| Rheological properties |
| C |
熔体量流速 |
270°C;2.16千克 |
cm³/(10 min) |
ISO 1133-1 |
36 |
|
|
Molding shrinkage, parallel |
150x105x3; 270 °C / WZ 80 °C; 400 bar |
% |
acc. ISO 2577 |
1.05 |
|
|
Molding shrinkage, transverse |
150x105x3; 270 °C / WZ 80 °C; 400 bar |
% |
acc. ISO 2577 |
1.57 |
|
|
Post- shrinkage, parallel |
150x105x3; 120 °C; 4 h |
% |
acc. ISO 2577 |
0.35 |
|
|
Post- shrinkage, transverse |
150x105x3; 120 °C; 4 h |
% |
acc. ISO 2577 |
0.44 |
|
| C |
Molding shrinkage, parallel |
60x60x2; 270 °C / WZ 80 °C; 600 bar |
% |
ISO 294-4 |
1.65 |
|
| C |
Molding shrinkage, transverse |
60x60x2; 270 °C / WZ 80 °C; 600 bar |
% |
ISO 294-4 |
1.75 |
|
|
Post- shrinkage, parallel |
60x60x2; 120 °C; 4 h |
% |
ISO 294-4 |
0.2 |
|
|
Post- shrinkage, transverse |
60x60x2; 120 °C; 4 h |
% |
ISO 294-4 |
0.2 |
|
Mechanical properties (23 °C/50 % r. h.) |
| C |
Tensile modulus |
1毫米/min |
MPa |
ISO 527-1,-2 |
2800 |
1200. |
| C |
Yield stress |
50毫米/分钟 |
MPa |
ISO 527-1,-2 |
65 |
40 |
| C |
Yield strain |
50毫米/分钟 |
% |
ISO 527-1,-2 |
4.0 |
20 |
| C |
Nominal strain at break |
50毫米/分钟 |
% |
ISO 527-1,-2 |
> 10 |
> 50 |
| C |
Charpy impact strength |
23 °C |
kJ/m² |
ISO 179-1eU |
N |
N |
| C |
Charpy impact strength |
-30 °C |
kJ/m² |
ISO 179-1eU |
N |
N |
| C |
Charpy notched impact strength |
23 °C |
kJ/m² |
ISO 179-1eA |
10 |
50 |
| C |
Charpy notched impact strength |
-30 °C |
kJ/m² |
ISO 179-1eA |
< 10 |
< 10 |
|
Izod冲击力量 |
23 °C |
kJ/m² |
ISO 180-1U |
N |
N |
|
Izod冲击力量 |
-30 °C |
kJ/m² |
ISO 180-1U |
N |
N |
|
Izod notched impact strength |
23 °C |
kJ/m² |
ISO 180-1A |
<10 |
50 |
|
Izod notched impact strength |
-30 °C |
kJ/m² |
ISO 180-1A |
<10 |
<10 |
|
Flexural modulus |
2毫米/分钟 |
MPa |
ISO 178-A |
2400. |
800 |
|
Flexural strength |
2毫米/分钟 |
MPa |
ISO 178-A |
90 |
30 |
|
Flexural strain at flexural strength |
2毫米/分钟 |
% |
ISO 178-A |
7.0 |
9.0 |
|
Flexural stress at 3.5 % strain |
2毫米/分钟 |
MPa |
ISO 178-A |
75 |
20 |
| C |
Puncture maximum force |
23 °C |
N |
ISO 6603-2 |
4339 |
470 |
| C |
Puncture maximum force |
-30 °C |
N |
ISO 6603-2 |
5870 |
940 |
| C |
Puncture energy |
23 °C |
J |
ISO 6603-2 |
55 |
140 |
| C |
Puncture energy |
-30 °C |
J |
ISO 6603-2 |
65 |
20 |
|
Ball indentation hardness |
|
n /mm². |
ISO 2039-1 |
110 |
45 |
热性能 |
| C |
Melting temperature |
10 °C/min |
°C |
ISO 11357-1,-3 |
222. |
|
| C |
Temperature of deflection under load |
1.80 MPa. |
°C |
ISO 75-1,-2 |
55 |
|
| C |
Temperature of deflection under load |
0.45 MPa |
°C |
ISO 75-1,-2 |
145 |
|
| C |
Temperature of deflection under load |
8.00 MPa |
°C |
ISO 75-1,-2 |
45 |
|
|
Vicat softening temperature |
50 N; 120 °C/h |
°C |
ISO 306 |
180 |
|
| C |
Coefficient of linear thermal expansion, parallel |
23 to 55 °C |
10-4/K |
ISO 11359-1,-2 |
1.0 |
|
| C |
线性热膨胀系数,transverse |
23 to 55 °C |
10-4/K |
ISO 11359-1,-2 |
1.35 |
|
| C |
燃烧行为UL 94 |
1.5 mm |
Class |
UL 94 |
HB |
|
| C |
燃烧行为UL 94 |
0.75 mm |
Class |
UL 94 |
HB |
|
| C |
Oxygen index |
Method A |
% |
ISO 4589-2 |
22 |
|
|
Glow wire test (GWFI) |
2.0 mm |
°C |
IEC 60695-2-12 |
800 |
|
|
燃烧行为US-FMVSS302 |
>=1.0 mm |
|
ISO 3795. |
passed |
|
| C |
Vicat softening temperature |
50 N; 50 °C/h |
°C |
ISO 306 |
180 |
|
Electrical properties (23 °C/50 % r. h.) |
| C |
Relative permittivity |
100 Hz |
- |
IEC 60250. |
3.7 |
8.5 |
| C |
Relative permittivity |
1 MHz |
- |
IEC 60250. |
3.3 |
3.8 |
| C |
Dissipation factor |
100 Hz |
10-4 |
IEC 60250. |
110 |
1650 |
| C |
Dissipation factor |
1 MHz |
10-4 |
IEC 60250. |
190 |
660 |
| C |
体积电阻率 |
|
欧姆·M. |
IEC 60093 |
1E13 |
1E11 |
| C |
Surface resistivity |
|
Ohm |
IEC 60093 |
1E15 |
1E14 |
| C |
Electric strength |
1毫米 |
kV/mm |
IEC 60243-1 |
35 |
35 |
| C |
Comparative tracking index CTI |
Solution A |
Rating |
IEC 60112 |
600 |
|
其他性质(23°C) |
| C |
Water absorption (Saturation value) |
Water at 23 °C |
% |
ISO 62 |
9 |
|
| C |
Water absorption (Equilibrium value) |
23 °C; 50 % RH |
% |
ISO 62 |
2.7 |
|
| C |
Density |
|
kg/m³ |
ISO 1183 |
1103 |
|
|
Bulk density |
|
kg/m³ |
ISO 60 |
650 |
|
Processing conditions for test specimens |
| C |
Injection molding-Melt temperature |
|
°C |
ISO 294 |
270 |
|
| C |
Injection molding-Mold temperature |
|
°C |
ISO 294 |
80 |
|
Processing recommendations |
|
Drying temperature dry air dryer |
|
°C |
- |
80 |
|
|
Drying time dry air dryer |
|
h |
- |
2-6 |
|
|
Residual moisture content |
|
% |
Acc. to Karl Fischer |
0.03-0.12 |
|
|
Melt temperature (Tmin - Tmax) |
|
°C |
- |
260-280 |
|
|
Mold temperature |
|
°C |
- |
80-90 |
|
|
| 这些信息和我们的技术咨询 - 无论是口头,以书面形式或试验方式 - 是诚实的,但没有保修,这也适用于第三方所涉及的专有权利。我们的建议不会释放您核实目前提供的信息的义务 - 尤其是我们的安全数据和技术信息表中包含的信息 - 并测试我们的产品对预期流程和用途的适用性。我们产品的应用,使用和加工以及您的技术建议生产的产品超出了我们的控制,因此完全是您自己的责任。188betag平台我们的产品按照当前版本的我们的一般销售和交付条件销售。 |
| Unless specified to the contrary, the values given have been established on standardized test specimens at room temperature. The figures should be regarded as guide values only and not as binding minimum values. Kindly note that, under certain conditions, the properties can be affected to a considerable extent by the design of the mould/die, the processing conditions and the coloring. |
| 在推荐的加工条件下,可以在处理期间缩小量的分解产物。为了妨碍机器操作性的健康和福祉的任何风险,必须根据安全数据表提供工作场所的高效排气通风和新鲜空气来确保工作环境的公差限制。为了防止聚合物的部分分解和挥发性分解产物的产生,不应大大超过规定的加工温度。由于过高的温度通常是运营商误差或加热系统中的缺陷的结果,因此在这些区域中的特殊护理和控制是必不可少的。 |
| Conditioning in accordance with ISO 1110 (70 °C; 62 % r.h.) |
