品牌 | 美国塞拉尼斯 |
货号 | GY-5145L |
用途 | 汽车配件 |
牌号 | LCP 5145L |
型号 | 5145L |
品名 | LCP |
外形尺寸 | 2*3mm |
生产企业 | 美国塞拉尼斯 |
是否进口 | 是 |
ZENITE LCP 5145L物性表
Availability |
Africa & Middle East
Asia Pacific
Europe
Latin America
North America
|
Filler / Reinforcement |
Glass Fiber
|
Additive |
Flame Retardant
Impact Modifier
|
Features |
Flame Retardant
Good Heat Resistance
High Flow
Impact Modified
Low Warpage
Weldable
|
Processing Method |
Injection Molding
Lead Free Soldering
|
Multi-Point Data |
Isothermal Stress vs. Strain (ISO 11403)
Secant Modulus vs. Strain (ISO 11403)
|
PHYSICAL |
Nominal Value
|
Unit
|
Test Method
|
Density |
1.75
|
g/cm3
|
ISO 1183 |
Molding Shrinkage | ISO 294-4 | ||
Across Flow |
0.50
|
%
|
|
Flow |
0.10
|
%
|
MECHANICAL |
Nominal Value
|
Unit
|
Test Method
|
Tensile Modulus |
15000
|
MPa
|
ISO 527-1 |
Tensile Stress (Break) |
115
|
MPa
|
ISO 527-2/5 |
Tensile Strain (Break) |
3.1
|
%
|
ISO 527-2/5 |
Flexural Modulus (23°C) |
11000
|
MPa
|
ISO 178 |
Flexural Stress (23°C) |
190
|
MPa
|
ISO 178 |
Compressive Stress (1% Strain) |
21.3
|
MPa
|
ISO 604 |
THERMAL |
Nominal Value
|
Unit
|
Test Method
|
Deflection Temperature Under Load (1.8 MPa, Unannealed) |
290
|
°C
|
ISO 75-2/A |
Melting Temperature 4 |
319
|
°C
|
ISO 11357-3 |
CLTE | ISO 11359-2 | ||
Flow |
7.0E-6
|
cm/cm/°C
|
|
Transverse |
6.0E-5
|
cm/cm/°C
|
ELECTRICAL |
Nominal Value
|
Unit
|
Test Method
|
Surface Resistivity (23°C) |
1.0E+15
|
ohms
|
IEC 62631-3-2 |
Volume Resistivity (23°C) |
1.0E+13
|
ohms·m
|
IEC 62631-3-1 |
Electric Strength 5 (23°C) |
45
|
kV/mm
|
IEC 60243-1 |
Dielectric Constant (1 MHz) |
3.90
|
|
IEC 60250 |
Dissipation Factor (1 MHz) |
0.018
|
|
IEC 60250 |
Comparative Tracking Index (CTI) |
PLC 3
|
|
UL 746A |
FLAMMABILITY |
Nominal Value
|
Unit
|
Test Method
|
Flame Rating | UL 94 | ||
0.8 mm |
V-0
|
|
|
1.6 mm |
V-0
|
|
|
Oxygen Index |
33
|
%
|
ISO 4589-2 |
FILL ANALYSIS |
Nominal Value
|
Unit
|
Test Method
|
Melt Density |
1.48
|
g/cm3
|
Internal Method |
Melt Specific Heat |
1500
|
J/kg/°C
|
Internal Method |
Melt Thermal Conductivity |
0.35
|
W/m/K
|
Internal Method |
Ejection Temperature |
265
|
°C
|