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PC

PC Makrolon® 9125

0
  • Properties:
    Filler
    glass fiber reinforced material
    20%
    filler by weight

Technical Data Sheet

physical property Test ConditionTest MethodTest Result
Apparent densityISO 600.64 g/cm³
melt mass-flow rateISO 113310 g/10min
Melt volume flow rateISO 11338.00 cm³/10min
Shrinkage rateISO 25770.30to0.50 %
Shrinkage rateISO 25770.30to0.50 %
Water absorption rateISO 620.24 %
Water absorption rateISO 620.10 %
densityISO 11831.34 g/cm³
Shrinkage rateISO 294-40.45 %
Shrinkage rateISO 294-40.35 %
hardnessTest ConditionTest MethodTest Result
ball-indentation hardnessISO 2039-1148 MPa
flammabilityTest ConditionTest MethodTest Result
Small flame combustion testDIN 53438-1,-3K1.F1
needle flame testIEC 60695-11-51.0 min
needle flame testIEC 60695-11-52.0 min
needle flame testIEC 60695-11-52.0 min
SelfIgnitionTemperatureASTM D1929550 °C
Burning rate - US-FMVSSISO 3795passed
FlashIgnitionTemperatureASTM D1929470 °C
needle flame testIEC 60695-11-52.0 min
needle flame testIEC 60695-11-52.0 min
needle flame testIEC 60695-11-52.0 min
UL flame retardant ratingUL 94V-2
UL flame retardant ratingUL 94V-0
Burning wire flammability indexIEC 60695-2-12960 °C
Burning wire flammability indexIEC 60695-2-12960 °C
Hot filament ignition temperatureIEC 60695-2-13850 °C
Hot filament ignition temperatureIEC 60695-2-13850 °C
Limiting Oxygen IndexISO 4589-235 %
Small flame combustion testDIN 4102B2
Supplementary InformationTest ConditionTest MethodTest Result
electrolytic corrosionIEC 60426A1
Mechanical propertiesTest ConditionTest MethodTest Result
bending strengthISO 178140 MPa
Bending StrainISO 1783.0 %
Tensile modulusISO 527-2/15800 MPa
tensile strength ISO 527-2/585.0 MPa
Tensile strainISO 527-2/52.5 %
Tensile creep modulusISO 899-15700 MPa
Tensile creep modulusISO 899-15200 MPa
Flexural modulusISO 1785600 MPa
Impact resistanceTest ConditionTest MethodTest Result
Charpy Notched Impact StrengthISO 73918.0 kJ/m²
Impact strength of simply supported beam without notchISO 179/1eU45 kJ/m²
Impact strength of simply supported beam without notchISO 179/1eU40 kJ/m²
Impact strength of cantilever beam gapISO 73918.0 kJ/m²
Multi axis Instrumented Impact EnergyISO 6603-25.00 J
Multi axis Instrumented Impact EnergyISO 6603-25.00 J
Multi axis Instrumented Peak Impact ForceISO 6603-2800 N
Multi axis Instrumented Peak Impact ForceISO 6603-2800 N
Electrical performanceTest ConditionTest MethodTest Result
Surface ResistivityIEC 600931E+16 ohms
Volume resistivityIEC 600931E+16 ohms·cm
dielectric strengthIEC 60243-136 kV/mm
relative permittivityIEC 602503.30
relative permittivityIEC 602503.30
Dissipation FactorIEC 602501E-03
Dissipation FactorIEC 602509E-03
Compared to the Leakage Tracking Index (CTI)IEC 60112PLC 3
Compared to the Leakage Tracking Index (CTI)IEC 60112PLC 4
Thermal performanceTest ConditionTest MethodTest Result
Heat distortion temperatureISO 75-2/B142 °C
Heat distortion temperatureISO 75-2/A138 °C
vicatISO 306/B50145 °C
vicatISO 306/B120146 °C
ball-indentation hardnessIEC 60695-10-2Pass
RTI ImpUL 746125 °C
RTI StrUL 746125 °C
Linear coefficient of thermal expansionISO 11359-23E-05 cm/cm/°C
Linear coefficient of thermal expansionISO 11359-26.5E-05 cm/cm/°C
thermal conductivityISO 83020.23 W/m/K
RTI ElecUL 746130 °C
IMPORTANT NOTES: Plas.com collected the data in the data sheet from the material manufacturers. Plas.com makes the best effort to improve the accuracy of the data, but has no responsibility for the data. We strongly recommend verifying the validity of the data with the material manufacturers before making a final decision.

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