| About |
|---|
| LEXAN™树脂BFL2010是一种无定形玻璃增强聚碳酸酯树脂。提供高度稳定的机械,电气,光学和热性能,改善流动性。属于非氯化,非溴化阻燃级别,具有UL-94 V0等级。具有抗冲击性,出色的尺寸稳定性和清晰度。通过注射成型加工。 |
| Product Description | |
|---|---|
| Supplier | SABIC |
| Generic | Polycarbonate |
| Material Status | Commercial: Active |
| Features | High impact resistance,Good Dimensional Stability,Heat Stabilized |
| Availabilitys | Africa & Middle East ,North America,Latin America,Asia Pacific |
| Technical Data | |||
|---|---|---|---|
| MECHANICAL | Nominal value | Unit | Test method |
| tensile strength | |||
| Yield, Type I, 50 mm/min | 58 | MPa | ASTM D638 |
| tensile strength | |||
| Fracture, Type I, 50 mm/min | 47 | MPa | ASTM D638 |
| Tensile strain | |||
| Yield, Type I, 50 mm/min | 4.7 | % | ASTM D638 |
| Tensile strain | |||
| Fracture, Type I, 50 mm/min | 15 | % | ASTM D638 |
| Tensile modulus | |||
| 50 mm/min | 3963.24 | MPa | ASTM D638 |
| bending strength | |||
| Yield, 50 mm span | 103.005 | MPa | ASTM D790 |
| Bending modulus | |||
| 2 mm/mim | 3190 | MPa | ISO 178 |
| 1.3 mm/min,50mm跨距 | 3394.26 | MPa | ASTM D790 |
| tensile strength | |||
| Fracture, 50 mm/min | 52 | MPa | ISO 527 |
| Yield, 50 mm/min | 62 | MPa | ISO 527 |
| Tensile strain | |||
| Fracture, 50 mm/min | 8.9 | % | ISO 527 |
| Yield, 50 mm/min | 4.8 | % | ISO 527 |
| Tensile modulus | |||
| 1 mm/min | 3510 | MPa | ISO 527 |
| bending strength | |||
| Yield, 2 mm/min | 98 | MPa | ISO 178 |
| IMPACT | Nominal value | Unit | Test method |
|---|---|---|---|
| Notched impact strength of cantilever beam | |||
| 23℃ | NB | J/m | ASTM D4812 |
| Impact strength of cantilever beam notch | |||
| 23℃ | 107.8 | J/m | ASTM D256 |
| Impact strength of cantilever beam notch | |||
| -30℃ | N/A | J/m | ASTM D256 |
| Total energy of instrument impact | |||
| 23℃ | 622 | cm-kgf | ASTM D 3763 |
| Notched impact strength of cantilever beam | |||
| 23℃,80*10*3 | NB | kJ/m² | |
| Notched impact strength of cantilever beam | |||
| -30℃,80*10*3 | 130 | kJ/m² | |
| Impact strength of cantilever beam notch | |||
| 80 * 10 * 3,-30℃ | 9 | kJ/m² | |
| 80 * 10 * 3 ,23℃ | 9 | kJ/m² | |
| Charpy Notched Impact Strength | |||
| 23 ℃, 80 * 10 * 3, 62mm span | 9 | kJ/m² | |
| -30 ℃, 80 * 10 * 3, 62mm span | 9 | kJ/m² | |
| Charpy Unnotch Impact strength | |||
| 23 ℃, 80 * 10 * 3, 62 mm span | NB | kJ/m² | |
| -30 ℃, 80 * 10 * 3, 62 mm span | NB | kJ/m² |
| THERMAL | Nominal value | Unit | Test method |
|---|---|---|---|
| Vicat Softening Temp | 143 | ℃ | ASTM D1525 |
| Hot deformation temperature | |||
| 0.45 MPa, unannealed, 64 mm span | 142 | ℃ | ISO 75/Af |
| 1.8 MPa, unannealed, 3.2 mm | 135 | ℃ | ASTM D648 |
| 0.45 MPa, unannealed, 3.2 mm | 141 | ℃ | ASTM D648 |
| Linear coefficient of thermal expansion | |||
| TD:-40~95℃ | 5.E-05 | 1/℃ | ISO 11359-2 |
| TD:-40~95℃ | 5.E-05 | 1/℃ | ASTM D696 |
| MD:-40~95℃ | 5.E-05 | 1/℃ | ISO 11359-2 |
| MD:-40~95℃ | 5.E-05 | 1/℃ | ASTM D696 |
| Ball pressure test | |||
| 125℃±2℃ | 通过 | IEC 60695-10-2 | |
| Vicat Softening Temp | 144 | ℃ | ISO 306 |
| Vicat Softening Temp | 145 | ℃ | ISO 306 |
| Relative temperature index | |||
| Non mechanical impact performance | 80 | ℃ | UL 746B |
| Electrical performance | 80 | ℃ | UL 746B |
| Impact mechanical performance | 80 | ℃ | UL 746B |
| PHYSICAL | Nominal value | Unit | Test method |
|---|---|---|---|
| Density | 1.3 | ASTM D792 | |
| Shrinkage rate | 0.4 – 0.6 | % | Internal Method |
| Melt Flow Rate | |||
| 300℃,1.20kg | 14.4 | g/10min | ASTM D1238 |
| Density | 1.27 | g/cm³ | ISO 1183 |
| Water absorption rate | |||
| 23℃,50% RH | 0.15 | % | ISO 62 |
| Saturation, 23 ℃ | 0.35 | % | ISO 62 |
| Melt Volume Rate | |||
| 300℃,1.2 kg | 12 | cm³/10min | ISO 1133 |
| Electrical performance | Nominal value | Unit | Test method |
|---|---|---|---|
| Insulation strength | |||
| 1.6 mm in air | 19.5 | kV/mm | ASTM D 149 |
| Volume resistivity | > 1.E + 15 | ohms·cm | IEC 60093 |
| Surface resistivity | |||
| ROA | > 1.E +15 | ohms | IEC 60093 |
| Relative permittivity | |||
| 1 MHz | 3 | IEC 60250 | |
| Dissipation factor | |||
| 50-60 Hz | 0.01 | IEC 60250 | |
| Dissipation factor | |||
| 1 MHz | 0.01 | IEC 60250 | |
| Comparison tracking index | 175 | V | IEC 60112 |
| Relative permittivity | |||
| 50-60 Hz | 3 | IEC 60250 |
| FLAME CHARACTERISTICS | Nominal value | Unit | Test method |
|---|---|---|---|
| 94V-0 flame level | 1.5 | mm | UL 94 |
| Glowing wire flammability index | |||
| 960 ℃, passed through | 1 | mm | IEC 60695-2-12 |
| Igniting temperature of the hot wire | |||
| 1.5 mm | 825 | ℃ | IEC 60695-2-13 |
| Extreme oxygen index | |||
| LOI | 38 | % | ISO 4589 |
| Process Conditions | |||
|---|---|---|---|
| injection molding | Nominal value | Unit | Test method |
| Drying temperature | 120 | °C | |
| Drying time | 2 – 4 | hrs | |
| Maximum water content | 0.02 | % | |
| Melt temperature | 290 – 320 | °C | |
| Nozzle temperature | 280 – 310 | °C | |
| Temperature in the first three zones | 290 – 320 | °C | |
| Temperature in Zone 2 of the middle section | 280 – 310 | °C | |
| Temperature in Zone 1 of the rear section | 270 – 300 | °C | |
| Hopper temperature | 60 – 80 | °C | |
| Mold temperature | 80 – 120 | °C | |
| Notes |
|---|
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