流变性质 |
C |
Melt volume-flow rate |
260°C;5千克 |
cm³/(10分钟) |
ISO 1133-1 |
30. |
C |
成型收缩,平行 |
60x60x2;270°C / mt 90°C;600巴 |
% |
ISO 294.-4. |
0.。3. |
C |
成型收缩,横向 |
60x60x2;270°C / mt 90°C;600巴 |
% |
ISO 294.-4. |
0.。9 |
|
萎缩,平行 |
60x60x2;120°C;4小时 |
% |
ISO 294.-4. |
0.。1 |
|
收缩率,横向 |
60x60x2;120°C;4小时 |
% |
ISO 294.-4. |
0.。2 |
机械性能(23°C / 50%r.h。) |
C |
拉伸模量 |
1毫米/分钟 |
MPA. |
ISO 527-1,-2 |
10400. |
C |
断裂处的拉伸应力 |
5 mm/min |
MPA. |
ISO 527-1,-2 |
145. |
C |
断裂张力 |
5 mm/min |
% |
ISO 527-1,-2 |
2.8 |
C |
拉伸蠕变模量 |
1小时 |
MPA. |
ISO899-1 |
10000 |
C |
拉伸蠕变模量 |
1000小时 |
MPA. |
ISO899-1 |
8500 |
C |
夏比冲击力量 |
23℃ |
kj /m². |
ISO 179-1EU. |
65. |
C |
夏比冲击力量 |
-30°C. |
kj /m². |
ISO 179-1EU. |
55. |
C |
夏比缺口冲击力量 |
23℃ |
kj /m². |
ISO 179-1 |
<10 |
C |
夏比缺口冲击力量 |
-30°C. |
kj /m². |
ISO 179-1 |
<10 |
|
Izod impact strength |
23℃ |
kj /m². |
ISO 180-1u |
55. |
|
Izod impact strength |
-30°C. |
kj /m². |
ISO 180-1u |
55. |
|
Izod缺口强度 |
23℃ |
kj /m². |
ISO 180-1a. |
<10 |
|
Izod缺口强度 |
-30°C. |
kj /m². |
ISO 180-1a. |
<10 |
|
Izod缺口强度 |
-40°C. |
kj /m². |
ISO 180-1a. |
<10 |
|
弯曲模量 |
2mm/min |
MPA. |
ISO 178-a |
10300. |
|
抗弯强度 |
2mm/min |
MPA. |
ISO 178-a |
230. |
|
弯曲强度下的弯曲应变 |
2mm/min |
% |
ISO 178-a |
3.0 |
|
球缩进硬度 |
|
N/mm² |
ISO 2039-1 |
20.0. |
C |
穿刺能量 |
23℃ |
j |
ISO 6603-2 |
2.1 |
C |
穿刺最大力量 |
23℃ |
N |
ISO 6603-2 |
650. |
Thermal properties |
C |
熔点温度 |
10°C / min |
°C. |
ISO 11357-1,-3 |
225 - 250 |
C |
负载下的偏转温度 |
1。80 MPa |
°C. |
ISO 75-1,-2 |
20.0. |
C |
负载下的偏转温度 |
0.45 MPa. |
°C. |
ISO 75-1,-2 |
220. |
|
蚕豆软化温度 |
50 n;120°C / h |
°C. |
ISO 306. |
20.5 |
C |
线性热膨胀系数,平行 |
23到55°C |
10-4 / K. |
ISO 11359-1,-2 |
0.。3. |
C |
线性热膨胀系数,横向 |
23到55°C |
10-4 / K. |
ISO 11359-1,-2 |
0.。6 |
C |
Burning behavior UL 94 |
1.5毫米 |
类 |
UL 94. |
HB. |
C |
Burning behavior UL 94 |
0.75毫米 |
类 |
UL 94. |
HB. |
C |
氧指数 |
方法A. |
% |
ISO 4589-2 |
21. |
|
导热系数 |
23℃ |
W/(m·K) |
ISO8302 |
0.27 |
|
耐热性(球压试验) |
|
°C. |
IEC 60695-10-2 |
220. |
|
温度指数(拉伸强度) |
20000 H. |
°C. |
IEC 60216-1 |
155. |
|
减半间隔(拉伸强度) |
|
°C. |
IEC 60216-1 |
10.2 |
|
相对温度指数(拉伸强度) |
|
°C. |
UL 746B |
140. |
|
温度指数(拉伸冲击强度) |
20000 H. |
°C. |
IEC 60216-1 |
140. |
|
减半间隔(拉伸冲击强度) |
|
°C. |
IEC 60216-1 |
13.5 |
|
Relative temperature index (Tensile impact strength) |
|
°C. |
UL 746B |
125. |
|
温度指数(电力) |
20000 H. |
°C. |
IEC 60216-1 |
155. |
|
减半间隔(电力) |
|
°C. |
IEC 60216-1 |
10.2 |
|
Relative temperature index (Electric strength) |
|
°C. |
UL 746B |
140. |
|
焕发电线测试(GWFI) |
2.0毫米 |
°C. |
IEC 60695-2-12 |
750. |
电气性质(23°C / 50%R.) |
C |
相对介电常数 |
100 Hz. |
- |
IEC 60250 |
4.0 |
C |
相对介电常数 |
1 MHz. |
- |
IEC 60250 |
3.8 |
C |
电力 |
1mm |
kv / mm |
IEC 60243-1 |
27. |
Other properties (23 °C) |
C |
吸水率(饱和值) |
23°C的水 |
% |
ISO 62. |
0.。3. |
C |
吸水率(平衡值) |
23°C;50%RH. |
% |
ISO 62. |
0.。1 |
C |
密度 |
|
kg /m³. |
ISO 1183. |
155.0. |
|
散装密度 |
|
kg /m³. |
ISO 60. |
800 |
材料特性属性 |
C |
粘度数字 |
|
cm³/ g. |
ISO 1628-5 |
91. |
测试标本的处理条件 |
C |
注塑 - 熔融温度 |
|
°C. |
ISO 294. |
270. |
C |
注塑模具温度 |
|
°C. |
ISO 294. |
90. |
加工建议 |
|
干燥温度循环空气干燥器 |
|
°C. |
- |
120. |
|
循环空气干燥器干燥时间 |
|
H |
- |
4-8 |
|
残留水分含量 |
|
% |
acc。到Karl Fischer. |
0-0.02 |
|
熔融温度(Tmin - Tmax) |
|
°C. |
- |
260-280 |
|
模具温度 |
|
°C. |
- |
80-100 |
|
这些信息和我们的技术建议,是否成r verbal, in writing or by way of trials - are given in good faith but without warranty, and this also applies where proprietary rights of third parties are involved. Our advice does not release you from the obligation to verify the information currently provided - especially that contained in our safety data and technical information sheets - and to test our products as to their suitability for the intended processes and uses. The application, use and processing of our products and the products manufactured by you on the basis of our technical advice are beyond our control and, therefore, entirely your own responsibility. Our products are sold in accordance with the current version of our General Conditions of Sale and Delivery. |
除非指定相反,除非在室温下对标准化试验标准建立了所提供的值。这些数字应该仅被视为指导值,而不是绑定最小值。请注意,在某些条件下,该特性可以通过模具/模具,加工条件和着色的设计来影响。 |
Under the recommended processing conditions small quantities of decomposition product may be given off during processing. To preclude any risk to the health and well-being of the machine operatives, tolerance limits for the work environment must be ensured by the provision of efficient exhaust ventilation and fresh air at the workplace in accordance with the Safety Data Sheet. In order to prevent the partial decomposition of the polymer and the generation of volatile decomposition products, the prescribed processing temperatures should not be substantially exceeded. Since excessively high temperatures are generally the result of operator error or defects in the heating system, special care and controls are essential in these areas. |