Feature: | Oxidative Degradable |
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CAS No.: | 32131-17-2 |
Formula: | (C12h22n2o2)N |
Samples: |
BAG
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Customization: |
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Shipping Cost:
Estimated freight per unit. |
about shipping cost and estimated delivery time. |
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Payment Method: | |
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Initial Payment Full Payment |
Currency: | US$ |
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Return&refunds: | You can apply for a refund up to 30 days after receipt of the products. |
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PA66 resin has tensile strength and modulus properties just below aluminum
https://forever-plastics.en.made-in-china.com/product/rJwRvlcdZpWD/China-Nylon-PA6-GF33-PA66-Granules-PA6-with-30GF-Polyamide-PA66-30-GF-PA6-Material.html Heat-conducting nylon
Product Description | ||||||||
R533 NAT is general-purpose, 33% glass-fiber reinforced PA66 resin. Available in natural, it is an injection- molding grade that is lubricated for good machine feed, flow and mold release. Glass-reinforced Vydyne resins provide higher heat distortion temperature, resistance to creep and better dimensional stability when compared with unreinforced PA66. These products have good chemical resistance to a broad range of chemicals including hydraulic fluids and most solvents. Vydyne R533 NAT resin has tensile strength and modulus properties just below aluminum and zinc and can replace these metals in numerous applications due to an excellent balance of properties. Reduction in production costs, energy consumption and part weight are key advantages of Vydyne glass-fiber reinforced PA66 resins over aluminum and/or zinc die-cast parts. |
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General | ||||||||
Form | Resin Pellets | |||||||
Filler | 33 % Glass Fiber | |||||||
Feature |
Chemical Resistant Corrosion Resistant | Fda | ||||||
Good Dimensional Excellent Processability High Mechanical Strength Nsf A d Ri idit |
Good Thermal Good Electrical Properties |
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UL Yellow Card | E70062-249084 | |||||||
Appliance Components | Lighting Applications | Thin-walled Parts | ||||||
Uses Automotive | Engineered | Gear Wheels | ||||||
Electrical | Power | |||||||
Physical | Nominal Value | Test Method | ||||||
Density, dry | 1.40 g/cm³ | ISO 1183 | ||||||
Dry: Molding Shrinkage, Across Flow(23 °C;2 mm) | 0.90 % | ISO 294-4 | ||||||
Dry: Molding Shrinkage, Flow(23 °C;2 mm) | 0.40 % | ISO 294-4 | ||||||
Dry: Water Absorption(24 hr;23 °C) | 0.80 % | ISO 62 | ||||||
Dry: Water Absorption, Equilibrium(50% RH;23 °C) | 1.7 % | ISO 62 | ||||||
Mechanical | Nominal Value | Test Method | ||||||
Dry: Tensile Modulus(23 °C) | 10600 MPa | ISO 527-2 | ||||||
Condition: Tensile Modulus(23 °C) | 7900 MPa | ISO 527-2 | ||||||
Dry: Tensile Stress, Break(23 °C) | 205 MPa | ISO 527-2 | ||||||
Condition: Tensile Stress, Break(23 °C) | 145 MPa | ISO 527-2 | ||||||
Dry: Tensile Strain, Break(23 °C) | 3.0 % | ISO 527-2 | ||||||
Condition: Tensile Strain, Break(23 °C) | 5.0 % | ISO 527-2 | ||||||
Dry: Flexural Modulus(23 °C) | 10200 MPa | ISO 178 | ||||||
Condition: Flexural Modulus(23 °C) | 6500 MPa | ISO 178 | ||||||
Dry: Flexural Stress(23 °C) | 290 MPa | ISO 178 | ||||||
Condition: Flexural Stress(23 °C) | 200 MPa | ISO 178 | ||||||
Dry: Poisson's Ratio | 0.40 | ISO 527-2 | ||||||
Dry: Charpy Notched Impact Strength -40 °C -30 °C 23 °C |
11 kJ/m² 11 kJ/m² 13 kJ/m² |
ISO 179 | ||||||
Condition: Charpy Notched Impact Strength -40 °C -30 °C 23 °C |
11 kJ/m² 11 kJ/m² 17 kJ/m² |
ISO 179 | ||||||
Dry: Charpy Unnotched Impact Strength -40 °C -30 °C 23 °C |
69 kJ/m² 71 kJ/m² 86 kJ/m² |
ISO 179 | ||||||
Condition: Charpy Unnotched Impact Strength -40 °C -30 °C 23 °C |
75 kJ/m² 77 kJ/m² 100 kJ/m² |
ISO 179 | ||||||
Dry: Notched Izod Impact Strength -40 °C -30 °C 23 °C |
10 kJ/m² 10 kJ/m² 12 kJ/m² |
ISO 180 | ||||||
Notched Izod Impact Strength: condition -40 °C -30 °C 23 °C |
11 kJ/m² 12 kJ/m² 16 kJ/m² |
ISO 180 | ||||||
Thermal | Nominal Value | Test Method | ||||||
Dry: Heat Deflection Temperature, Unannealed 0.45 MPa 1.8 MPa |
260 °C 250 °C |
ISO 75-2/B ISO 75-2/A |
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Dry: Melting Temperature | 260 °C | ISO 11357-3 | ||||||
Dry: CLTE, Flow(23 - 55 °C;2 mm) | 2.1E-5 cm/cm/°C | ISO 11359-2 | ||||||
Dry: CLTE, Transverse(23 - 55 °C;2 mm) | 1.1E-4 cm/cm/°C | ISO 11359-2 | ||||||
Dry: RTI Elec 0.75 mm 1.5 mm 3 mm |
120 °C 120 °C 120 °C |
UL 746 | ||||||
Dry: RTI Imp 0.75 mm 1.5 mm 3 mm |
100 °C 100 °C 105 °C |
UL 746 | ||||||
Dry: RTI Str 0.75 mm 1.5 mm 3 mm |
125 °C 125 °C 125 °C |
UL 746 | ||||||
Dry: Flame Rating 0.75 mm 1.5 mm 3 mm |
HB HB HB |
UL 94 | ||||||
Dry: Glow Wire Flammability Index 0.75 mm 1.5 mm 3 mm |
750 °C 725 °C 800 °C |
IEC 60695-2-12 | ||||||
Dry: Glow Wire Ignition Temperature 0.75 mm 1.5 mm 3 mm |
775 °C 725 °C 750 °C |
IEC 60695-2-13 | ||||||
Electrical | Nominal Value | Test Method | ||||||
Dry: Volume Resistivity(3 mm) | 1.0e+14 ohms ·cm | IEC 60093 | ||||||
Dry: Dielectric Strength(1 mm) | 20 kV/mm | IEC 60243 | ||||||
Dry: Arc Resistance(3 mm) | PLC5 | ASTM D495 | ||||||
Dry: Comparative Tracking Index(3 mm) | 600 V | IEC 60112 | ||||||
Dry: High Amp Arc Ignition, HAI 0.75 mm 1.5 mm 3 mm |
PLC 0 PLC 0 PLC 0 |
UL 746 | ||||||
Dry: High Voltage Arc Tracking Rate, HVTR | PLC 1 | UL 746 | ||||||
Dry: Hot-wire Ignition, HWI 0.75 mm 1.5 mm 3 mm |
PLC4 PLC4 PLC 3 |
UL 746 | ||||||
Processing | Nominal Value | |||||||
Drying Temperature<Injection> | 80 °C | |||||||
Drying Time<Injection> | 4.0 hr | |||||||
Suggested Max Regrind <Injection> | 50 % | |||||||
Rear Temperature<Injection> | 280 - 310 °C | |||||||
Middle Temperature<injection> | 280 - 310 °C | |||||||
Front Temperature<Injection> | 280 - 310 °C | |||||||
Nozzle Temperature<Injection> | 280 - 310 °C | |||||||
Processing Temp, Melt<Injection> | 285 - 305 °C | |||||||
Mold Temperature<Injection> | 65 - 95 °C |
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