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SABIC Innovative Plastics Lexan® HFD4471 PC

Category Polymer , Thermoplastic , Polycarbonate (PC)
Manufacturer SABIC Innovative Plastics (GE Plastics)
Trade Name Lexan®
Port Shanghai port,China
Trade Terms EXW, FOB, CFR, CIF
Payment Terms L/C, T/T, PayPal
Download PDF SABIC Innovative Plastics Lexan® HFD4471 PC.pdf
Price EMAIL US    sales@lookpolymers.com
Material Notes:
Lexan* HFD4471 is a 10% glass filled, medium flow, impact modified, injection moldable grade designed for high flow and superior surface appearance. HFD4417 has enhanced mold release, impact ductility and broad color space.
Physical Properties Metric English Comments
Specific Gravity 1.26 g/cc
1.26 g/cc
ASTM D792
Density 1.25 g/cc
0.0452 lb/in³
ISO 1183
Moisture Absorption 0.0400 %
0.0400 %
23°C / 50% RH; ISO 62
Water Absorption at Saturation 0.14 %
0.14 %
ISO 62
Linear Mold Shrinkage, Flow 0.0030 - 0.0040 cm/cm
<br>@Thickness 3.20 mm
 0.0030 - 0.0040 in/in
<br>@Thickness 0.126 in
 SABIC Method
Linear Mold Shrinkage, Transverse 0.0040 - 0.0050 cm/cm
<br>@Thickness 3.20 mm
 0.0040 - 0.0050 in/in
<br>@Thickness 0.126 in
 SABIC Method
Melt Flow 10 g/10 min
<br>@Load 1.20 kg,<br> Temperature 300 °C
 10 g/10 min
<br>@Load 2.65 lb,<br> Temperature 572 °F
 ASTM D1238
Melt Index of Compound 9.0 g/10 min
<br>@Load 1.20 kg,<br> Temperature 300 °C
 9.0 g/10 min
<br>@Load 2.65 lb,<br> Temperature 572 °F
 MVR [cm^3/10 min]; ISO 1133
Mechanical Properties Metric English Comments
Tensile Strength at Break 37.0 MPa
5370 psi
Type I, 5 mm/min; ASTM D638
41.0 MPa
5950 psi
5 mm/min; ISO 527
Tensile Strength, Yield 54.0 MPa
7830 psi
Type I, 5 mm/min; ASTM D638
58.0 MPa
8410 psi
5 mm/min; ISO 527
Elongation at Break 10 %
10 %
5 mm/min; ISO 527
Elongation at Yield 3.0 %
3.0 %
Type I, 5 mm/min; ASTM D638
3.0 %
3.0 %
5 mm/min; ISO 527
Tensile Modulus 3.70 GPa
537 ksi
5 mm/min; ASTM D638
Flexural Yield Strength 95.0 MPa
13800 psi
1.3 mm/min, 50 mm span; ASTM D790
Flexural Modulus 3.30 GPa
479 ksi
1.3 mm/min, 50 mm span; ASTM D790
Izod Impact, Notched 2.90 J/cm
5.43 ft-lb/in
ASTM D256
Izod Impact, Unnotched 21.0 J/cm
39.3 ft-lb/in
ASTM D4812
Izod Impact, Notched (ISO) 30.0 kJ/m²
14.3 ft-lb/in²
80*10*3; ISO 180/1A
13.0 kJ/m²
<br>@Temperature -30.0 °C
 6.19 ft-lb/in²
<br>@Temperature -22.0 °F
 80*10*3; ISO 180/1A
Izod Impact, Unnotched (ISO) 175 kJ/m²
83.3 ft-lb/in²
80*10*3; ISO 180/1U
93.0 kJ/m²
<br>@Temperature -30.0 °C
 44.3 ft-lb/in²
<br>@Temperature -22.0 °F
 80*10*3; ISO 180/1U
Charpy Impact Unnotched NB
NB
NB132; Edgew 80*10*3 sp=62mm; ISO 179/1eU
NB
<br>@Temperature -30.0 °C
 NB
<br>@Temperature -22.0 °F
 NB132; Edgew 80*10*3 sp=62mm; ISO 179/1eU
Charpy Impact, Notched 2.90 J/cm²
13.8 ft-lb/in²
Edgew 80*10*3 sp=62mm; ISO 179/1eA
1.00 J/cm²
<br>@Temperature -30.0 °C
 4.76 ft-lb/in²
<br>@Temperature -22.0 °F
 Edgew 80*10*3 sp=62mm; ISO 179/1eA
Dart Drop, Total Energy 43.0 J
<br>@Temperature 23.0 °C
 31.7 ft-lb
<br>@Temperature 73.4 °F
 ASTM D3763
Thermal Properties Metric English Comments
CTE, linear, Parallel to Flow 40.0 µm/m-°C
<br>@Temperature -40.0 - 40.0 °C
 22.2 µin/in-°F
<br>@Temperature -40.0 - 104 °F
 ASTM E 831
40.0 µm/m-°C
<br>@Temperature 23.0 - 80.0 °C
 22.2 µin/in-°F
<br>@Temperature 73.4 - 176 °F
 ISO 11359-2
CTE, linear, Transverse to Flow 70.0 µm/m-°C
<br>@Temperature -40.0 - 40.0 °C
 38.9 µin/in-°F
<br>@Temperature -40.0 - 104 °F
 ASTM E 831
80.0 µm/m-°C
<br>@Temperature 23.0 - 80.0 °C
 44.4 µin/in-°F
<br>@Temperature 73.4 - 176 °F
 ISO 11359-2
Deflection Temperature at 0.46 MPa (66 psi) 131 °C
<br>@Thickness 3.20 mm
 268 °F
<br>@Thickness 0.126 in
 unannealed; ASTM D648
Deflection Temperature at 1.8 MPa (264 psi) 125 °C
<br>@Thickness 3.20 mm
 257 °F
<br>@Thickness 0.126 in
 unannealed; ASTM D648
Vicat Softening Point 135 °C
275 °F
Rate B/120; ISO 306
UL RTI, Electrical 80.0 °C
176 °F
UL 746B
UL RTI, Mechanical with Impact 80.0 °C
176 °F
UL 746B
UL RTI, Mechanical without Impact 80.0 °C
176 °F
UL 746B
Flammability, UL94 HB
<br>@Thickness 0.400 mm
 HB
<br>@Thickness 0.0157 in
 UL 94
Descriptive Properties Value Comments
Ball Pressure Test, 125°C +/- 2°C PASSES
IEC 60695-10-2
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