德国拜耳2407德国拜耳高流动耐气候PC塑料供应科思创(原拜耳)2407高流动抗紫外线PC聚碳酸酯
产品特性及用途:低粘度(高流动性20g/10min),高透明,透明抗UV,易脱模 用途概述: 用于易脱模与对紫外线外及热稳定的工业配件。汽车零件、电子电器制品
基础创新PC SP7602/SP7604 防火UL94V0阻燃
基础创新PC VR2220 热稳定 抗紫外线
基础创新PC OQ1023 光学高纯度级
基础创新PC HF500R 含10%玻纤增强 防火UL94V0阻燃
基础创新PC 4701R 高耐热
基础创新PC IR2240 食品级 热稳定
基础创新PC EXL4019 含9%玻纤增强
上海拜耳PC塑料 牌号2407 产品物性表:
Physical Nominal Value Unit Test Method Density 1.2 g/cm³ ISO 1183 Apparent Density 2 0.66 g/cm³ ISO 60 Melt Mass-Flow Rate (MFR) (300℃/1.2 kg) 20 g/10 min ISO 1133 Melt Volume-Flow Rate (MVR) (300℃/1.2 kg) 19 cm³/10min ISO 1133 Molding Shrinkage Across Flow 0.50 to 0.70 % ISO 2577 Flow 0.50 to 0.70 % ISO 2577 Across Flow : 2.00 mm 3 0.7 % ISO 294-4 Flow : 2.00 mm 3 0.65 % ISO 294-4 Water Absorption (Saturation, 23℃) 0.3 % ISO 62 Water Absorption (Equilibrium, 23℃, 50% RH) 0.12 % ISO 62 Mechanical Nominal Value Unit Test Method Tensile Modulus (23℃) 2400 MPa ISO 527-2/1 Tensile Stress (Yield, 23℃) 66 MPa ISO 527-2/50 Tensile Stress (Break, 23℃) 65 MPa ISO 527-2/50 Tensile Strain (Yield, 23℃) 6 % ISO 527-2/50 Tensile Strain (Break, 23℃) 120 % ISO 527-2/50 Nominal Tensile Strain at Break (23℃) > 50 % ISO 527-2/50 Tensile Creep Modulus (1 hr) 2200 MPa ISO 899-1 Tensile Creep Modulus (1000 hr) 1900 MPa ISO 899-1 Flexural Modulus 4 (23℃) 2350 MPa ISO 178 Flexural Strength 4 ISO 178 3.5% Strain, 23℃ 74 MPa 23℃ 98 MPa Flexural Strain at Flexural Strength 5 (23℃) 7 % ISO 178 Films Nominal Value Unit Test Method Water Vapor Transmission Rate (23℃, 100 µm, 85% RH) 15 g/m²/24 hr ISO 15106-1 Carbon Dioxide Permeability ISO 2556 23℃, 25.4 µm 18900 cm³/m²/bar/24 hr 23℃, 100.0 µm 4800 cm³/m²/bar/24 hr Nitrogen Permeability ISO 2556 23℃, 25.4 µm 630 cm³/m²/bar/24 hr 23℃, 100.0 µm 160 cm³/m²/bar/24 hr Oxygen Permeability ISO 2556 23℃, 25.4 µm 3200 cm³/m²/bar/24 hr 23℃, 100.0 µm 800 cm³/m²/bar/24 hr Impact Nominal Value Unit Test Method Charpy Notched Impact Strength 6 ISO 179/1eA -30℃, Complete Break 14 kJ/m² 23℃, Partial Break 65 kJ/m² Charpy Unnotched Impact Strength ISO 179/1eU -60℃ No Break -30℃ No Break 23℃ No Break Notched Izod Impact Strength 7 ISO 180/A -30℃, Complete Break 12 kJ/m² 23℃, Partial Break 75 kJ/m² Multi-Axial Instrumented Impact Energy ISO 6603-2 -30℃ 65 J 23℃ 55 J Multi-Axial Instrumented Impact Peak Force ISO 6603-2 -30℃ 6000 N 23℃ 5100 N Hardness Nominal Value Unit Test Method Ball Indentation Hardness 116 MPa ISO 2039-1 Thermal Nominal Value Unit Test Method Heat Deflection Temperature (0.45 MPa, Unannealed) 136 ℃ ISO 75-2/B Heat Deflection Temperature (1.8 MPa, Unannealed) 124 ℃ ISO 75-2/A Glass Transition Temperature 8 143 ℃ ISO 11357-2 Vicat Softening Temperature -- 143 ℃ ISO 306/B50 -- 145 ℃ ISO 306/B120 Ball Pressure Test (135℃) Pass IEC 60695-10-2 CLTE - Flow (23 to 55℃) 0.000065 cm/cm/℃ ISO 11359-2 CLTE - Transverse (23 to 55℃) 0.000065 cm/cm/℃ ISO 11359-2 Thermal Conductivity 9 (23℃) 0.2 W/m/K ISO 8302 RTI Elec (1.50 mm) 125 ℃ UL 746 RTI Imp (1.50 mm) 115 ℃ UL 746 RTI Str (1.50 mm) 125 ℃ UL 746 Electrical Nominal Value Unit Test Method Surface Resistivity 1.00E+16 ohm IEC 60093 Volume Resistivity (23℃) 1.00E+16 ohm·cm IEC 60093 Electric Strength (23℃, 1.00 mm) 34 kV/mm IEC 60243-1 Relative Permittivity IEC 60250 23℃, 100 Hz 3.1 23℃, 1 MHz 3 Dissipation Factor IEC 60250 23℃, 100 Hz 0.0005 23℃, 1 MHz 0.009 Comparative Tracking Index IEC 60112 Solution A 250 V Solution B 125 V Flammability Nominal Value Unit Test Method Flame Rating UL 94 2.70 mm HB 0.750 mm V-2 Glow Wire Flammability Index IEC 60695-2-12 0.750 mm 850 ℃ 1.50 mm 875 ℃ 3.00 mm 930 ℃ Glow Wire Ignition Temperature IEC 60695-2-13 0.750 mm 875 ℃ 1.00 mm 875 ℃ 1.50 mm 875 ℃ 3.00 mm 875 ℃ Oxygen Index 10 27 % ISO 4589-2 Application of Flame from Small Burner 11 (2.00 mm) K1, F1 DIN 53438-1, -3 Burning Rate 12 (< 1.00 mm) Passed ISO 3795 Flash Ignition Temperature 480 ℃ ASTM D1929 Needle Flame Test IEC 60695-11-5 Method F : 1.50 mm 1 min Method F : 2.00 mm 2 min Method F : 3.00 mm 2 min Method K : 1.50 mm 0.1 min Method K : 2.00 mm 0.1 min Method K : 3.00 mm 0.2 min Self Ignition Temperature 550 ℃ ASTM D1929 Optical Nominal Value Unit Test Method Refractive Index 13 1.584 ISO 489 Transmittance ISO 13468-2 1000 µm 89 % 2000 µm 89 % 3000 µm 88 % 4000 µm 87 % Haze (3000 µm) < 0.80 % ISO 14782 Additional Information Nominal Value Unit Test Method Electrolytical Corrosion A1 IEC 60426 ISO Shortname PC,MLR,(,,)-18-9 ISO 7391
