Material Properties:High mobility｜Oil resistant｜Filler: glass beads｜ fiberglass｜30% filler by weight
Application Areas:Thin walled components｜Plastic accessories｜Shell｜Application in the automotive field｜Industrial components｜Electrical enclosure
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Grade:Injection grade

Material Certification

Technical Data Sheet Compare

physical property	Test Condition	Test Method	Test Result
density		ASTM D792	1.34 g/cm³
density	density		ISO 1183	1.34 g/cm³
Melt volume flow rate		ISO 1133	70.0 cm3/10min
Shrinkage rate			0.40 %
Water absorption rate		ASTM D570	6.6 %
	Water absorption rate		ISO 62	6.6 %
		Water absorption rate		ASTM D570	2.0 %
		Water absorption rate	Water absorption rate		ISO 62	2.0 %

flammability	Test Condition	Test Method	Test Result
UL flame retardant rating		UL 94	HB
	UL flame retardant rating		UL 94	HB
	UL flame retardant rating	UL flame retardant rating		UL 94	HB

Mechanical properties	Test Condition	Test Method	Test Result
Charpy Notched Impact Strength			40/90 KJ/m
Fracture stress (V=50mm/min)			110/65 Mpa
Tensile yield stress (V=50mm/min)			110/65 Mpa
elongation at break			3.5/15 %
Charpy Notched Impact Strength			39 KJ/m
Tensile modulus			6000/3000 Mpa
ball-indentation hardness			170/120 Mpa
Charpy Notched Impact Strength			5 KJ/m
Impact strength of cantilever beam gap			5/8.5 KJ/m
elongation at break			3.5/15 %
Tensile creep modulus			2000 Mpa
Tensile modulus		ISO 527-2	6000 Mpa
tensile strength		ASTM D638	110 Mpa
tensile strength	tensile strength		ISO 527-2	105 Mpa
Tensile strain		ISO 527-2	3.5 %
Flexural modulus		ASTM D790	4830 Mpa

Other performance	Test Condition	Test Method	Test Result
Impact Strength			5/25 J

Impact resistance	Test Condition	Test Method	Test Result
Impact strength of cantilever beam gap		ASTM D256	37 J/m
Charpy Notched Impact Strength		ISO 179	5.0 kJ/m²
Charpy Notched Impact Strength	Charpy Notched Impact Strength		ISO 179	5.0 kJ/m²
Impact strength of simply supported beam without notch		ISO 179	39 kJ/m²
Impact strength of simply supported beam without notch	Impact strength of simply supported beam without notch		ISO 179	40 kJ/m²
Impact strength of cantilever beam gap		ASTM D256	32 J/m

Electrical performance	Test Condition	Test Method	Test Result
Compared to the Leakage Traceability Index (CTI)			CTI 425
bending strength			175/100 Mpa
Volume resistivity			10 Ω.cm
Surface Resistivity			10 Ω
dielectric strength			135/53 KV/mm
loss angle			0.02/0.07
dielectric constant			3.9/4.6 J/(g.K)
Volume resistivity		ASTM D257	1E+15 ohms·cm
Volume resistivity	Volume resistivity		IEC 60093	1E+15 ohms·cm
dielectric constant		IEC 60250	3.90
Dissipation Factor		IEC 60250	0.020
Compared to the Leakage Tracking Index (CTI)		IEC 60112	V

Thermal performance	Test Condition	Test Method	Test Result
thermal conductivity			0.34 W/(m.K)
Linear coefficient of thermal expansion			3.5-4 10
Heat distortion temperature			215 °C
maximum service temperature			200 °C
specific heat			1.4 J/(g.K)
Heat distortion temperature			200 °C
	Heat distortion temperature		ASTM D648	215 °C
		Heat distortion temperature		ISO 75-2/B	215 °C
			Heat distortion temperature		ASTM D648	200 °C
			Heat distortion temperature	Heat distortion temperature		ISO 75-2/A	200 °C
melting temperature		ASTM D3418	220 °C
melting temperature	melting temperature		ISO 3146	220 °C
Linear coefficient of thermal expansion		ASTME831	1E-05 cm/cm/°C
Linear coefficient of thermal expansion	Linear coefficient of thermal expansion			3.8E-05 cm/cm/°C
RTI Elec		UL 746	65.0 °C
	RTI Elec		UL 746	65.0 °C
	RTI Elec	RTI Elec		UL 746	65.0 °C
RTI Imp		UL 746	65.0 °C
	RTI Imp		UL 746	65.0 °C
	RTI Imp	RTI Imp		UL 746	65.0 °C
RTI Str		UL 746	65.0 °C
	RTI Str		UL 746	65.0 °C
	RTI Str	RTI Str		UL 746	65.0 °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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