LEXAN™ FL900S resin

About
Foamable Lexan* FL900S polycarbonate resin is an ideal choice for structural components where load bearing capability at elevated temperature is a key requirement. It exhibits outstanding inpact strength, high heat resistance, flexural characteristics, creep resistance and processa- bility. In addition, it is an excellent alternative to metal for large components with broad application potential in the appliance, automotive, telecommunications, material, handling and business machine industries. The material contains 5% glass fiber and combines regidity, impact strength and toughness with UL 94 V-0 and 5V listings.&&

About

Foamable Lexan* FL900S polycarbonate resin is an ideal choice for structural components where load bearing capability at elevated temperature is a key requirement. It exhibits outstanding inpact strength, high heat resistance, flexural characteristics, creep resistance and processa- bility. In addition, it is an excellent alternative to metal for large components with broad application potential in the appliance, automotive, telecommunications, material, handling and business machine industries. The material contains 5% glass fiber and combines regidity, impact strength and toughness with UL 94 V-0 and 5V listings.&&

Product Description
Supplier	SABIC
Generic	Polycarbonate
Material Status	Commercial: Active
Features	Biodegradable,5VA,Water soluble,Antifreeze,Good Rigidity,V-0
Availabilitys	Europe,North America

Technical Data
PHYSICAL	Nominal value	Unit	Test method
Density	0.948	g/cm³	ASTM D792
Shrinkage rate
MD	0.50 to 0.70	%	Internal Method
Water absorption rate
24hr	0.15	%	ASTM D570
Saturation, 23 ℃	0.35	%	ISO 62

MECHANICAL	Nominal value	Unit	Test method
Tensile modulus	2000	MPa	ISO 527-1-2
tensile strength
fracture	42.0	MPa	ISO 527-2/5
Tensile strain
fracture	5.0	%	ISO 527-2/5
Bending modulus	2400	MPa	ISO 178
bending strength	80.0	MPa	ISO 178

IMPACT	Nominal value	Unit	Test method
Drop hammer impact	50.0	J	Internal Method

THERMAL	Nominal value	Unit	Test method
Hot deformation temperature
1.8 MPa, unannealed, 64 mm span	128	℃	ISO 75-2/Af
Ball pressure test			IEC 60695-10-2
75℃	Pass
125℃	Pass
Linear coefficient of thermal expansion
MD：23~80℃	3.5E-5	1/℃	ISO 11359-2
specific heat	280	J/kg/℃	ASTM C351
Thermal conductivity coefficient	0.15	W/m/K	ISO 8302
Relative temperature index	80.0	℃	UL 746
Electrical performance	80.0	℃	UL 746
Impact mechanical performance	80.0	℃	UL 746

Electrical performance	Nominal value	Unit	Test method
Dielectric strength			ASTM D149
0.8 mm in oil	35	kV/mm
1.6 mm in oil	27	kV/mm
3.2 mm in oil	17	kV/mm
Relative permittivity			IEC 60250
100 Hz	2.41
1 MHz	2.30
Dissipation factor			IEC 60250
100 Hz	2.9E-3
1 MHz	0.010

FLAME CHARACTERISTICS	Nominal value	Unit	Test method
Flame retardant level			UL 94
3.00 mm	V-0
5.00 mm	5VA
Extreme oxygen index	35	%	ISO 4589-2

Supplementary information	Nominal value	Unit	Test method
Filler	5.0	%	ASTM D229

Process Conditions
Injection	Nominal value	Unit	Test method
drying temperature	120	°C
Drying time	2.0 to 4.0	hr
Recommended maximum moisture content	0.020	%
Hopper temperature	60.0 to 80.0	°C
Temperature at the rear of the barrel	265 to 295	°C
Temperature in the middle of the barrel	280 to 310	°C
Front temperature of material barrel	290 to 320	°C
Nozzle temperature	290 to 320	°C
Processing (melt) temperature	290 to 320	°C
Mold temperature	65.0 to 95.0	°C

Notes
1. Typical properties: these are not to be construed as specifications.
2. Tensile Bar
3. 0.079 in/min
4. at Break
5. GE
6. 80104 mm
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