Makrolon® 2807

About
MVR (300 °C/1.2 kg) 9.0 cm³/10 min; general purpose; medium viscosity; UV stabilized; easy release; injection molding – melt temperature 280 – 320 °C; available in transparent, translucent and opaque colors&&

Product Description
Supplier	Covestro
Generic	Polycarbonate
Material Status	Commercial: Active
Features	Weather resistance is good,HB,V-2,Good stripping performance
Availabilitys	Latin America,Europe,North America,Africa & Middle East ,Asia Pacific
Process Methods	Injection Molding

film	Nominal value	Unit	Test method
Water vapor transmittance
23℃，85% RH，100 µm	15	g/m²/24 hr	ISO 15106-1
Gas permeation			ISO 2556
Carbon dioxide: 23 ℃, 25.4 µ m	16900	cm³/m²/bar/24 hr	ISO 2556
Carbon dioxide: 23 ℃, 100.0 µ m	3800	cm³/m²/bar/24 hr	ISO 2556
Nitrogen: 23 ℃, 25.4 µ m	510	cm³/m²/bar/24 hr	ISO 2556
Nitrogen: 23 ℃, 100.0 µ m	120	cm³/m²/bar/24 hr	ISO 2556
Oxygen: 23 ℃, 25.4 µ m	2760	cm³/m²/bar/24 hr	ISO 2556
Oxygen: 23 ℃, 100.0 µ m	650	cm³/m²/bar/24 hr	ISO 2556

IMPACT	Nominal value	Unit	Test method
Charpy Notched Impact Strength			ISO 7391
-30 ℃, completely fractured	14	kJ/m²	ISO 7391
23 ℃, localized fracture	75	kJ/m²	ISO 7391
Charpy Unnotch Impact strength			ISO 179/1eU
-60℃	No Break		ISO 179/1eU
-30℃	No Break		ISO 179/1eU
23℃	No Break		ISO 179/1eU
Impact strength of cantilever beam notch			ISO 7391
-30 ℃, completely fractured	15	kJ/m²	ISO 7391
23 ℃, localized fracture	70	kJ/m²	ISO 7391
Multi axial instrumented impact energy			ISO 6603-2
-30℃	65.0	J	ISO 6603-2
23℃	60.0	J	ISO 6603-2
Multi axial instrumented peak impact force			ISO 6603-2
-30℃	6300	N	ISO 6603-2
23℃	5400	N	ISO 6603-2

THERMAL	Nominal value	Unit	Test method
Hot deformation temperature
1.8 MPa, unannealed	124	℃	ISO 75-2/A
0.45 MPa, unannealed	136	℃	ISO 75-2/B
Glass transition temperature	144	℃	ISO 11357-2
Vicat Softening Temp
B50	143	℃	ISO 306
B120	145	℃	ISO 306/B120
Ball pressure test
135℃	Pass		IEC 60695-10-2
Linear coefficient of thermal expansion
TD：23~55℃	6.5E-5	1/℃	ISO 11359-2
MD：23~55℃	6.5E-5	1/℃	ISO 11359-2
Thermal conductivity coefficient
23℃	0.20	W/m/K	ISO 8302
Relative temperature index
Static, 1.50 mm	125	℃	UL 746
Electrical characteristics, 1.50 mm	125	℃	UL 746
Impact strength, 1.50 mm	115	℃	UL 746

Electrical performance	Nominal value	Unit	Test method
Surface resistivity	1.0E+16	ohms	IEC 60093
Volume resistivity
23℃	1.0E+16	ohms·cm	IEC 60093
Dielectric strength
23 ℃，1 mm	34	kV/mm	IEC 60243-1
Relative permittivity			IEC 60250
23℃，100 Hz	3.10		IEC 60250
23℃，1 MHz	3.00		IEC 60250
Dissipation factor			IEC 60250
23℃，100 Hz	5.0E-4		IEC 60250
23℃，1 MHz	9.0E-3		IEC 60250
Compared to the leakage tracing index			IEC 60112
Solution A	250	V	IEC 60112
Solution B	125	V	IEC 60112

FLAME CHARACTERISTICS	Nominal value	Unit	Test method
Flame retardant level			UL 94
2.50 mm	HB		UL 94
0.75 mm	V-2		UL 94
Glowing wire flammability index			IEC 60695-2-12
0.75 mm	850	℃	IEC 60695-2-12
1.5 mm	850	℃	IEC 60695-2-12
3.0 mm	930	℃	IEC 60695-2-12
Igniting temperature of the hot wire			IEC 60695-2-13
0.75 mm	875	℃	IEC 60695-2-13
1.5 mm	875	℃	IEC 60695-2-13
3 mm	875	℃	IEC 60695-2-13
Extreme oxygen index	28	%	ISO 4589-2
Flame Application of Small Burners
Methods K and F, 2.00 millimeters	K1, F1		DIN 53438-1, -3
Burning rate
USFMVSS,>1.00 mm	passed		ISO 3795
Flash ignition temperature	480	℃	ASTM D1929
glow-wire test			EDF HN60 E.02
1.50 mm	750	℃	EDF HN60 E.02
3.00 mm	750	℃	EDF HN60 E.02
Needle flame test			IEC 60695-11-5
Method F: 1.50 mm	1.0	min	IEC 60695-11-5
Method F: 2.00 mm	1.0	min	IEC 60695-11-5
Method F: 3.00 mm	2.0	min	IEC 60695-11-5
Method K: 1.50 mm	0.1	min	IEC 60695-11-5
Method K: 2.00 mm	0.1	min	IEC 60695-11-5
Method K: 3.00 mm	0.2	min	IEC 60695-11-5
Autoignition temperature	550	℃	ASTM D1929

optical performance	Nominal value	Unit	Test method
Refractive index	1.586		ISO 489
Transmittance			ISO 13468-2
1000 µm	89.0	%	ISO 13468-2
2000 µm	89.0	%	ISO 13468-2
3000 µm	88.0	%	ISO 13468-2
4000 µm	87.0	%	ISO 13468-2
Haze
3000 µm	< 0.80	%	ISO 14782

Supplementary information	Nominal value	Test method
Electrolytic corrosion
23℃	A1	IEC 60426
ISO short name	ISO 7391-PC,MLR,(,,)-09-9

MECHANICAL	Nominal value	Unit	Test method
Tensile modulus
23℃	2400	MPa	ISO 527-1-2
tensile strength
Fracture, 23 ℃	70.0	MPa	ISO 527-2/50
Yield, 23 ℃	66.0	MPa	ISO 527-2/50
Tensile strain
Fracture, 23 ℃	130	%	ISO 527-2/50
Yield, 23 ℃	6.1	%	ISO 527-2/50
Nominal tensile fracture strain
23℃	> 50	%	ISO 527-2/50
Tensile creep modulus
1000 hr	1900	MPa	ISO 899-1
1 hr	2200	MPa	ISO 899-1
Bending modulus
23℃	2400	MPa	ISO 178
bending strength			ISO 178
3.50% strain, 23 ℃	74.0	MPa	ISO 178
23℃	98.0	MPa	ISO 178
Bending strain
23℃	7.0	%	ISO 178
Ball hardness	115	MPa	ISO 2039-1

Process Conditions
Injection	Nominal value	Unit	Test method
Melt Temperature	280 – 320	℃
Standard melt temperature	300	℃
Temperature of the feeding section of the material pipe	250 – 270	℃
Temperature of the middle section of the material pipe	270 – 290	℃
Temperature of the front section of the material pipe	285 – 305	℃
Nozzle temperature	270 – 305	℃
Mold temperature	70 – 110	℃
Maintaining pressure (actual maximum injection pressure)	50 – 75	%
Melt back pressure	100 – 200	bar
Screw speed	0.05 – 0.2	m/s
Injection volume	30 – 70	%
Drying temperature under dry air	120	℃
Drying time in dry air	4	h
Maximum moisture content	≤0. 02	%
Depth of exhaust groove	0. 025 – 0. 075	mm

Notes
1. Typical properties: these are not to be construed as specifications.
2. Pellets
3. 60x60x2 mm, 500 bar
4. 0.079 in/min
5. 2 mm/min
6. Based on ISO 179-1eA, 3 mm
7. Based on ISO 180-A, 3 mm
8. 10°C/min
9. Cross-flow
10. Procedure A
11. Method A
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