PC Makrolon® ET3113 COVESTRO GERMANY

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Unit Price:US$ 2,168 /MT
Packaging Specification:
25 KG/PKG
Packaging Material:
Paper bag
Supply Quantity:
50MT
Delivery Terms:
FOB
Port of Loading :
China Main Port
Accepted Payment Methods:
T/T
Shipping:
Negotiate supplier for shipping details

Supplier Information

ASIA PLASTIC EXCHANGE LIMITED

+86 755 ********View

serv********View

For more details, please contact the supplier!

Material Description

Material Properties:Weather resistance｜Hydrolysis resistance
Application Areas:Electrical field｜Electronic field｜Automotive sector｜Other sheets｜PC board
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Grade:--

Material Certification

Technical Data Sheet

hardness	Test Condition	Test Method	Test Result
Ball Pressure Test		ISO 2039-1	113 Mpa

thermal performance	Test Condition	Test Method	Test Result
Hot deformation temperature	0.45 MPa, Unannealed	ISO 75-2/B	141 °C
Hot deformation temperature	Hot deformation temperature	1.8 MPa, Unannealed	ISO 75-2/A	128 °C
Glass transition temperature		ISO 11357-2	148 °C
Vicat softening temperature	--	ISO 306/B50	148 °C
Vicat softening temperature	Vicat softening temperature	--	ISO 306/B120	149 °C
Ball Pressure Test	140°C	IEC 60695-10-2	通过
Linear coefficient of thermal expansion	Flow : 23 to 55°C	ISO 11359-2	6.5E-5 cm/cm/°C
Linear coefficient of thermal expansion	Linear coefficient of thermal expansion	Across Flow : 23 to 55°C	ISO 11359-2	6.5E-5 cm/cm/°C
thermal conductivity	23°C	ISO 8302	0.20 W/m/K
RTI Elec	1.5 mm	UL 746	125 °C
RTI Imp	1.5 mm	UL 746	115 °C
RTI	1.5 mm	UL 746	125 °C

flammability	Test Condition	Test Method	Test Result
UL flame retardant rating	1.5 mm	UL 94	HB
UL flame retardant rating	UL flame retardant rating	0.75 mm	UL 94	V-2
Burning wire flammability index	0.75 mm	IEC 60695-2-12	875 °C
	Burning wire flammability index	1.5 mm	IEC 60695-2-12	875 °C
	Burning wire flammability index	Burning wire flammability index	3.0 mm	IEC 60695-2-12	960 °C
Hot filament ignition temperature	0.75 mm	IEC 60695-2-13	875 °C
	Hot filament ignition temperature	1.5 mm	IEC 60695-2-13	875 °C
	Hot filament ignition temperature	Hot filament ignition temperature	3.0 mm	IEC 60695-2-13	900 °C
Extreme Oxygen Index		ISO 4589-2	28 %
Application of Flame from Small Burner		DIN 53438-1	K1. F1
flash temperature		ASTM D1929	480 °C
UL flame retardant rating	1.50 mm	IEC 60695-11-5	1.0 min
	UL flame retardant rating	2.00 mm	IEC 60695-11-5	2.0 min
		UL flame retardant rating	2.00 mm	IEC 60695-11-5	0.1 min
			UL flame retardant rating	3.00 mm	IEC 60695-11-5	2.0 min
			UL flame retardant rating	UL flame retardant rating	3.00 mm	IEC 60695-11-5	0.2 min
auto-ignition temperature		ASTM D1929	550 °C
Burning rate	> 1.00 mm	ISO 3795	passed

optical performance	Test Condition	Test Method	Test Result
Refractive index		ISO 489	1.587
transmissivity	1000 μm	ISO 13468-2	89.0 %
	transmissivity	2000 μm	ISO 13468-2	89.0 %
		transmissivity	3000 μm	ISO 13468-2	88.0 %
		transmissivity	transmissivity	4000 μm	ISO 13468-2	87.0 %
turbidity	3000 μm	ISO 14782	< 0.80 %
Electrolytic corrosion	23°C	IEC 60426	A1

film	Test Condition	Test Method	Test Result
Water vapor permeability	23°C, 85% RH, 100 μm	ISO 15106-1	15 g/m²/24 hr
Carbon dioxide transmittance	23°C, 25.4 μm	ISO 2556	16900 cm³/m²/bar/24 hr
gas transmission rate	Carbon Dioxide : 100.0 μm	ISO 2556	3800 cm³/m²/bar/24 hr
	gas transmission rate	Nitrogen : 25.4 μm	ISO 2556	510 cm³/m²/bar/24 hr
		gas transmission rate	Nitrogen : 100.0 μm	ISO 2556	120 cm³/m²/bar/24 hr
			gas transmission rate	Oxygen : 25.4 μm	ISO 2556	2760 cm³/m²/bar/24 hr
			gas transmission rate	gas transmission rate	Oxygen : 100.0 μm	ISO 2556	650 cm³/m²/bar/24 hr

Physical properties	Test Condition	Test Method	Test Result
density	23°C	ISO 1183	1.20 g/cm³
Apparent density		ISO 60	0.66 g/cm³
melt mass-flow rate	300°C/1.2 kg	ISO 1133	6.5 g/10 min
Melt Volume Flow Rate (MVR)	300°C/1.2 kg	ISO 1133	6.00 cm3/10min
Shrinkage rate	横向Flow	ISO 2577	0.60 - 0.80 %
	Shrinkage rate	Flow	ISO 2577	0.60 - 0.80 %
		Shrinkage rate	横向Flow : 280°C, 2.00 mm4	ISO 294-4	0.75 %
		Shrinkage rate	Shrinkage rate	Flow : 2.00 mm4	ISO 294-4	0.70 %
Water absorption rate	Saturation, 23°C	ISO 62	0.30 %
Water absorption rate	Water absorption rate	Equilibrium, 23°C, 50% RH	ISO 62	0.12 %

Electrical performance	Test Condition	Test Method	Test Result
Surface resistivity		IEC 60093	1.0E+16 ohms
Volume resistivity	23°C	IEC 60093	1.0E+16 ohms·cm
Dielectric strength	23°C, 1.00 mm	IEC 60243-1	34 KV/mm
Relative permittivity	23°C, 100 Hz	IEC 60250	3.10
Relative permittivity	Relative permittivity	23°C, 1 MHz	IEC 60250	3.00
Dissipation factor	23°C, 100 Hz	IEC 60250	8.0E-4
Dissipation factor	Dissipation factor	23°C, 1 MHz	IEC 60250	0.010
Compared to the anti leakage trace index	Solution A	IEC 60112	PLC 2
Compared to the anti leakage trace index	Compared to the anti leakage trace index	Solution B	IEC 60112	PLC 4

mechanical properties	Test Condition	Test Method	Test Result
Tensile modulus	23°C	ISO 527-2/1	2350 Mpa
tensile strength	Yield, 23°C	ISO 527-2/50	65.0 Mpa
tensile strength	tensile strength	Break, 23°C	ISO 527-2/50	70.0 Mpa
Tensile strain	Yield, 23°C	ISO 527-2/50	6.3 %
Tensile strain	Tensile strain	Break, 23°C	ISO 527-2/50	130 %
Nominal tensile fracture strain	23°C	ISO 527-2/50	> 50 %
Tensile creep modulus	1 hr	ISO 899-1	2200 Mpa
Tensile creep modulus	Tensile creep modulus	1000 hr	ISO 899-1	1900 Mpa
Bending modulus	23°C	ISO 178	2350 Mpa
bending strength	23°C	ISO 178	96.0 Mpa
	bending strength	3.5% Strain, 23°C	ISO 178	72.0 Mpa
	bending strength	bending strength	23°C	ISO 178	7.2 %

impact performance	Test Condition	Test Method	Test Result
Charpy Notched Impact Strength	-30°C, Complete Break	ISO 179/1eA	18 kJ/m²
Charpy Notched Impact Strength	Charpy Notched Impact Strength	23°C, Partial Break	ISO 179/1eA	80 kJ/m²
Impact strength of simply supported beam without notch	-60°C	ISO 179/1eU	无断裂
	Impact strength of simply supported beam without notch	-30°C	ISO 179/1eU	无断裂
	Impact strength of simply supported beam without notch	Impact strength of simply supported beam without notch	23°C	ISO 179/1eU	无断裂
Impact strength of cantilever beam gap	-30°C, Complete Break	ISO 180/A	20 kJ/m²
Impact strength of cantilever beam gap	Impact strength of cantilever beam gap	23°C, Partial Break	ISO 180/A	70 kJ/m²
Multi axis Instrumented Impact Energy	-30°C	ISO 6603-2	70.0 J
Multi axis Instrumented Impact Energy	Multi axis Instrumented Impact Energy	23°C	ISO 6603-2	60.0 J
Multi axis Instrumented Peak Impact Force	-30°C	ISO 6603-2	6500 N
Multi axis Instrumented Peak Impact Force	Multi axis Instrumented Peak Impact Force	23°C	ISO 6603-2	5600 N

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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PC Makrolon® ET3113 COVESTRO GERMANY

Material Description

Material Certification

Technical Data Sheet Compare

Technical Data Sheet