Durethan® BKV 50 H2.0 901510

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Durethan®   BKV50H2.0 901510 (Dry) PA 6, 50 % glass fibers, injection molding, heat-aging stabilized&&Durethan®   BKV50H2.0 901510 PA 6, 50 % glass fibers, injection molding, heat-aging stabilized&&Durethan®   BKV50H2.0 901510 PA 6, 50 % glass fibers, injection molding, heat-aging stabilized&&

Product Description
SupplierLANXESS
GenericPA6
Material StatusCommercial: Active
FeaturesGood heat aging resistance,Heat Stabilized,HB
AvailabilitysAfrica & Middle East ,North America,Latin America,Asia Pacific,Europe
Process MethodsInjection Molding

Technical Data
PHYSICALNominal valueUnitTest method
Density1.57g/cm³ASTM D792
Density1.57g/cm³ISO 1183
Apparent density0.70g/cm³ISO 60
Shrinkage rate 
TD:280℃,3.0 mm0.85%ISO 2577
TD:120℃,3.0 mm,2 hrs0.050%ISO 294-4
MD:280℃,3.0 mm0.16%ISO 2577
MD:120℃,3.0 mm,2 hrs0.020%ISO 2577
Water absorption rate
Saturation, 23 ℃5.0%ISO 62
Equilibrium, 23 ℃, 50% RH1.5%ISO 62

filmNominal valueUnitTest method
Membrane puncture strength ISO 6603-2
4.20JISO 6603-2
3.70JISO 6603-2
Membrane puncture force ISO 6603-2
1060NISO 6603-2
1200NISO 6603-2

IMPACTNominal valueUnitTest method
Charpy Notched Impact Strength ISO 179/1eA
-30℃15kJ/m²ISO 179/1eA
23℃20kJ/m²ISO 179/1eA
Charpy Unnotch Impact strength ISO 179/1eU
-30℃85kJ/m²ISO 179/1eU
23℃100kJ/m²ISO 179/1eU
Impact strength of cantilever beam notch ASTM D256
-40℃,3.2mm130J/mASTM D256
23℃,3.2mm170J/mASTM D256
Impact strength of cantilever beam notch ISO 180/1A
-30℃12kJ/m²ISO 180-1A
23℃20kJ/m²ISO 180-1A
Notched impact strength of cantilever beam ISO 180/1U
-30℃80kJ/m²ISO 180/1U
23℃85kJ/m²ISO 180/1U

THERMALNominal valueUnitTest method
Hot deformation temperature
1.8 MPa, unannealed, 4.0 mm200ASTM D648
1.8 MPa, unannealed205ISO 75-2/A
0.45 MPa, unannealed, 4.0 mm215ASTM D648
0.45 MPa, unannealed215ISO 75-2/B
Vicat Softening Temp 
B50> 200ISO 306
B120> 200ISO 306/B120
Melting temperature222ISO 11357-3
Linear coefficient of thermal expansion
TD:23~55℃7.0E-51/℃ISO 11359-2
MD:23~55℃2.0E-51/℃ISO 11359-2
1.5 mm120UL 746
Relative temperature index
Electrical performance UL 746
Strength mechanical performance UL 746
Impact mechanical performance UL 746
1.5 mm95.0UL 746
0.75 mm65.0UL 746
1.5 mm140UL 746

Electrical performanceNominal valueUnitTest method
Surface resistivity1.0E+13 to 1.0E+14ohmsIEC 60093
Volume resistivity
23℃1.0E+15 to 1.0E+16ohms·cmIEC 60093
Dielectric strength IEC 60243-1
23 ℃,1 mm35kV/mmIEC 60243-1
23 ℃,3 mm40kV/mmIEC 60243-1
Dielectric constant IEC 60250
23 ℃,50 Hz4.00 IEC 60250
23 ℃,1 MHz4.00 IEC 60250
Relative permittivity IEC 60250
23℃,100 Hz5.30 IEC 60250
23℃,1 MHz4.30 IEC 60250
Dissipation factor IEC 60250
23℃,50 Hz0.010 IEC 60250
23℃,100 Hz0.036 IEC 60250
23℃,1 MHz0.015 0.024 IEC 60250
Compared to the leakage tracing indexVASTM D3638
Solution A550VIEC 60112

FLAME CHARACTERISTICSNominal valueUnitTest method
Flame retardant level UL 94
> 1.00 mmpassed ISO 3795
0.75 mmHB UL 94
1.50 mmHB UL 94
1.60 mmHB UL 94
3.00 mmHB UL 94
3.20 mmHB UL 94
Glowing wire flammability index
2.0 mm650IEC 60695-2-12
Extreme oxygen index24%ISO 4589-2

Supplementary informationNominal valueUnitTest method
ISO ShortnamePA 6, GHR, 14-160, GF50 ISO 1874

MECHANICALNominal valueUnitTest method
Tensile modulus
23℃15000MPaASTM D638
23℃16300MPaISO 527-1-2
tensile strength
Fracture, 23 ℃220MPaISO 527-2/5
Fracture, 23 ℃210MPaASTM D638
Tensile strain
Fracture, 23 ℃2.0%ASTM D638
Fracture, 23 ℃3.0%ISO 527-2/5
Tensile Creep Modulus(1 hr)MPaISO 899-1
Tensile creep modulus
1000 hrMPaISO 899-1
Bending modulus
23℃13500MPaASTM D790
23℃15100MPaISO 178-A
bending strength
23℃350MPaASTM D790
Bending strain3.0%
Ball hardness250MPaISO 2039-1

Process Conditions
injectionNominal valueUnitTest method
Drying Temperature – Dry Air Dryer80°C
Drying Time – Dry Air Dryer2.0 to 6.0hr
Processing (melt) temperature270 to 290°C
Mold temperature80 to 120°C
Residual Moisture Content0.030 to 0.12%

Notes
1. Typical properties: these are not to be construed as specifications.
2. 150x105x3mm, 4 hr
3. 150x105x3mm, 80°C MT, 400 bar
4. 0.039 in/min
5. 0.079 in/min
6. 2 mm/min
7. 10°C/min
8. Tinfoil Electrodes
9. Procedure A
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