Specifiche materiali
Informazioni tecniche dei materiali
PTH, grazie alla pluriennale esperienza nel processo di estrusione dei vari polimeri, utilizza soltanto materiali innovativi e di alta qualità. Per questa ragione, collabora con i maggiori produttori di materie prime al fine di ottenere mescole di materiali con proprietà costanti. Tutti i materiali utilizzati sono certificati.
Polycarbonate UV Stabilized - Antishock
Physical | Nominal Value Unit | Test Method |
---|---|---|
Density | 1.20 g/cm3 | ISO 1183 |
Apparent Density | 0.66 g/cm3 | ISO 60 |
Melt Mass-Flow Rate (MFR) (300°C/1.2 kg) | 3.0 g/10 min | ISO 1133 |
Melt Volume-Flow Rate (MVR) (300°C/1.2 kg) | 3.00 cm3/10 min | ISO 1133 |
Molding Shrinkage | ||
Across Flow | 0.60 to 0.80% | ISO 2577 |
Flow | 0.60 to 0.80% | ISO 2577 |
Across Flow: 2.00 mm2 | 0.75% | ISO 294-4 |
Flow: 2.00 mm2 | 0.75% | ISO 294-4 |
Water Absorption | ISO 62 | |
Saturation, 23°C | 0.30% | |
Equilibrium, 23°C, 50% RH | 0.12% |
Mechanical | Nominal Value Unit | Test Method |
---|---|---|
Tensile Modulus (23°C) | 2400 MPa | ISO 527-2/1 |
Tensile Stress | ISO 527-2/50 | |
Yield, 23°C | 67.0 MPa | |
Break, 23°C | 65.0 MPa | |
Tensile Strain | ISO 527-2/50 | |
Yield, 23°C | 6.3% | |
Break, 23°C | 100% | |
Nominal Tensile Strain at Break (23°C) | > 50% | ISO 527-2/50 |
Tensile Creep Modulus | ISO 899-1 | |
1 hr | 2200 MPa | |
1000 hr | 1900 MPa | |
Flexural Modulus3 (23°C) | 2400 MPa | ISO 178 |
Flexural Strength3 | ISO 178 | |
3.5% Strain, 23°C | 74.0 MPa | |
23°C | 100 MPa | |
Flexural Strain at Flexural Strength | ISO 179 | |
23°C, 2 mm/min | 7.3% |
Films | Nominal Value Unit | Test Method |
---|---|---|
Water Vapor Transmission Rate | ISO 15106-1 | |
23°C, 100 μm, 85% RH | 15 g/m2/24 hr | |
Carbon Dioxide Permeability | ISO 2556 | |
25.4 μm | 16900 cm3/m2/bar/24 hr | |
100.0 μm | 4300 cm3/m2/bar/24 hr | |
Nitrogen Permeability | ISO 2556 | |
25.4 μm | 510 cm3/m2/bar/24 hr | |
100.0 μm | 130 cm3/m2/bar/24 hr | |
Oxygen Permeability | ISO 2556 | |
25.4 μm | 2800 cm3/m2/bar/24 hr | |
100.0 μm | 700 cm3/m2/bar/24 hr |
Impact | Nominal Value Unit | Test Method |
---|---|---|
Charpy Notched Impact Strength4,5 | ISO 7391 | |
–30°C, Complete Break | 16 kJ/m2 | |
23°C, Partial Break | 70 kJ/m2 | |
Charpy Unnotched Impact Strength | ISO 179/1eU | |
–60°C | No Break | |
–30°C | No Break | |
23°C | No Break | |
Notched Izod Impact Strength6 | ISO 180/A | |
–30°C, Complete Break | 14 kJ/m2 | |
23°C, Partial Break | 80 kJ/m2 | |
Multi-Axial Instrumented Impact Energy | ISO 6603-2 | |
–30°C | 65.0 J | |
23°C | 60.0 J | |
Multi-Axial Instrumented Impact Peak Force | ISO 6603-2 | |
-30°C | 6500 N | |
23°C | 5600 N |
Physical | Nominal Value Unit | Test Method |
---|---|---|
Density | 1.20 g/cm3 | ISO 1183 |
Apparent Density | 0.66 g/cm3 | ISO 60 |
Hardness | Nominal Value Unit | Test Method |
---|---|---|
Ball Indentation Hardness | 115 MPa | ISO 2039-1 |
Thermal | Nominal Value Unit | Test Method |
---|---|---|
Heat Deflection Temperature | ||
0.45 MPa, Unannealed | 138°C | ISO 75-2/B |
1.8 MPa, Unannealed | 127°C | ISO 75-2/A |
Glass Transition Temperature | 145°C | ISO 11357-2 |
Vicat Softening Temperature | ||
– | 146°C | ISO 306/B50 |
– | 147°C | ISO 306/B120 |
Ball Pressure Test (137°C) | Pass | IEC 60695-10-2 |
CLTE | ISO 11359-2 | |
Flow: 23 to 55°C | 0.000065 cm/cm/°C | |
Transverse: 23 to 55°C | 0.000065 cm/cm/°C | |
Thermal Conductivity (23°C) | 0.20 W/m/K | ISO 8302 |
Electrical | Nominal Value Unit | Test Method |
---|---|---|
Surface Resistivity | 1.0E+16 ohms | IEC 60093 |
Volume Resistivity | 1.0E+16 ohm cm | IEC 60093 |
Relative Permittivity | IEC 60250 | |
23°C, 100 Hz | 3.10 | |
23°C, 1 Mhz | 3.00 | |
Dissipation Factor | IEC 60250 | |
23°C, 100 Hz | 0.00050 | |
23°C, 1 Mhz | 0.0090 | |
Comparative Tracking Index | IEC 60112 | |
Solution A | 250 V | |
Solution B | 100 V | |
Electric Strength (23°C, 1.00 mm) | 34 kV/mm | IEC 60243-1 |
Flammability | Nominal Value Unit | Test Method |
---|---|---|
Flame Rating - UL | UL 94 | |
1.50 mm, CL, NC, WT | HB | |
3.00 mm, WT | V-2 | |
6.00 mm, CL, NC, WT | V-0 | |
Glow Wire Flammability Index | IEC 60695-2-12 | |
1.00 mm | 850°C | |
1.50 mm | 850°C | |
2.00 mm | 850°C | |
3.00 mm | 960°C | |
4.00 mm | 960°C | |
Oxygen Index7 | 27% | ISO 4589-2 |
Burning Rate (> 1.00 mm, US-FMVSS) | Passed | ISO 3795 |
Flash Ignition Temperature | 480°C | ASTM D1929 |
Needle Flame Test | ||
1.50 mm Method F | 60.0 sec | |
1.50 mm Method K | 5.0 sec | |
2.00 mm Method K | 5.0 sec | |
2.00 mm Method F | 60.0 sec | |
3.00 mm Method F | 120.0 sec | |
3.00 mm Method K | 10.0 sec | |
Self Ingnition Temperature | 550°C | ASTM D1929 |
UL 746 | Nominal Value Unit | Test Method |
---|---|---|
RTI Str (1.50 mm) | 125°C | UL 746 |
RTI Imp (1.50 mm) | 115°C | UL 746 |
RTI Elec (1.50 mm) | 125°C | UL 746 |
Optical | Nominal Value Unit | Test Method |
---|---|---|
Refractive Index8 | 1.587 | ISO 489 |
Transmittance | ISO 13468-2 | |
1.00 μm | 89.0% | |
2000 μm | 88.0% | |
3000 μm | 88.0% | |
4000 μm | 87.0% | |
Haze (3000 μm) | < 0.80% | ISO 14782 |
Additional Information | Nominal Value Unit | Test Method |
---|---|---|
Electrolytical corrosion | A1 | IEC 60426 |
ISO Shortname | PC, ELS, (..)-05-9 | ISO 7391 |