Xytron™ G4080HRE
通用信息
Xytron™是帝斯曼工程塑料中的高性能塑料,基料为PPS(聚苯硫醚)。
Xytron™拥有绝佳的耐化学性,尺寸稳定性,天生的阻燃性和高刚度。
Xytron™ 出色的性能使得它在多种不同的应用中表现突出。
特殊性能
下载
法规
- Absence Declaration Biocidal Products2023-11-16
- Absence Declaration EPA 20 High Priority Substances 20192023-11-16
- Absence Declaration Food Allergens2023-11-16
- Absence Declaration Nano Materials2023-11-16
- Absence Declaration Ozone Depleting Chemicals2024-06-27
- Absence Declaration PBT chemicals under TSCA section 6(h)2023-11-16
- Absence Declaration PFAS2024-03-05
- Absence Declaration POPs (Persistent Organic Pollutants)2023-10-27
- Packaging, Packaging Waste and CONEG declaration (94/62/EC)2021-12-06
- REACH Registration Statement2024-03-27
- REACH STATEMENT KOREA2023-11-16
- REACH STATEMENT TURKYE2023-11-16
- RoHS Statement (2011/65/EC: Heavy metals)2024-02-01
- SVHC, REACH Annex XIV and –XVII Statement2024-06-27
加工工艺
注塑成型
注塑成型
工艺
Degradation & Stability | Chemical stability
Degradation & Stability | Chemical stability
流变性能
成型收缩率(平行)
0.2
%
ISO 294-4
成型收缩率(垂直)
0.5
%
ISO 294-4
机械性能
拉伸模量
13300
MPa
ISO 527-1/-2
拉伸模量 (-40°C)
14000
MPa
ISO 527-1/-2
拉伸模量 (90°C)
11000
MPa
ISO 527-1/-2
拉伸模量 (100°C)
8500
MPa
ISO 527-1/-2
拉伸模量 (120°C)
6100
MPa
ISO 527-1/-2
拉伸模量 (160°C)
4700
MPa
ISO 527-1/-2
拉伸模量 (200°C)
4000
MPa
ISO 527-1/-2
断裂应力
180
MPa
ISO 527-1/-2
断裂应力(-40°C)
222
MPa
ISO 527-1/-2
断裂应力(90°C)
110
MPa
ISO 527-1/-2
断裂应力(100°C)
95
MPa
ISO 527-1/-2
断裂应力(120°C)
80
MPa
ISO 527-1/-2
断裂应力(160°C)
60
MPa
ISO 527-1/-2
拉伸应力 (200°C)
46
MPa
ISO 527-1/-2
断裂伸长率
2.4
%
ISO 527-1/-2
断裂应变(-40°C)
2.4
%
ISO 527-1/-2
断裂应变(90°C)
3.3
%
ISO 527-1/-2
断裂应变(120°C)
4.1
%
ISO 527-1/-2
断裂应变(160°C)
4.3
%
ISO 527-1/-2
断裂应变(200°C)
3.9
%
ISO 527-1/-2
弯曲模量
12200
MPa
ISO 178
弯曲模量 (80°C)
11500
MPa
ISO 178
弯曲模量 (120°C)
5900
MPa
ISO 178
弯曲模量 (160°C)
4600
MPa
ISO 178
弯曲模量 (200°C)
4000
MPa
ISO 178
弯曲强度
267
MPa
ISO 178
弯曲强度 (80°C)
207
MPa
ISO 178
弯曲强度 (120°C)
122
MPa
ISO 178
弯曲强度 (160°C)
91
MPa
ISO 178
弯曲强度 (200°C)
71
MPa
ISO 178
简支梁无缺口冲击强度(+23°C)
60
kJ/m²
ISO 179/1eU
简支梁无缺口冲击强度(-30°C)
65
kJ/m²
ISO 179/1eU
简支梁缺口冲击强度(+23°C)
13
kJ/m²
ISO 179/1eA
简支梁缺口冲击强度(-30°C)
12
kJ/m²
ISO 179/1eA
悬臂梁冲击强度 (+23°C)
60
kJ/m²
ISO 180/1U
悬臂梁缺口冲击强度(23°C)
16
kJ/m²
ISO 180/1A
悬臂梁缺口冲击强度(-40°C)
13
kJ/m²
ISO 180/1A
熔接痕强度 (厚度1)
73
MPa
ISO 527-1/-2
熔接痕伸长率 (厚度1)
0.85
%
ISO 527-1/-2
厚度测试
4
mm
ISO 527-1/-2
洛氏硬度,R刻度
117
-
ISO 2039-2
热性能
熔融温度(10°C/min)
280
°C
ISO 11357-1/-3
玻璃化转变温度(10°C/min)
90
°C
ISO 11357-1/-2
热变形温度(1.80 MPa)
266
°C
ISO 75-1/-2
热变形温度(0.45 MPa)
279
°C
ISO 75-1/-2
热变形温度(8.00 MPa)
159
°C
ISO 75-1/-2
维卡软化温度(50°C/h 50N)
263
°C
ISO 306
线热膨胀系数(平行)
0.15
E-4/°C
ISO 11359-1/-2
线热膨胀系数(垂直)
0.48
E-4/°C
ISO 11359-1/-2
线性热热膨胀系数,平行,Tg以上
0.11
E-4/°C
ISO 11359-1/-2
线性热膨胀系数,垂直,Tg以上
1.1
E-4/°C
ISO 11359-1/-2
厚度为h时的燃烧性
V-0
class
IEC 60695-11-10
UL认证
Yes
-
-
灼热丝燃烧指数GWFI
850
°C
IEC 60695-2-12
GWFI (厚度(1))
0.8
mm
IEC 60695-2-12
灼热丝燃烧指数GWFI
960
°C
IEC 60695-2-12
GWFI(厚度(2))
2
mm
IEC 60695-2-12
灼热丝引燃温度GWIT
825
°C
IEC 60695-2-13
GWIT (厚度(1))
0.8
mm
IEC 60695-2-13
灼热丝引燃温度GWIT
875
°C
IEC 60695-2-13
GWIT (厚度(2))
2
mm
IEC 60695-2-13
电性能
相对介电常数 (1GHz)
3.8
-
IEC 61189-2-721
相对介电常数5GHz
3.8
-
IEC 61189-2-721
介质损耗因子 1GHz
35
E-4
IEC 61189-2-721
介质损耗因子 5GHz
55
E-4
IEC 61189-2-721
体积电阻率
>1E13
Ohm*m
IEC 62631-3-1
表面电阻率
>1E15
Ohm
IEC 62631-3-2
介电强度
33
kV/mm
IEC 60243-1
相对漏电起痕指数
175
V
IEC 60112
其它性能
密度
1600
kg/m³
ISO 1183
图表
应用
Fuel Cell humidifier
行业
Automotive
- •} Superior hydrolytic resistance
- •} Creep resistance
- •} Dimensional stablity
- •} Extremely low ion leaching
- •} UL94-V0
- •} Light weight due to metal replacement this enhances zero emission mobility, high degrees of integration reduces part numbrs
- •} Light weight due to metal replacement this enhances zero emission mobility
Fuel Cell insulation plate
行业
Automotive
- •} Superior hydrolytic resistance
- •} Creep resistance
- •} Dimensional stablity
- •} Extremely low ion leaching
- •} Stable dielectric strength
- •} UL94-V0
- •} Light weight due to metal replacement this enhances zero emission mobility
Fuel Cell Integrated manifold
行业
Automotive
- •} Superior hydrolytic resistance
- •} Creep resistance
- •} Dimensional stablity
- •} Extremely low ion leaching
- •} Stable dielectric strength
- •} UL94-V0
- •} Light weight due to metal replacement this enhances zero emission mobility
- •} High degrees of integration reduces part numbers
Fuel Cell ion exchanger
行业
Automotive
- •} Superior hydrolytic resistance
- •} Chemical resistance
- •} Dimensional stability
- •} Extremely low ion leaching
- •} UL94-V0
- •} Light weight due to metal replacement this enhances zero emission mobility
Fuel Cell media manifold
行业
Automotive
- •} Superior hydrolytic resistance, chemical resistance
- •} Dimensional stability
- •} Extremely low ion leaching
- •} UL94-V0
- •} Light weight due to metal replacement this enhances zero emission mobility, high degrees of integration reduces part numbers
Fuel Cell side plate
行业
Automotive
- •} Superior hydrolytic resistance
- •} Creep resistance
- •} Dimensional stablity
- •} Extremely low ion leaching
- •} UL94-V0
- •} Light weight due to metal replacement this enhances zero emission mobility, high degrees of integration reduces part numbrs
- •} Light weight due to metal replacement this enhances zero emission mobility
