PC Makrolon® 2405 COVESTRO GERMANY
247
- Unit Price:
- $2119 USD/MT
- Packaging Specification:
- 25KG/PKG
- Supply Quantity:
- 35MT
- Delivery Terms:
- FOB
- Port of Loading:
- China Main Port
- Accepted Payment Methods:
- T/T
- Shipping:
- Negotiate supplier for shipping details
Supplier Information
ASIA PLASTIC EXCHANGE LIMITED
+86 130****13
serv********
For more detailed information including pricing, customization, and shipping, please contact supplier.
Technical Data Sheet
Physical Properties | Test Condition | Test Method | Test Result | Unit |
---|---|---|---|---|
Density / Specific Gravity | 23°C | ISO1183 | 1.20 | g/cm³ |
Apparent Density | ISO60 | 0.66 | g/cm³ | |
Melt Mass-Flow Rate | 300°C/1.2kg | ISO1133 | 20 | g/10min |
Melt Volume flow Rate | 300°C/1.2kg | ISO1133 | 19.0 | cm3/10min |
Modeling Shrinkage | TD | ISO2577 | 0.50to0.70 | % |
MD | ISO2577 | 0.50to0.70 | % | |
TD:2.00mm3 | ISO294-4 | 0.70 | % | |
MD:2.00mm3 | ISO294-4 | 0.65 | % | |
Moisture Absorption | Saturation,23°C | ISO62 | 0.30 | % |
Equilibrium,23°C,50%RH | ISO62 | 0.12 | % |
Mechanical Properties | Test Condition | Test Method | Test Result | Unit |
---|---|---|---|---|
Tensile Modulus | 23°C | ISO527-2/1 | 2400 | Mpa |
Tensile Stress | Yield,23°C | ISO527-2/50 | 65.0 | Mpa |
Break,23°C | ISO527-2/50 | 65.0 | Mpa | |
Tensile Strain | Yield,23°C | ISO527-2/50 | 6.0 | % |
Break,23°C | ISO527-2/50 | 130 | % | |
Nominal Tensile Strain at Break | 23°C | ISO527-2/50 | >50 | % |
Tensile Creep Modulus | 1hr | ISO899-1 | 2200 | Mpa |
Tensile Creep Modulus | 1000hr | ISO899-1 | 1900 | Mpa |
Flexural Modulus | 23°C | ISO178 | 2350 | Mpa |
Flexural Stress | 3.5%Strain,23°C | ISO178 | 73.0 | Mpa |
23°C | ISO178 | 97.0 | Mpa | |
Flexural Strain | 23°C | ISO178 | 7.1 | % |
Thermal Properties | Test Condition | Test Method | Test Result | Unit |
---|---|---|---|---|
Ball PressureTest | 136°C | IEC60695-10-2 | Pass | |
Coefficient of Linear Thermal Expansion | MD:23to55°C | ISO11359-2 | 6.5E-05 | cm/cm/°C |
TD:23to55°C | ISO11359-2 | 6.5E-05 | cm/cm/°C | |
Thermal Conductivity | 23°C | ISO8302 | 0.20 | W/m/K |
RTIElec | 1.5mm | UL746 | 125 | °C |
RTIImp | 1.5mm | UL746 | 115 | °C |
RTIStr | 1.5mm | UL746 | 125 | °C |
Heat Deflection Temperature | 0.45MPa,Unannealed | ISO75-2/B | 137 | °C |
1.8MPa,Unannealed | ISO75-2/A | 124 | °C | |
Glass Transition Temperature | ISO11357-2 | 144 | °C | |
Vicat Softening Temperature | -- | ISO306/B50 | 145 | °C |
-- | ISO306/B120 | 146 | °C |
Electrical Properties | Test Condition | Test Method | Test Result | Unit |
---|---|---|---|---|
Surface Resistivity | IEC60093 | 1E+16 | ohms | |
Volume Resistivity | 23°C | IEC60093 | 1E+16 | ohms·cm |
Dielectric Strength | 23°C,1.00mm | IEC60243-1 | 34 | KV/mm |
Relative Permittivity | 23°C,100Hz | IEC60250 | 3.10 | |
23°C,1MHz | IEC60250 | 3.00 | ||
Dissipation Factor | 23°C,100Hz | IEC60250 | 5E-04 | |
23°C,1MHz | IEC60250 | 9E-03 | ||
Comparative Tracking Index | SolutionA | IEC60112 | 250 | V |
SolutionB | IEC60112 | 125 | V |
Films Properties | Test Condition | Test Method | Test Result | Unit |
---|---|---|---|---|
WaterVaporTransmissionRate | 23°C,85%RH,100µm | ISO15106-1 | 15 | g/m²/24hr |
Gas Permeation | CarbonDioxide:23°C,25.4µm | ISO2556 | 18900 | cm³/m²/bar/24hr |
CarbonDioxide:23°C,100.0µm | ISO2556 | 4000 | cm³/m²/bar/24hr | |
Nitrogen:23°C,25.4µm | ISO2556 | 630 | cm³/m²/bar/24hr | |
Nitrogen:23°C,100.0µm | ISO2556 | 130 | cm³/m²/bar/24hr | |
Oxygen:23°C,25.4µm | ISO2556 | 3150 | cm³/m²/bar/24hr | |
Oxygen:23°C,100.0µm | ISO2556 | 700 | cm³/m²/bar/24hr |
Impact Properties | Test Condition | Test Method | Test Result | Unit |
---|---|---|---|---|
Charpy Notched Impact Strength | -30°C,Complete Break | ISO7391 | 14 | kJ/m² |
23°C,Partial Break | ISO7391 | 65 | kJ/m² | |
Charpy Unnotched Impact Strength | -60°C | ISO179/1eU | NoBreak | |
-30°C | ISO179/1eU | NoBreak | ||
23°C | ISO179/1eU | NoBreak | ||
Notched Izod Impact Strength | -30°C,Complete Break | ISO7391 | 15 | kJ/m² |
23°C,Partial Break | ISO7391 | 65 | kJ/m² | |
Multi-Axial Instrumented Impact Energy | -30°C | ISO6603-2 | 65.0 | J |
23°C | ISO6603-2 | 55.0 | J | |
Multi-Axial Instrumented Impact Peak Force | -30°C | ISO6603-2 | 6000 | N |
23°C | ISO6603-2 | 5100 | N |
Hardness | Test Condition | Test Method | Test Result | Unit |
---|---|---|---|---|
Ball Indentation Hardness | ISO2039-1 | 115 | Mpa |
Optical | Test Condition | Test Method | Test Result | Unit |
---|---|---|---|---|
Light Transmittance | 3000µm | ISO13468-2 | 88.0 | % |
4000µm | ISO13468-2 | 87.0 | % | |
Haze | 3000µm | ISO14782 | <0.80 | % |
RefractiveIndex11 | ISO489 | 1.585 | ||
Light Transmittance | 1000µm | ISO13468-2 | 89.0 | % |
2000µm | ISO13468-2 | 89.0 | % |
Flammability | Test Condition | Test Method | Test Result | Unit |
---|---|---|---|---|
Glow Wire Flammability Index | 1.5mm | IEC60695-2-12 | 875 | °C |
3.0mm | IEC60695-2-12 | 930 | °C | |
Glow Wire Ignition Temperature | 0.75mm | IEC60695-2-13 | 875 | °C |
1.0mm | IEC60695-2-13 | 875 | °C | |
1.5mm | IEC60695-2-13 | 875 | °C | |
3.0mm | IEC60695-2-13 | 875 | °C | |
Oxygen Index | ISO4589-2 | 27 | % | |
ApplicationofFlamefromSmallBurner-MethodKandF | 2.00mm | DIN53438-1,-3 | K1,F1 | |
FMVSS Flammability | >1.00mm | ISO3795 | passed | |
FlashIgnitionTemperature | ASTMD1929 | 480 | °C | |
Flame Rating | 2.7mm | UL94 | HB | |
0.36mm | UL94 | V-2 | ||
0.75mm | UL94 | V-2 | ||
Glow Wire Flammability Index | 0.75mm | IEC60695-2-12 | 850 | °C |
Needle Flame Test | MethodF:1.50mm | IEC60695-11-5 | 1.0 | min |
MethodF:2.00mm | IEC60695-11-5 | 2.0 | min | |
MethodF:3.00mm | IEC60695-11-5 | 2.0 | min | |
MethodK:1.50mm | IEC60695-11-5 | 0.1 | min | |
MethodK:2.00mm | IEC60695-11-5 | 0.1 | min | |
MethodK:3.00mm | IEC60695-11-5 | 0.2 | min | |
SelfIgnitionTemperature | ASTMD1929 | 550 | °C |
Additional | Test Condition | Test Method | Test Result | Unit |
---|---|---|---|---|
ElectrolyticalCorrosion | 23°C | IEC60426 | A1 | |
ISO Shortname | ISO7391-PC,MR,(,,)-18-9 |
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.