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Envalior Pocan® T 7331 POS151 700226 PBT+PET, 30% Glass Fiber Filled
Categories:
Polymer
;
Thermoplastic
;
Polyester, TP
;
Polybutylene Terephthalate (PBT)
;
PBT + PET Blend, Glass Filled
Material Notes:
PBT+PET, 30% glass fibers, injection molding, improved surface finish, increased temperature peak load, UV-stabilized
Former Lanxess product line is now with Envalior.
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Physical Properties
Original Value
Comments
Bulk Density
0.800
g/cc
ISO 60
Density
1.55
g/cc
ISO 1183
Moisture Absorption at Equilibrium
0.10 %
50% RH; ISO 62
Water Absorption at Saturation
0.30 %
ISO 62
Viscosity Test
91
cm³/g
Viscosity Number; ISO 1628-5
Linear Mold Shrinkage, Flow
0.0030
cm/cm
60x60x2; 270 °C / MT 90°C; 600 bar; ISO 294-4
Linear Mold Shrinkage, Transverse
0.0090
cm/cm
60x60x2; 270 °C / MT 90°C; 600 bar; ISO 294-4
Melt Flow
30
g/10 min
@Load 5.00 kg,
Temperature 260 °C
ISO 1133-1
Mechanical Properties
Original Value
Comments
Puncture Resistance
650
N
ISO 6603-2
Ball Indentation Hardness
200
MPa
ISO 2093-1
Tensile Strength at Break
145
MPa
5 mm/min; ISO 527-1,-2
Elongation at Break
2.8 %
5 mm/min; ISO 527-1,-2
Tensile Modulus
10400
MPa
1 mm/min; ISO 527-1,-2
Flexural Strength
230
MPa
2 mm/min; ISO 178-A
Flexural Modulus
10300
MPa
2 mm/min; ISO 178-A
Flexural Strain at Break
3.0 %
2 mm/min; ISO 178-A
Izod Impact, Notched (ISO)
<=
10.0
kJ/m²
@Temperature 23.0 °C
ISO 180-1A
<=
10.0
kJ/m²
@Temperature -30.0 °C
ISO 180-1A
<=
10.0
kJ/m²
@Temperature -40.0 °C
ISO 180-1A
Izod Impact, Unnotched (ISO)
55.0
kJ/m²
@Temperature 23.0 °C
ISO 180-1U
55.0
kJ/m²
@Temperature -30.0 °C
ISO 180-1U
Charpy Impact Unnotched
55.0
kJ/m²
@Temperature -30.0 °C
ISO 179-1eU
65.0
kJ/m²
@Temperature 23.0 °C
ISO 179-1eU
Charpy Impact, Notched
<=
10.0
kJ/m²
@Temperature 23.0 °C
ISO 179 1eA
<=
10.0
kJ/m²
@Temperature -30.0 °C
ISO 179 1eA
Puncture Energy
2.10
J
ISO 6603-2
Tensile Creep Modulus, 1 hour
10000
MPa
ISO 899-1
Tensile Creep Modulus, 1000 hours
8500
MPa
ISO 899-1
Electrical Properties
Original Value
Comments
Dielectric Constant
3.8
@Frequency 1e+6 Hz
IEC 60250
4.0
@Frequency 100 Hz
IEC 60250
Dielectric Strength
27.0
kV/mm
@Thickness 1.00 mm
IEC 60243-1
Comparative Tracking Index
250
V
Solution A; IEC 60112
Thermal Properties
Original Value
Comments
CTE, linear, Parallel to Flow
30.0
µm/m-°C
@Temperature 23.0 - 55.0 °C
ISO 11359-1,-2
CTE, linear, Transverse to Flow
60.0
µm/m-°C
@Temperature 23.0 - 55.0 °C
ISO 11359-1,-2
Thermal Conductivity
0.270
W/m-K
ISO 8302
Melting Point
225
-
250
°C
10°C/min; ISO 11357-1,-3
Maximum Service Temperature, Air
140
°C
20000 h (Tensile impact strength); IEC 60216-1
155
°C
20000 h (Tensile strength); IEC 60216-1
155
°C
20000 h (Electric strength); IEC 60216-1
Hot Ball Pressure Test
220
°C
IEC 60695-10-2
Deflection Temperature at 0.46 MPa (66 psi)
220
°C
ISO 75-1,-2
Deflection Temperature at 1.8 MPa (264 psi)
200
°C
ISO 75-1,-2
Vicat Softening Point
205
°C
@Load 5.10 kg
120°C/h; ISO 306
Flammability, UL94
HB
@Thickness 1.60 mm
HB
@Thickness 0.800 mm
Oxygen Index
21 %
Method A; ISO 4589-2
Glow Wire Flammability Index
750
°C
@Thickness 2.00 mm
IEC 60695-2-12
Shrinkage, MD
0.10 %
@Treatment Temp. 120 °C,
Time 14400 sec
Flow Direction Post-Molding, 60x60x2; ISO 294-4
Shrinkage, TD
0.20 %
@Treatment Temp. 120 °C,
Time 14400 sec
Post-Molding, 60x60x2; ISO 294-4
Processing Properties
Original Value
Comments
Melt Temperature
270
°C
injection molding; ISO 294
260
-
280
°C
Mold Temperature
90.0
°C
injection molding; ISO 294
80.0
-
100
°C
Drying Temperature
120
°C
Dry Time
4.00
-
8.00
hour
Moisture Content
0.00 - 0.020 %
Karl Fischer
Descriptive Properties
Specifications
10.2°C
Halving interval (Electric strength), IEC 60216-1
10.2°C
Halving interval (Tensile strength), IEC 60216-1
125°C
Relative temperature index (Tensile impact strength), UL 746B
13.5°C
Halving interval (Tensile impact strength), IEC 60216-1
140°C
Relative temperature index (Electric strength), UL 746B
140°C
Relative temperature index (Tensile strength), UL 746B
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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PLANW9197 / 208470
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