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PA66 Leona™ 1402SH XA1 ASAHI JAPAN
378
- Unit Price:US$ 3,280 /MT
- Packaging Specification:25 KG/PKG
- Packaging Material:Paper bag
- Supply Quantity:239MT
- Delivery Terms:FOB
- Port of Loading :Guangzhou port, China
- Accepted Payment Methods:T/T
- Shipping:Negotiate supplier for shipping details
Supplier Information
ASIA PLASTIC EXCHANGE LIMITED
+86 755 ********View
serv********View
+86 ********View
For more details, please contact the supplier!
Material Description
- Material Properties:Medium viscosity|Excellent articulation|Plasticity and demolding performance|Used for rapid modeling cycles
- Application Areas:Washer|Hose|Wire sheath|Application in the automotive field|Laptop case|parts|Wire and cable applications|Joint|Clip
- Color:--
- Grade:Injection grade
Technical Data Sheet
| Other performance | Test Condition | Test Method | Test Result | Test Unit |
|---|---|---|---|---|
| Extreme Oxygen Index | 干 | ASTM D-2863 | 26 | % |
| impact performance | Test Condition | Test Method | Test Result | Test Unit |
| Impact strength of simply supported beam without notch | ISO 179 | NoBreak | ||
| flammability | Test Condition | Test Method | Test Result | Test Unit |
| UL flame retardant rating | 0.75mm | UL 94 | V-2 | |
| Extreme Oxygen Index | ASTM D2863 | 26 | % | |
| Basic Performance | Test Condition | Test Method | Test Result | Test Unit |
| Water absorption rate | 湿 | 2.5 | % | |
| mechanical properties | Test Condition | Test Method | Test Result | Test Unit |
| elongation | Break | ASTM D638 | 50 | % |
| Tensile strain | Yield,23°C | ISO 527-2 | 4.5 | % |
| tensile strength | Yield,23°C | ISO 527-2 | 82.0 | Mpa |
| ASTM D638 | 79.0 | Mpa | ||
| Tensile modulus | 23°C | ISO 527-2 | 3000 | Mpa |
| Tensile strain | Break,23°C | ISO 527-2 | -- | % |
| Bending modulus | ASTM D790 | 2800 | Mpa | |
| 23°C | ISO 178 | 2600 | Mpa | |
| bending strength | ASTM D790 | 118 | Mpa | |
| 23°C | ISO 178 | 111 | Mpa | |
| Taber abraser | 1000Cycles | ASTM D1044 | -- | mg |
| flexural coefficient | 干(湿) | ASTM D-790 | 2.8(1.0) | GPa |
| Rockwell hardness | 干(湿) | ASTM D-785 | 120(108) | R scale |
| Impact strength of cantilever beam gap | 干(湿) | ASTM D-256 | 39(196) | J/m |
| bending strength | 干(湿) | ASTM D-790 | 118(50) | Mpa |
| Rockwell hardness | 干(湿) | ASTM D-785 | 80(55) | M Scale |
| Elongation at Break | 干(湿) | ASTM D-638 | 50(270) | % |
| tensile strength | 干(湿) | ASTM D-638 | 79(55) | Mpa |
| thermal performance | Test Condition | Test Method | Test Result | Test Unit |
| Linear coefficient of thermal expansion | 干 | ASTM D-696 | 8 | |
| thermal conductivity | 干 | 0.2 | W/(m.K) | |
| specific heat | 干 | 1670 | J/(kg.k) | |
| Hot deformation temperature | 0.46MPa,干 | ASTM D-648 | 230 | °C |
| 1.82MPa,干 | ASTM D-648 | 70 | °C | |
| UL flame retardant rating | 干 | UL 94 | V-2 | |
| Hot deformation temperature | 0.45MPa,Unannealed | ASTM D648 | 230 | °C |
| 0.45MPa,Unannealed | ISO 75-2/B | 162 | °C | |
| 1.8MPa,Unannealed | ASTM D648 | 70.0 | °C | |
| 1.8MPa,Unannealed | ISO 75-2/A | 62.0 | °C | |
| Linear coefficient of thermal expansion | MD | ASTM D696 | 8E-05 | cm/cm/°C |
| specific heat | 1670 | J/kg/°C | ||
| thermal conductivity | 0.20 | W/m/K | ||
| Physical properties | Test Condition | Test Method | Test Result | Test Unit |
| Water absorption rate | Equilibrium,23°C,50%RH | ISO 62 | -- | % |
| Saturation,23°C | -- | % | ||
| Shrinkage rate | MD | Internal Method | 1.3-2.0 | % |
| Wear factor | 湿 | ASTM D-1044 | 7 | |
| Shrinkage rate | 干 | 旭化成方法 | 1.3-2.0 | % |
| Electrical performance | Test Condition | Test Method | Test Result | Test Unit |
| Surface resistivity | IEC 60093 | 1E+13 | ohms | |
| Volume resistivity | 23°C | IEC 60093 | 1E+14 | ohms·cm |
| Dielectric strength | IEC 60243-1 | 20 | KV/mm | |
| Compared to the anti leakage trace index | 3.00mm | IEC 60112 | PLC 1 | |
| hardness | Test Condition | Test Method | Test Result | Test Unit |
| Rockwell hardness | M-Sale | ASTM D785 | 80 | |
| R-Sale | ASTM D785 | 120 | ||
| M-Sale | ISO 2039-2 | 80 | ||
| R-Sale | ISO 2039-2 | 120 |
IMPORTANT NOTES: Plas.com collected the data in the data sheet from the material manufacturers. Plas.com makes the best effort to improve the accuracy of the data, but has no responsibility for the data. We strongly recommend verifying the validity of the data with the material manufacturers before making a final decision.