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SABIC LNP™ THERMOCOMP™ Compound MF002S Polypropylene, Unspecified (PP, Unspecified) (Americas)
Categories:
Polymer
;
Thermoplastic
;
Polypropylene (PP)
Material Notes:
LNP THERMOCOMP MF002S compound is based on Polypropylene (PP) resin containing 10% glass fiber. Added features of this grade include: Heat Stabilized.
Features: High Stiffness,Heat Stabilized,Structural
Information provided by SABIC
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Physical Properties
Metric
English
Comments
Specific Gravity
0.970
g/cc
0.970
g/cc
ASTM D792
Density
0.960
g/cc
0.0347
lb/in³
ASTM D792
Moisture Absorption
0.0100 %
0.0100 %
23°C / 50% RH; ISO 62
Linear Mold Shrinkage, Flow
0.010
-
0.030
cm/cm
0.010
-
0.030
in/in
24hrs; ASTM D955
Linear Mold Shrinkage, Transverse
0.010
-
0.030
cm/cm
0.010
-
0.030
in/in
24hrs; ASTM D955
Mechanical Properties
Metric
English
Comments
Tensile Strength at Break
42.0
MPa
6090
psi
5 mm/min; ASTM D638
44.0
MPa
6380
psi
5 mm/min; ISO 527
Tensile Strength, Yield
46.0
MPa
6670
psi
5 mm/min; ASTM D638
46.0
MPa
6670
psi
5 mm/min; ISO 527
Elongation at Break
5.8 %
5.8 %
5 mm/min; ISO 527
6.7 %
6.7 %
5 mm/min; ASTM D638
Elongation at Yield
4.4 %
4.4 %
5 mm/min; ISO 527
4.7 %
4.7 %
5 mm/min; ASTM D638
Tensile Modulus
2.97
GPa
431
ksi
1 mm/min; ISO 527
2.98
GPa
432
ksi
50 mm/min; ASTM D638
Flexural Strength
64.0
MPa
9280
psi
ISO 178
75.0
MPa
10900
psi
ASTM D790
Flexural Modulus
2.33
GPa
338
ksi
2 mm/min; ISO 178
2.39
GPa
347
ksi
1.3 mm/min, 50 mm span; ASTM D790
Izod Impact Notched
38.0
J
28.0
ft-lb
ASTM D256
Izod Impact, Unnotched
4.88
J/cm
9.14
ft-lb/in
ASTM D4812
Izod Impact, Notched (ISO)
5.00
kJ/m²
2.38
ft-lb/in²
80*10*4; ISO 180/1A
Izod Impact, Unnotched (ISO)
29.0
kJ/m²
13.8
ft-lb/in²
80*10*4; ISO 180/1U
Dart Drop, Total Energy
4.00
J
2.95
ft-lb
ASTM D3763
Impact Test
1.00
J
0.738
ft-lb
Multiaxial Impact; ISO 6603
Electrical Properties
Metric
English
Comments
Arc Resistance
60
-
120
sec
60
-
120
sec
ASTM D495
Comparative Tracking Index
>=
600
V
>=
600
V
UL 746A
Hot Wire Ignition, HWI
15
-
30
sec
@Thickness >=1.00 mm
15
-
30
sec
@Thickness >=0.0394 in
UL 746A
30
-
60
sec
@Thickness >=3.00 mm
30
-
60
sec
@Thickness >=0.118 in
UL 746A
High Amp Arc Ignition, HAI
15
-
30
arcs
@Thickness >=1.00 mm
15
-
30
arcs
@Thickness >=0.0394 in
UL 746A
60
-
120
arcs
@Thickness >=1.50 mm
60
-
120
arcs
@Thickness >=0.0591 in
UL 746A
High Voltage Arc-Tracking Rate, HVTR
10.0
-
25.4
mm/min
0.394
-
1.00
in/min
UL 746A
Thermal Properties
Metric
English
Comments
CTE, linear, Parallel to Flow
66.0
µm/m-°C
@Temperature -30.0 - 30.0 °C
36.7
µin/in-°F
@Temperature -22.0 - 86.0 °F
ASTM D696
CTE, linear, Transverse to Flow
88.0
µm/m-°C
@Temperature -30.0 - 30.0 °C
48.9
µin/in-°F
@Temperature -22.0 - 86.0 °F
ASTM D696
Deflection Temperature at 0.46 MPa (66 psi)
146
°C
295
°F
Flatw 80*10*4 sp=64mm; ISO 75/Bf
154
°C
@Thickness 3.20 mm
309
°F
@Thickness 0.126 in
unannealed; ASTM D648
Deflection Temperature at 1.8 MPa (264 psi)
99.0
°C
210
°F
Flatw 80*10*4 sp=64mm; ISO 75/Af
113
°C
@Thickness 3.20 mm
235
°F
@Thickness 0.126 in
unannealed; ASTM D648
UL RTI, Electrical
65.0
°C
149
°F
UL 746B
UL RTI, Mechanical with Impact
65.0
°C
149
°F
UL 746B
UL RTI, Mechanical without Impact
65.0
°C
149
°F
UL 746B
Flammability, UL94
HB
@Thickness >=1.00 mm
HB
@Thickness >=0.0394 in
UL 94
Glow Wire Ignition Temperature
850
°C
@Thickness 1.50 mm
1560
°F
@Thickness 0.0591 in
IEC 60695-2-13
875
°C
@Thickness 3.00 mm
1610
°F
@Thickness 0.118 in
IEC 60695-2-13
Glow Wire Flammability Index
850
°C
@Thickness 1.50 mm
1560
°F
@Thickness 0.0591 in
IEC 60695-2-12
850
°C
@Thickness 3.00 mm
1560
°F
@Thickness 0.118 in
IEC 60695-2-12
Processing Properties
Metric
English
Comments
Zone 2
215
-
225
°C
419
-
437
°F
Zone 3
240
-
250
°C
464
-
482
°F
Melt Temperature
225
-
250
°C
437
-
482
°F
Injection Molding
Mold Temperature
30.0
-
50.0
°C
86.0
-
122
°F
Drying Temperature
80.0
°C
176
°F
Injection Molding
Dry Time
4.00
hour
4.00
hour
Injection Molding
Back Pressure
0.200
-
0.300
MPa
29.0
-
43.5
psi
Screw Speed
30
-
60
rpm
30
-
60
rpm
Some of the values displayed above may have been converted from their original units and/or rounded in order to display the information in a consistent format. Users requiring more precise data for scientific or engineering calculations can click on the property value to see the original value as well as raw conversions to equivalent units. We advise that you only use the original value or one of its raw conversions in your calculations to minimize rounding error. We also ask that you refer to MatWeb's
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PSABH81712 / 289659
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