| Feature: | Engineering Plastics |
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| CAS No.: | 32131-17-2 |
| Formula: | C36h66n6o6 |
| Samples: |
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| 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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Audited Supplier Zytel® 80G33HS1L NC010 is a 33% glass fiber reinforced heat stabilized polyamide 66 resin with outstanding impact resistance developed using DuPont Super Tough technology. Common features of Zytel® nylon resin include mechanical and physical properties such as high mechanical strength, excellent balance of stiffness and toughness, good high temperature performance, good electrical and flammability properties, good abrasion and chemical resistance. In addition, Zytel® nylon resins are available in different modified and reinforced grades to create a wide range of products with tailored properties for specific processes and end-uses. Zytel® nylon resin, including most flame retardant grades, offer the ability to be coloured. The good melt stability of Zytel® nylon resin normally enables the recycling of properly handled production waste. If recycling is not possible, DuPont recommends, as the preferred option, incineration with energy recovery (-31kJ/g of base polymer) in appropriately equipped installations. For disposal, local regulations have to be observed. Zytel® nylon resin typically is used in demanding applications in the automotive, furniture, domestic appliances, sporting goods and construction industry.
| Product Description | ||||
| Zytel® 80G33HS1L NC010 is a 33% glass fiber reinforced heat stabilized polyamide 66 resin with outstanding impact resistance developed using DuPont Super Tough technology. Common features of Zytel® nylon resin include mechanical and physical properties such as high mechanical strength, excellent balance of stiffness and toughness, good high temperature performance, good electrical and flammability properties, good abrasion and chemical resistance. In addition, Zytel® nylon resins are available in different modified and reinforced grades to create a wide range of products with tailored properties for specific processes and end-uses. Zytel® nylon resin, including most flame retardant grades, offer the ability to be coloured. The good melt stability of Zytel® nylon resin normally enables the recycling of properly handled production waste. If recycling is not possible, DuPont recommends, as the preferred option, incineration with energy recovery (-31kJ/g of base polymer) in appropriately equipped installations. For disposal, local regulations have to be observed. Zytel® nylon resin typically is used in demanding applications in the automotive, furniture, domestic appliances, sporting goods and construction industry. | ||||
| General | ||||
| Form | ||||
| Filler | 33 % Glass Fiber | |||
| Feature | Good Thermal | |||
| UL Yellow Card E41938-234426 | ||||
| Physical | Nominal Value | Test Method | ||
| Density, dry | 1.33 g/cm³ | ISO 1183 | ||
| Density of melt | 1.12 g/cm³ | |||
| Dry: Molding Shrinkage, Across Flow | 0.70 % | ISO 294-4 | ||
| Dry: Molding Shrinkage, Flow | 0.30 % | ISO 294-4 | ||
| Dry: Water Absorption(24 hr;23 °C) | 0.85 % | ISO 62 | ||
| Dry: Water Absorption, Saturation(23 °C;2 mm) | 4.5 % | ISO 62 | ||
| Dry: Water Absorption, Equilibrium(50% RH;23 °C;2 | mm) 1.5 % | ISO 62 | ||
| Dry: Viscosity Number, Sulphuric Acid(96% H2SO4) | 144 cm³/g | ISO 307 | ||
| Dry: Rockwell Hardness, M-Scale | 70 | ISO 2039-2 | ||
| Dry: Rockwell Hardness, R-Scale | 110 | ISO 2039-2 | ||
| Dry: Fogging - G-value, condensate | 8.0E-4 g | ISO 6452 | ||
| Dry: Melt Density | 1.12 g/cm³ | |||
| Dry: Emission of Organic Compounds | 25.0 µgC/g | VDA 277 | ||
| Dry: Odor | 3.00 | VDA 270 | ||
| Mechanical | Nominal Value | Test Method | ||
| Dry: Tensile Modulus | 8900 MPa | ISO 527-2 | ||
| Condition: Tensile Modulus | 6200 MPa | ISO 527-2 | ||
| Dry: Tensile Stress, Break | 146 MPa | ISO 527-2 |
| Condition: Tensile Stress, Break | 108 MPa | ISO 527-2 |
| Dry: Tensile Strain, Break | 3.7 % | ISO 527-2 |
| Condition: Tensile Strain, Break | 7.0 % | ISO 527-2 |
| Condition: Tensile creep modulus 1 hr 1.0e+3 hr |
5300 MPa 4300 MPa |
ISO 899-1 |
| Dry: Flexural Modulus | 7500 MPa | ISO 178 |
| Condition: Flexural Modulus | 6200 MPa | ISO 178 |
| Dry: Charpy Notched Impact Strength -40 °C -30 °C 23 °C |
14 kJ/m² 18 kJ/m² 20 kJ/m² |
ISO 179 1eA |
| Condition: Charpy Notched Impact Strength -40 °C -30 °C 23 °C |
18 kJ/m² 17 kJ/m² 28 kJ/m² |
ISO 179 1eA |
| Dry: Charpy Unnotched Impact Strength -30 °C 23 °C |
110 kJ/m² 97 kJ/m² |
ISO 179 1eU |
| Condition: Charpy Unnotched Impact Strength -30 °C 23 °C |
100 kJ/m² 98 kJ/m² |
ISO 179 1eU |
| Dry: Notched Izod Impact Strength -40 °C -30 °C 23 °C |
15 kJ/m² 17 kJ/m² 21 kJ/m² |
ISO 180/1A |
| Notched Izod Impact Strength: condition -40 °C -30 °C 23 °C |
15 kJ/m² 16 kJ/m² 26 kJ/m² |
ISO 180/1A |
| Dry: Unnotched Izod Impact Strength -30 °C 23 °C |
80 kJ/m² 80 kJ/m² |
ISO 180/1U |
| Condition: Unnotched Izod Impact Strength -30 °C 23 °C |
ISO 180/1U 75 kJ/m² 80 kJ/m² |
| Dry: Poisson's Ratio | 0.34 |
| Condition: Poisson's Ratio | 0.35 |
| Thermal | Nominal Value | Test Method |
| Dry: Heat Deflection Temperature, Unannealed 0.45 MPa 1.8 MPa |
261 °C 246 °C |
ISO 75-2/B ISO 75-2/A |
| Dry: Glass Transition Temperature(10 °C;min) | 75.0 °C | ISO 11357-2 |
| Dry: Vicat softening temperature | 245 °C | ISO 306/B50 |
| Dry: Melting Temperature(10 °C;min) | 262 °C | ISO 11357-3 |
| Dry: CLTE, Flow | 1.5E-5 cm/cm/°C | ISO 11359-2 |
| Dry: CLTE, Transverse | 1.2E-4 cm/cm/°C | ISO 11359-2 |
| Dry: Effective Thermal Diffusivity | 9.00E-8 m²/s | |
| Dry: Burning rate(1 mm;FMVSS 302;SE/B) | 23 mm/min | ISO 3795 |
| Dry: Flame Rating 0.75 mm 1.5 mm |
HB HB |
UL 94;IEC 60695- 11-10;-20 |
| Dry: FMVSS Flammability | SE/B | FMVSS 302 |
| Dry: RTI Elec | 130 °C 130 °C |
UL 746B |
| RTI, electrical | 130 °C | UL 746B |
| RTI, impact | 65 °C 105 °C |
UL 746B |
| Dry: RTI Imp | 105 °C | UL 746B |
| RTI, strength | 85 °C 105 °C |
UL 746B |
| Dry: RTI Str | 95 °C | UL 746B |
| Glow Wire Flammability Index, by VDE(1 mm) | 650 °C | IEC 60695-2-12 |
| Dry: Thermal Conductivity of Melt | 0.22 W/m-K | |
| Dry: Specific Heat Capacity of Melt | 2200 J/kg/°C |
| Electrical | Nominal Value | Test Method |
| Dry: Relative permittivity | 3.6 | IEC 62631-2-1 |
| Condition: Relative Permittivity | 4.3 | IEC 62631-2-1 |
| Dry: Dissipation Factor | 0.013 | IEC 62631-3-1 |
| Condition: Dissipation factor | 0.06 | IEC 62631-3-2 |
| Condition: Surface resistivity | 1.0E+12 ohms | IEC 62631-3-2 |
| Dry: Volume Resistivity | > 1E+11 ohms·cm | IEC 62631-3-1 |
| Condition: Volume resistivity | 1E+7 ohms·cm | IEC 62631-3-1 |
| Condition: Comparative Tracking Index | 425 V | IEC 60112 |
| Processing | Nominal Value | |
| Drying Temperature<Injection> | 80 °C | |
| Drying Time - Desiccant Dryer<Injection> | 2.0 - 4.0 hr | |
| Suggested Max Moisture<Injection> | 0.20 % | |
| Processing Temp, Melt<Injection> | 285 - 305 °C | |
| Melt Temperature, Optimum<Injection> | 295 °C | |
| Mold Temperature<Injection> | 50 - 100 °C | |
| Mold Temperature, Optimum<Injection> | 80 °C | |
| Holding Pressure<Injection> | 50.0 - 100 MPa | |
| Drying Recommended<Injection> | YES | |
| Hold Pressure Time<Injection> | 3.00 s/mm | |
| Maximum Screw Tangential Speed<Injection> | 12 m/min | |
| Ejection Temperature | 210 °C | |
| Dry: Ejection Temperature | 210 °C |
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