 2.62 ft-lb/in? | DAM; ISO 179/1eA | |
| Charpy Impact, Notched | 1.5 J/cm? | 7.14 ft-lb/in? | 50%RH; ISO 179/1eA | |
| Tensile Impact Strength | 1470 kJ/m? | 699 ft-lb/in? | 23?C; Long specimen; 50%RH; ASTM D 1822 | |
| Tensile Impact Strength | 158 kJ/m? | 75.2 ft-lb/in? | 23?C; Short specimen; DAM; ASTM D 1822 | |
| Tensile Impact Strength | 232 kJ/m? | 110 ft-lb/in? | 23?C; Short specimen; 50%RH; ASTM D 1822 | |
| Tensile Impact Strength | 504 kJ/m? | 240 ft-lb/in? | 23?C; Long specimen; DAM; ASTM D 1822 | |
| Izod Impact, Notched | 1.12 J/cm | 2.1 ft-lb/in | 50%RH; ASTM D 256 | |
| Izod Impact, Notched | 0.27 J/cm | 0.506 ft-lb/in | -40?C; 50%RH; ASTM D 256 | |
| Izod Impact, Notched | 0.32 J/cm | 0.599 ft-lb/in | -40?C; DAM; ASTM D 256 | |
| Izod Impact, Notched | 0.53 J/cm | 0.993 ft-lb/in | DAM; ASTM D 256 | |
Electrical Properties |
||||
|
||||
| Volume Resistivity | 1e+013 ohm-cm | 1e+013 ohm-cm | 50%RH; ASTM D 257 | |
| Volume Resistivity | 1e+015 ohm-cm | 1e+015 ohm-cm | DAM; ASTM D 257 | |
| Dielectric Constant | 3.6 | 3.6 | DAM; 1E6 Hz; ASTM D 150 | |
| Dielectric Constant | 3.9 | 3.9 | DAM; 1E3 Hz; ASTM D 150 | |
| Dielectric Constant | 4 | 4 | DAM; 1E2 Hz; ASTM D 150 | |
| Dielectric Constant | 4.6 | 4.6 | 50%RH; 1E6 Hz; ASTM D 150 | |
| Dielectric Constant | 7 | 7 | 50%RH; 1E3 Hz; ASTM D 150 | |
| Dielectric Constant | 8 | 8 | 50%RH; 1E2 Hz; ASTM D 150 | |
| Dielectric Strength | 18.1 kV/mm | 460 kV/in | 3.2mm (0.125in); DAM; Short Time; ASTM D 149 | |
| Dissipation Factor | 0.01 | 0.01 | DAM; 1E2 Hz; ASTM D 150 | |
| Dissipation Factor | 0.02 | 0.02 | DAM; 1E3 Hz; ASTM D 150 | |
| Dissipation Factor | 0.02 | 0.02 | DAM; 1E6 Hz; ASTM D 150 | |
| Dissipation Factor | 0.1 | 0.1 | 50%RH; 1E6 Hz; ASTM D 150 | |
| Dissipation Factor | 0.2 | 0.2 | 50%RH; 1E3 Hz; ASTM D 150 | |
| Dissipation Factor | 0.2 | 0.2 | 50%RH; 1E2 Hz; ASTM D 150 | |
| Comparative Tracking Index | Min 600 V | Min 600 V | DAM; UL 746A | |
Thermal Properties |
||||
|
||||
| CTE, linear 20?C | 100 ?m/m-?C | 55.6 ?in/in-?F | DAM; 23 - 55?C (73 - 130?F); Parallel; ASTM E 831 | |
| CTE, linear 20?C Transverse to Flow | 110 ?m/m-?C | 61.1 ?in/in-?F | DAM; 23 - 55?C (73 - 130?F); ASTM E 831 | |
| Melting Point | 262 ?C | 504 ?F | DAM; ASTM D 3418 | |
| Melting Point | 262 ?C | 504 ?F | 10?C/min; DAM; ISO 11357-1/-3 | |
| Deflection Temperature at 0.46 MPa (66 psi) | 200 ?C | 392 ?F | DAM; ISO 75-1/-2 | |
| Deflection Temperature at 0.46 MPa (66 psi) | 210 ?C | 410 ?F | DAM; ASTM D 648 | |
| Deflection Temperature at 1.8 MPa (264 psi) | 65 ?C | 149 ?F | DAM; ASTM D 648 | |
| Deflection Temperature at 1.8 MPa (264 psi) | 70 ?C | 158 ?F | DAM; ISO 75-1/-2 | |
| Brittleness Temperature | -65 ?C | -85 ?F | 50%RH; ASTM D 746 | |
| Brittleness Temperature | -80 ?C | -112 ?F | DAM; ASTM D 746 | |
| UL RTI, Electrical | 130 ?C | 266 ?F | 3.0mm; DAM; UL 746B | |
| UL RTI, Electrical | 130 ?C | 266 ?F | 6.0mm; DAM; UL 746B | |
| UL RTI, Electrical | 130 ?C | 266 ?F | 1.5mm; DAM; UL 746B | |
| UL RTI, Electrical | 130 ?C | 266 ?F | 0.71mm; DAM; UL 746B | |
| UL RTI, Mechanical with Impact | 75 ?C | 167 ?F | 0.71mm; DAM; UL 746B | |
| UL RTI, Mechanical with Impact | 75 ?C | 167 ?F | 1.5mm; DAM; UL 746B | |
| UL RTI, Mechanical with Impact | 75 ?C | 167 ?F | 6.0mm; DAM; UL 746B | |
| UL RTI, Mechanical with Impact | 75 ?C | 167 ?F | 3.0mm; DAM; UL 746B | |
| UL RTI, Mechanical without Impact | 85 ?C | 185 ?F | 3.0mm; DAM; UL 746B | |
| UL RTI, Mechanical without Impact | 85 ?C | 185 ?F | 6.0mm; DAM; UL 746B | |
| UL RTI, Mechanical without Impact | 85 ?C | 185 ?F | 1.5mm; DAM; UL 746B | |
| UL RTI, Mechanical without Impact | 85 ?C | 185 ?F | 0.71mm; DAM; UL 746B | |
| Flammability, UL94 | V-2 | V-2 | 1.5mm; DAM; IEC 60695-11-10 | |
| Flammability, UL94 | V-2 | V-2 | 1.5mm; DAM; UL94 | |
| Flammability, UL94 | V-2 | V-2 | 0.71mm; DAM; IEC 60695-11-10 | |
| Flammability, UL94 | V-2 | V-2 | 0.71mm; DAM; UL94 | |
| Flammability, UL94 | V-2 | V-2 | 3.0mm; DAM; IEC 60695-11-10 | |
| Flammability, UL94 | V-2 | V-2 | 3.0mm; DAM; UL94 | |
| Flammability, UL94 | V-2 | V-2 | 6.0mm; DAM; IEC 60695-11-10 | |
| Flammability, UL94 | V-2 | V-2 | 6.0mm; DAM; UL94 | |
| Oxygen Index | 28 % | 28 % | DAM; ASTM D 2863 | |
| Oxygen Index | 31 % | 31 % | 50%RH; ASTM D 2863 | |
| Glow Wire Test | 725 ?C | 1340 ?F | 0.71mm; DAM; Ignition Temperature; IEC 60695-2-13 | |
| Glow Wire Test | 750 ?C | 1380 ?F | 1.5mm; DAM; Ignition Temperature; IEC 60695-2-13 | |
| Glow Wire Test | 800 ?C | 1470 ?F | 3.0mm; DAM; Ignition Temperature; IEC 60695-2-13 | |
| Glow Wire Test | 960 ?C | 1760 ?F | 3.0mm; DAM; Flammability Index; IEC 60695-2-12 | |
| Glow Wire Test | 960 ?C | 1760 ?F | 1.5mm; DAM; Flammability Index; IEC 60695-2-12 | |
| Glow Wire Test | 960 ?C | 1760 ?F | 0.71mm; DAM; Flammability Index; IEC 60695-2-12 | |
Processing Properties |
||||
|
||||
| Melt Temperature | 280 - 300 ?C | 536 - 572 ?F | ||
| Melt Temperature | 290 ?C | 554 ?F | Optimum | |
| Mold Temperature | 50 - 90 ?C | 122 - 194 ?F | ||
| Mold Temperature | 70 ?C | 158 ?F | Optimum | |
| Drying Temperature | 80 ?C | 176 ?F | ||
| Dry Time | 2 - 4 hour | 2 - 4 hour | Dehumidified Dryer | |
| Moisture Content | Max 0.2 % | Max 0.2 % | ||
Descriptive Properties |
||||
|
||||
| Appearance | Natural Color | |||
| Drying | Recommended | If moisture content of resin exceeds recommended level | ||
| DuPont Product Category | Extrusion Resins | |||
| DuPont Product Category | Unreinforced Resins | |||
| Extrudable | Filament | |||
| Features | Wear Resistance, Good | |||
| Features | Chemical Resistance, Good | |||
| Features | Electrical Properties, Good | |||
| Form | Pellets | |||
| Injection Moldable | Yes | |||
| Part Marking Code | >PA66< | ISO 11469 | ||
| Processing Method | Injection Molding | |||
| Region | Americas | |||
| Region | Asia/Pacific | |||
| Region | Europe | |||
| Resin Identification | PA66 | ISO 1043 | ||
| Ultrasonic Weldable | Yes | |||
| Uses | Connectors | |||
| Uses | Automotive Applications | |||
| Uses | Electrical/Electronic Applications | |||
| Uses | Appliance Components | |||
|
||||
 Printer friendly version |
||||
Some of the values displayed above may have been converted from their original units and/or rounded in order to display the information in a consistant format. Users requiring more precise data for scientific or engineering calculations can click on the property value to see the original value as well as raw conversions to equivalent units. We advise that you only use the original value or one of its raw conversions in your calculations to minimize rounding error. We also ask that you refer to MatWeb's disclaimer and terms of use regarding this information. Click here to view all the property values for this datasheet as they were originally entered into MatWeb.
