PRODUCT RANGE WITH REFERENCE DATA
INJECTION MOLDING GRADES
SEMI-CRYSTALLINE
PRODUCTS
A D VA N C E D M AT E R I A L S
Durethan® and Pocan® polymers are two product lines that hold a high potential for growth and innovation. Our competitive production facilities and the
intensive development work that we have conducted on products and applications have made us into a key supplier in many different markets.
The polymers business is also based on in-house production of the relevant
feedstocks required. The production plants for cyclohexanol/cyclohexanone,
caprolactam, adipic acid and glass fibers rank amongst the biggest of their
kind.
MAIN SECTOR
Durethan® has a property profile that makes it ideal for applications in the
automotive and electrical/electronics industries and in the construction sector. Pocan® is used primarily in the electrical/electronics industry, although
applications for this versatile material are also to be found in the automotive
industry, in medicine, and in the sports and leisure sectors.
3
KEY BRANDS AND PRODUCTS
Durethan®:
Engineering resins based on polyamide 6,
polyamide 66 and co-polyamides
Pocan®:
Engineering resins based on polybutylene terephthalate
Sites:
Uerdingen (Germany)
Hamm-Uentrop (Germany)
Wuxi (China)
RANGE OF GRADES
DURETHAN® FOR INJECTION MOLDING
PA 6 A N D C O - P O LYA M I D E S
NON-REINFORCED
Basic Grades
B 30 S
B 31 SK
B 36 ASK
B 40 SK *
standard grade, low viscosity
low viscosity, fast cycle
medium viscosity
high viscosity
BC 30
BC 304
BC 40 SR2
DP 1336
enhanced impact resistance compared to B 30 S
medium impact resistance
high impact resistance
high impact resistance
BKV 15 H2.0 *
BKV 30 H2.0 *
BKV 35 H2.0 *
BKV 50 H2.0 *
BM 130 H2.0
BM 230 H2.0 *
BM 240 H2.0 *
BM 29 X H1.0 *
BM 40 X H2.0 DUS 009
BG 30 X *
15 % glass fibers
30 % glass fibers
35 % glass fibers
50 % glass fibers
30 % mineral
30 % mineral
40 % mineral
30 % glass fibers and mineral
40 % glass fibers and mineral
30 % glass fibers and glass beads
BKV 30 EF *
DP BKV 30 XF
BKV 35 H2.0 EF
DP BKV 35 XF
BKV 50 H2.0 EF
DP BKV 60 H2.0 EF
DP BM 29 X H2.0 EF
DP 1441/40 H2.0 EF
30 % glass fibers, easy flow
30 % glass fibers, extreme flow
35 % glass fibers, easy flow
35 % glass fibers, extreme flow
50 % glass fibers, easy flow
60 % glass fibers, easy flow
30 % glass fibers and mineral, easy flow
40 % glass fibers and mineral, easy flow
BKV 115 *
BKV 130 *
BKV 140 *
BKV 215 *
BKV 230 *
DP BKV 240 H2.0
15 % glass fibers, high impact resistance
30 % glass fibers, high impact resistance
40 % glass fibers, high impact resistance
15 % glass fibers, highest impact resistance
30 % glass fibers, highest impact resistance
40 % glass fibers, highest impact resistance
BKV 15 G H2.0
15 % glass fibers,
improved surface finish, CaCl2-resistance
BKV 30 G H2.0
DP 1100/30 H2.0
30 % glass fibers,
improved surface finish, CaCl2-resistance
30 % micro glass beads, improved surface finish
Improved Heat Stabilization
BKV 30 HTS
BKV 35 HTS
30 % glass fibers
35 % glass fibers
GIT/WIT
BKV 130 GIT
30 % glass fibers
BKV 330 H2.0
30 % glass fibers
T 40
T 40 ZS
non-reinforced
non-reinforced, easy release
Enhanced Impact Resistance
REINFORCED/FILLED
Basic Grades
Improved Flowability
Improved Impact Resistance
Improved Surface Finish
Improved Welding Performance
PA 6 I
Transparent
5
PA 6 6
NON-REINFORCED
Basic Grades
Enhanced Impact Resistance
REINFORCED/FILLED
Basic Grades
Improved Flowability
Improved Surface Finish
GIT/WIT
Improved Hydrolysis Resistance
A 30
A 30 S *
standard grade, low viscosity
standard grade, low viscosity, easy release
AC 30 *
DP 2325 H3.0
enhanced impact resistance compared to A 30 S
medium impact resistance
AKV 15 H2.0 *
AKV 30 H2.0 *
AKV 35 H2.0 *
AKV 50 H2.0 *
AM 230 H2.0
AM 140 H2.0
KL 1-2403/40 H1.0
KL 1-2218/40 H2.0
15 % glass fibers
30 % glass fibers
35 % glass fibers
50 % glass fibers
30 % mineral
40 % mineral
40 % mineral
40 % glass fibers and mineral
DP AKV 30 HR EF
30 % glass fibers, easy flow
AKV 30 G H2.0 SR1
30 % glass fibers, good surface finish
AKV 30 GIT
DP AKV 30 X HR
DP 2-2224/30 H2.0
30 % glass fibers
30 % glass fibers mixture
30 % glass fibers and mineral
AKV 30 HR H2.0
DP AKV 30 HR EF
DP AKV 30 X HR
30 % glass fibers
30 % glass fibers, easy flow
30 % glass fiber mixture
KU 2-2183
UL94V-2 (0.75 mm)
DP 1801/30 H3.0
DP 1803/10 H3.0
KU 2-2184/15 H3.0
30 % glass fibers, UL94V-2 (0.75 mm)
50 % glass fibers and mineral, UL94V-2 (0.75 mm)
65 % glass fibers and mineral, UL94V-0 (1.2 mm)
DP 1852/30
30 % glass fibers, UL94V-0 (1.5 mm)
DP 2801
UL94V-2 (0.75 mm)
DP 2802/30
DP 2-2851/30 H3.0
30 % glass fibers, UL94V-2 (0.75 mm)
30 % glass fibers, UL94V-0 (0.75 mm)
PA 6 A N D C O - P O LYA M I D E S , F L A M E R E TA R D A N T
NON-REINFORCED
Halogen-free
REINFORCED
Halogen-free
Halogen
PA 6 6 , F L A M E R E TA R D A N T
NON-REINFORCED
Halogen-free
REINFORCED
Halogen-free
S TA B I L I Z AT I O N S
H1.0
H2.0
H3.0
HTS
W, W1
Heat stabilization for natural and light colors
Heat stabilization for black and dark colors
Special heat stabilization for E/E applications
Special heat stabilization for high long-term temperatures
Light and weather (UV) stabilization
* also available with heat stabilization or with other than mentioned stabilization
R E F E R E N C E D ATA
PROPERTIES
UNITS
TEST CONDITIONS
S TA N D A R D S
COLOR
BRIEF DESCRIPTION
MECHANICAL PROPERTIES (23 °C/50 % R.H.)
Tensile modulus
Yield stress
Yield strain
Nominal strain at break
Stress at break
Strain at break
Flexural modulus
Flexural strength
Flexural strain at flexural strength
Flexural stress at 3.5 % strain
Charpy impact strength 23 °C
Charpy impact strength –30 °C
Charpy notched impact strength 23 °C
Charpy notched impact strength –30 °C
Charpy notched impact strength –40 °C
Izod impact strength 23 °C
Izod impact strength –30 °C
Izod notched impact strength 23 °C
Izod notched impact strength –30 °C
Izod notched impact strength –40 °C
Ball indentation hardness
THERMAL PROPERTIES
Melting temperature
Temperature of deflection under load HDT, method Af
Temperature of deflection under load HDT, method Bf
Temperature of deflection under load HDT, method Cf
Vicat softening temperature, B50
Vicat softening temperature, B120
Coefficient of linear thermal expansion, parallel
Coefficient of linear thermal expansion, across
Resistance to heat (ball pressure test)
Burning behavior UL 94 (UL Yellow Card)
Oxygen index
Glow Wire Flammability Index (GWFI)
Glow Wire Ignition Temperature (GWIT)
ELECTRICAL PROPERTIES (23 °C/50 % R.H.)
Relative permittivity; 100 Hz
Relative permittivity; 1 MHz
Dissipation factor; 100 Hz
Dissipation factor; 1 MHz
Volume resistivity
Surface resistivity
Electric strength
Comparative tracking index CTI
Comparative tracking index CTI M
OTHER PROPERTIES (23 °C)
Melt volume-flow rate (MVR), 260 °C; 5 kg *
Melt volume-flow rate (MVR), 280 °C; 5 kg *
Molding shrinkage, parallel; 150x105x3
Molding shrinkage, across; 150x105x3
Mold 80 °C; melt temperature/back pressure
Post-shrinkage, parallel; 150x105x3; 120 °C; 4 h *
Post-shrinkage, across; 150x105x3; 120 °C; 4 h *
Molding shrinkage, parallel; 60x60x2
Molding shrinkage, across; 60x60x2
Mold 80 °C; melt temperature/back pressure
Post-shrinkage, parallel; 60x60x2; 120 °C; 4 h *
Post-shrinkage, across; 60x60x2; 120 °C; 4 h *
Water absorption (saturation value)
Water absorption (equilibrium value)
Glass fiber/glass bead/filler content
Density
PROCESSING CONDITIONS FOR TEST SPECIMENS
Injection molding – melt temperature
Injection molding – mold temperature
MPa
MPa
%
%
MPa
%
MPa
MPa
%
MPa
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
N/mm 2
1 mm/min
50 mm/min
50 mm/min
50 mm/min
5 mm/min
5 mm/min
2 mm/min
2 mm/min
2 mm/min
2 mm/min
+23 °C
–30 °C
+23 °C
–30 °C
–40 °C
+23 °C
–30 °C
+23 °C
–30 °C
–40 °C
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
ISO
°C
°C
°C
°C
°C
°C
10 -4/K
10 -4/K
°C
Classification
%
°C
°C
10 °C/min
1.80 MPa
0.45 MPa
8.00 MPa
50 N; 50 °C/h
50 N; 120 °C/h
23 to 55 °C
23 to 55 °C
(mm)
Method A
(mm)
(mm)
ISO 11357-1,-3
ISO 75-1,-2
ISO 75-1,-2
ISO 75-1,-2
ISO 306
ISO 306
ISO 11359-1,-2
ISO 11359-1,-2
IEC 60695-10-2
UL 94
ISO 4589-2
IEC 60695-2-12
IEC 60695-2-13
10 -4
10 -4
Ohm
Ohm
kV/mm
Rating
Rating
100 Hz
1 MHz
100 Hz
1 MHz
IEC
IEC
IEC
IEC
IEC
IEC
IEC
IEC
IEC
cm 3/10 min
cm 3/10 min
%
%
°C/bar
%
%
%
%
°C/bar
%
%
%
%
%
kg/m 3
260 °C; 5 kg *
280 °C; 5 kg *
150x105x3
150x105x3
Melt temperature/back pressure
150x105x3; 120 °C; 4 h *
150x105x3; 120 °C; 4 h *
60x60x2
60x60x2
Melt temperature/back pressure
60x60x2; 120 °C; 4 h *
60x60x2; 120 °C; 4 h *
Water at 23 °C
23 °C; 50 % r.h.
-
ISO
ISO
ISO
ISO
ISO
ISO
°C
°C
-
ISO 294
ISO 294
1 mm
Test solution A
Test solution B
PLEASE NOTE THAT OUR PRODUCT INFORMATION AND DATA ARE SUBJECT TO CONTINUOUS EXAMINATION AND UPDATES.
MAKE SURE YOU REFER TO FURTHER INFORMATION AND THE LATEST UPDATES AT WWW.DURETHAN.COM
* deviant figures in parenthesis
N = no failure
Conditioning in accordance with ISO 1110 (70 °C; 62 % r.h.)
527-1,-2
527-1,-2
527-1,-2
527-1,-2
527-1,-2
527-1,-2
178
178
178
178
179-1eU
179-1eU
179-1eA
179-1eA
179-1eA
180-1U
180-1U
180-1A
180-1A
180-1A
2039-1
60250
60250
60250
60250
60093
60093
60243-1
60112
60112
ISO 1133
ISO 1133
acc. ISO 2577
acc. ISO 2577
acc. ISO 2577
acc. ISO 2577
ISO 294-4
ISO 294-4
294-4
294-4
62
62
3451-1
1183
7
DURETHAN®
PA 6 A N D C O - P O LYA M I D E S
NON-REINFORCED
BASIC GRADES
B 30 S
000000
standard grade, low viscosity
B 31 SK
000000
low viscosity, fast cycle
B 40 SK
000000
high viscosity
B 36 ASK
000000
medium viscosity
dry as molded
conditioned
dry as molded
conditioned
dry as molded
conditioned
dry as molded
conditioned
3200
80
4.0
20
1000
40
20
> 50
3500
85
4.0
10
1100
50
20
> 50
3200
80
4.0
20
900
45
20
> 50
3200
85
4.0
20
900
40
25
> 50
2900
110
6.0
95
N
N
< 10
< 10
850
35
8.0
25
N
N
20
< 10
N
N
< 10
N
N
< 10
3000
120
6.0
100
N
N
< 10
< 10
< 10
115
116
< 10
< 10
900
40
8.0
30
N
N
25
< 10
< 10
N
2800
110
5.5
100
N
N
< 10
< 10
< 10
N
N
800
35
8.5
30
N
N
40
< 10
< 10
N
N
2800
115
6.0
95
N
N
< 10
< 10
< 10
N
N
800
35
9.0
25
N
N
50
< 10
< 10
N
N
150
55
< 10
< 10
135
< 10
< 10
45
< 10
< 10
150
< 10
< 10
50
140
50
222
~55
~160
~45
~200
~200
1.0
1.1
210
V-2 (0.38)
26
750 (2.0)
4
3.5
170
200
1E13
1E14
30
600 – 1.3
600 M
< 10
< 10
222
~60
~170
~50
~200
~200
0.7
0.9
196
V-2 (0.38)
25
750 (2.0)
15
4
2000
1200
1E10
1E13
30
4
3.5
60
200
1E13
1E15
30
600
525 (450) M
222
~58
~170
~48
~200
~200
0.7
0.8
195
HB (1.5)
25
750 (2.0)
13
4
1900
1000
1E10
1E14
30
4
3.5
75
200
1E12
1E15
30
600
600 (500) M
222
~55
~150
~45
~200
~200
0.8
0.9
HB (1.5)
24
750 (2.0)
15
4
1650
1200
1E11
1E11
30
4
3.5
120
200
1E13
1E14
30
600
600 (457) M
110
110
1.02
1.16
280/500
0.32
0.40
0.90
1.1
280/400
0.15
0.15
0.78
0.85
280/500
0.26
0.25
0.90
0.96
280/500
0.21
0.20
~10
~3
~10
~3
~10
~3
~10
~3
1140
1140
1140
1140
260
80
260
80
260
80
260
80
20
4.5
1850
1350
1E09
1E13
35
R E F E R E N C E D ATA
PA 6 A N D C O - P O LYA M I D E S
NON-REINFORCED
PROPERTIES1
UNITS
COLOR
BRIEF DESCRIPTION
MECHANICAL PROPERTIES (23 °C/50 % R.H.)
Tensile modulus
Yield stress
Yield strain
Nominal strain at break
Stress at break
Strain at break
Flexural modulus
Flexural strength
Flexural strain at flexural strength
Flexural stress at 3.5 % strain
Charpy impact strength 23 °C
Charpy impact strength –30 °C
Charpy notched impact strength 23 °C
Charpy notched impact strength –30 °C
Charpy notched impact strength –40 °C
Izod impact strength 23 °C
Izod impact strength –30 °C
Izod notched impact strength 23 °C
Izod notched impact strength –30 °C
Izod notched impact strength –40 °C
Ball indentation hardness
THERMAL PROPERTIES
Melting temperature
Temperature of deflection under load HDT, method Af
Temperature of deflection under load HDT, method Bf
Temperature of deflection under load HDT, method Cf
Vicat softening temperature, B50
Vicat softening temperature, B120
Coefficient of linear thermal expansion, parallel
Coefficient of linear thermal expansion, across
Resistance to heat (ball pressure test)
Burning behavior UL 94 (UL Yellow Card)
Oxygen index
Glow Wire Flammability Index (GWFI)
Glow Wire Ignition Temperature (GWIT)
ELECTRICAL PROPERTIES (23 °C/50 % R.H.)
Relative permittivity; 100 Hz
Relative permittivity; 1 MHz
Dissipation factor; 100 Hz
Dissipation factor; 1 MHz
Volume resistivity
Surface resistivity
Electric strength
Comparative tracking index CTI
Comparative tracking index CTI M
OTHER PROPERTIES (23 °C)
Melt volume-flow rate (MVR), 260 °C; 5 kg *
Melt volume-flow rate (MVR), 280 °C; 5 kg *
Molding shrinkage, parallel; 150x105x3
Molding shrinkage, across; 150x105x3
Mold 80 °C; melt temperature/back pressure
Post-shrinkage, parallel; 150x105x3; 120 °C; 4 h *
Post-shrinkage, across; 150x105x3; 120 °C; 4 h *
Molding shrinkage, parallel; 60x60x2
Molding shrinkage, across; 60x60x2
Mold 80 °C; melt temperature/back pressure
Post-shrinkage, parallel; 60x60x2; 120 °C; 4 h *
Post-shrinkage, across; 60x60x2; 120 °C; 4 h *
Water absorption (saturation value)
Water absorption (equilibrium value)
Glass fiber/glass bead/filler content
Density
PROCESSING CONDITIONS FOR TEST SPECIMENS
Injection molding – melt temperature
Injection molding – mold temperature
E N H A N C E D I M PA C T R E S I S TA N C E
BC 30
000000
enhanced impact resistance
compared to B 30 S
BC 304
000000
medium impact resistance
dry as molded
conditioned
dry as molded
conditioned
MPa
MPa
%
%
MPa
%
MPa
MPa
%
MPa
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
N/mm 2
2800
65
4.0
> 10
1200
40
20
> 50
1800
45
4.5
> 50
800
35
30
> 50
2400
90
7.0
75
N
N
10
< 10
800
30
9.0
20
N
N
50
< 10
1600
60
7.0
55
N
N
85
20
700
30
9.0
25
N
N
120
20
< 10
< 10
50
< 10
70
30
100
17
110
45
80
35
°C
°C
°C
°C
°C
°C
10 -4/K
10 -4/K
°C
Classification
%
°C
°C
222
~50
~135
~45
~180
~180
1.0
1.1
10 -4
10 -4
Ohm
Ohm
kV/mm
Rating
Rating
cm 3/10 min
cm 3/10 min
%
%
°C/bar
%
%
%
%
°C/bar
%
%
%
%
%
kg/m 3
°C
°C
222
~50
~90
~40
~150
~150
1.5
1.6
194
HB (0.75)
22
800 (2.0)
3.7
3.3
110
190
1E13
1E15
35
600
600 M
21
650 (2.0)
8.5
3.8
1650
660
1E11
1E14
35
3.3
3
70
150
1E13
1E15
35
600 – 1.7
600 M – 2.3
100
1.05
1.57
260/400
0.35
0.44
1.14
1.45
260/500
0.38
0.46
~9
~2.7
~7.5
~2.2
1100
1060
260
80
260
60
PLEASE NOTE THAT OUR PRODUCT INFORMATION AND DATA ARE SUBJECT TO CONTINUOUS EXAMINATION AND UPDATES.
MAKE SURE YOU REFER TO FURTHER INFORMATION AND THE LATEST UPDATES AT WWW.DURETHAN.COM
See page 1 of the table for test conditions and standards
* deviant figures in parenthesis
N = no failure
1
11
3.5
1750
900
1E10
1E14
35
9
DURETHAN®
PA 6 A N D C O - P O LYA M I D E S
PA 6 A N D C O - P O LYA M I D E S
NON-REINFORCED
REINFORCED/FILLED
E N H A N C E D I M PA C T R E S I S TA N C E
BASIC GRADES
BC 40 SR2
000000
high impact resistance
DP 1336
901510
high impact resistance
dry as molded
conditioned
dry as molded
2700
70
4.0
> 20
1200
40
30
> 50
2100
55
4.0
> 50
2400
90
7.0
80
N
N
20
15
18
110
800
30
9.0
20
N
N
100
15
100
45
222
~50
~130
~45
~180
~180
0.9
1.0
21
750 (2.0)
4
3.3
125
200
1E13
1E15
35
600
600
1900
70
6.0
60
N
N
80
70
85
conditioned
N
N
100
BKV 15 H2.0
901510
15 % glass fibers
dry as molded
conditioned
dry as molded
conditioned
5300
2500
9500
5900
125
2.5
4700
180
4.0
170
50
40
< 10
< 10
< 10
30
30
60
15
2500
90
7.0
70
90
45
< 10
< 10
< 10
75
35
170
3
8300
270
4.0
260
70
60
10
< 10
100
6
5000
160
6.0
140
90
60
20
10
< 10
< 10
170
< 10
< 10
80
60
55
10
< 10
80
55
20
< 10
210
100
100
30
222
~50
~130
~40
213
~190
~210
~60
200
> 200
0.3
0.8
HB (0.75)
HB (0.75)
22
650 (2.0)
650 (2.0)
14
4
1900
900
1E10
1E13
30
375 – 1.6
30
1.23
1.65
260/400
0.17
0.25
BKV 30 H2.0
901510
30 % glass fibers
222
~200
~215
~110
200
> 200
0.2
1.0
212
HB (0.75)
22
600 (2.0)
4.2
3.8
100
170
1E13
1E14
40
425 – 0.1
300 (200) M – 1.4
16
1.10
1.09
260/500
0.62
0.60
0.29
0.88
280/500
0.08
0.21
1100
1060
~8.5
~2.6
15
1230
0.18
0.85
280/500
0.04
0.11
0.30
0.69
280/600
0.06
0.13
~7.0
~2.1
30
1372
260
80
260
45
280
80
280
80
~9
~2.7
12
4.4
2550
780
1E10
1E13
35
R E F E R E N C E D ATA
PA 6 A N D C O - P O LYA M I D E S
REINFORCED/FILLED
PROPERTIES1
UNITS
COLOR
BRIEF DESCRIPTION
MECHANICAL PROPERTIES (23 °C/50 % R.H.)
Tensile modulus
Yield stress
Yield strain
Nominal strain at break
Stress at break
Strain at break
Flexural modulus
Flexural strength
Flexural strain at flexural strength
Flexural stress at 3.5 % strain
Charpy impact strength 23 °C
Charpy impact strength –30 °C
Charpy notched impact strength 23 °C
Charpy notched impact strength –30 °C
Charpy notched impact strength –40 °C
Izod impact strength 23 °C
Izod impact strength –30 °C
Izod notched impact strength 23 °C
Izod notched impact strength –30 °C
Izod notched impact strength –40 °C
Ball indentation hardness
THERMAL PROPERTIES
Melting temperature
Temperature of deflection under load HDT, method Af
Temperature of deflection under load HDT, method Bf
Temperature of deflection under load HDT, method Cf
Vicat softening temperature, B50
Vicat softening temperature, B120
Coefficient of linear thermal expansion, parallel
Coefficient of linear thermal expansion, across
Resistance to heat (ball pressure test)
Burning behavior UL 94 (UL Yellow Card)
Oxygen index
Glow Wire Flammability Index (GWFI)
Glow Wire Ignition Temperature (GWIT)
ELECTRICAL PROPERTIES (23 °C/50 % R.H.)
Relative permittivity; 100 Hz
Relative permittivity; 1 MHz
Dissipation factor; 100 Hz
Dissipation factor; 1 MHz
Volume resistivity
Surface resistivity
Electric strength
Comparative tracking index CTI
Comparative tracking index CTI M
OTHER PROPERTIES (23 °C)
Melt volume-flow rate (MVR), 260 °C; 5 kg *
Melt volume-flow rate (MVR), 280 °C; 5 kg *
Molding shrinkage, parallel; 150x105x3
Molding shrinkage, across; 150x105x3
Mold 80 °C; melt temperature/back pressure
Post-shrinkage, parallel; 150x105x3; 120 °C; 4 h *
Post-shrinkage, across; 150x105x3; 120 °C; 4 h *
Molding shrinkage, parallel; 60x60x2
Molding shrinkage, across; 60x60x2
Mold 80 °C; melt temperature/back pressure
Post-shrinkage, parallel; 60x60x2; 120 °C; 4 h *
Post-shrinkage, across; 60x60x2; 120 °C; 4 h *
Water absorption (saturation value)
Water absorption (equilibrium value)
Glass fiber/glass bead/filler content
Density
PROCESSING CONDITIONS FOR TEST SPECIMENS
Injection molding – melt temperature
Injection molding – mold temperature
BASIC GRADES
BKV 35 H2.0
901510
35 % glass fibers
BKV 50 H2.0
901510
50 % glass fibers
dry as molded
conditioned
dry as molded
conditioned
MPa
MPa
%
%
MPa
%
MPa
MPa
%
MPa
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
N/mm 2
10700
6800
16300
9800
180
3
9400
300
4.0
280
80
70
12
< 10
110
5
5900
180
5.0
160
90
70
20
10
220
3
14800
360
3.0
140
5
9700
230
5.0
90
80
20
13
100
80
25
13
75
65
12
< 10
85
65
20
10
75
75
20
12
85
70
25
12
250
109
°C
°C
°C
°C
°C
°C
10 -4/K
10 -4/K
°C
Classification
%
°C
°C
222
~205
~215
~150
200
> 200
0.2
0.8
222
~205
~215
~175
> 200
> 200
0.2
0.7
HB (1.5)
23
650 (2.0)
HB (0.75)
24
650 (2.0)
475
550
0.16
0.81
280/500
0.03
0.10
0.16
0.85
280/400
0.02
0.05
~6.5
~1.9
35
1410
~5.0
~1.5
50
1570
290
80
290
80
10 -4
10 -4
Ohm
Ohm
kV/mm
Rating
Rating
cm 3/10 min
cm 3/10 min
%
%
°C/bar
%
%
%
%
°C/bar
%
%
%
%
%
kg/m 3
°C
°C
PLEASE NOTE THAT OUR PRODUCT INFORMATION AND DATA ARE SUBJECT TO CONTINUOUS EXAMINATION AND UPDATES.
MAKE SURE YOU REFER TO FURTHER INFORMATION AND THE LATEST UPDATES AT WWW.DURETHAN.COM
See page 1 of the table for test conditions and standards
* deviant figures in parenthesis
N = no failure
1
11
DURETHAN®
PA 6 A N D C O - P O LYA M I D E S
REINFORCED/FILLED
BASIC GRADES
BM 130 H2.0
901510
30 % mineral
BM 230 H2.0
901510
30 % mineral
BM 240 H2.0
901510
40 % mineral
BM 29 X H1.0
000000
30 % glass fiber + mineral
dry as molded
conditioned
dry as molded
conditioned
dry as molded
conditioned
dry as molded
conditioned
7000
2800
5000
2000
6000
2200
6100
2900
75
3
6900
120
3.0
35
45
< 10
< 10
< 10
37
30
40
40
2600
50
8.0
45
100
45
< 10
< 10
< 10
112
35
80
10
4700
140
5.5
130
120
80
< 10
< 10
< 10
122
80
50
45
1800
60
8.0
55
N
80
13
< 10
< 10
N
95
85
7
5700
150
5.0
140
120
90
< 10
< 10
< 10
100
75
50
40
2100
60
8.0
50
N
90
12
< 10
< 10
N
85
110
4
5700
180
5.0
170
40
40
< 10
< 10
< 10
35
35
60
20
2600
90
8.0
70
120
40
< 10
< 10
< 10
N
40
< 10
< 10
160
< 10
< 10
70
< 10
< 10
180
< 10
< 10
80
< 10
< 10
210
< 10
< 10
90
< 10
< 10
195
< 10
< 10
80
222
~120
~200
~50
> 200
> 200
0.4
0.6
222
~70
~185
~50
200
> 200
0.7
0.9
222
~90
~190
~50
200
> 200
0.8
0.9
26
650 (2.0)
25
650 (2.0)
26
700 (2.0)
4
3.5
100
170
1E13
1E15
30
500
400 (325) M
11
4
2200
800
1E10
1E13
30
4.3
3.9
80
180
1E12
1E16
29
525 (475) – 0.5
200 M – 0.3
16
4.7
3250
1100
1E10
1E13
27
4.4
4
110
150
1E13
1E15
35
525 – 0.4
375 – 1.3
222
~190
~200
~60
> 200
22
700 (2.0)
15
4.7
2500
1000
1E09
1E13
38
500
18
0.48
0.60
280/400
0.12
0.12
1.08
1.12
280/500
0.32
0.30
1.25
1.22
280/500
0.17
0.20
~7.0
~2.1
30
1360
~7.0
~2.2
30
1360
~6.0
~1.9
40
1460
0.49
0.89
280/500
0.06
0.08
0.51
0.56
280/600
0.16
0.13
~7.0
~2.2
30
1360
280
80
280
80
290
80
280
80
R E F E R E N C E D ATA
PA 6 A N D C O - P O LYA M I D E S
REINFORCED/FILLED
PROPERTIES1
UNITS
COLOR
BRIEF DESCRIPTION
MECHANICAL PROPERTIES (23 °C/50 % R.H.)
Tensile modulus
Yield stress
Yield strain
Nominal strain at break
Stress at break
Strain at break
Flexural modulus
Flexural strength
Flexural strain at flexural strength
Flexural stress at 3.5 % strain
Charpy impact strength 23 °C
Charpy impact strength –30 °C
Charpy notched impact strength 23 °C
Charpy notched impact strength –30 °C
Charpy notched impact strength –40 °C
Izod impact strength 23 °C
Izod impact strength –30 °C
Izod notched impact strength 23 °C
Izod notched impact strength –30 °C
Izod notched impact strength –40 °C
Ball indentation hardness
THERMAL PROPERTIES
Melting temperature
Temperature of deflection under load HDT, method Af
Temperature of deflection under load HDT, method Bf
Temperature of deflection under load HDT, method Cf
Vicat softening temperature, B50
Vicat softening temperature, B120
Coefficient of linear thermal expansion, parallel
Coefficient of linear thermal expansion, across
Resistance to heat (ball pressure test)
Burning behavior UL 94 (UL Yellow Card)
Oxygen index
Glow Wire Flammability Index (GWFI)
Glow Wire Ignition Temperature (GWIT)
ELECTRICAL PROPERTIES (23 °C/50 % R.H.)
Relative permittivity; 100 Hz
Relative permittivity; 1 MHz
Dissipation factor; 100 Hz
Dissipation factor; 1 MHz
Volume resistivity
Surface resistivity
Electric strength
Comparative tracking index CTI
Comparative tracking index CTI M
OTHER PROPERTIES (23 °C)
Melt volume-flow rate (MVR), 260 °C; 5 kg *
Melt volume-flow rate (MVR), 280 °C; 5 kg *
Molding shrinkage, parallel; 150x105x3
Molding shrinkage, across; 150x105x3
Mold 80 °C; melt temperature/back pressure
Post-shrinkage, parallel; 150x105x3; 120 °C; 4 h *
Post-shrinkage, across; 150x105x3; 120 °C; 4 h *
Molding shrinkage, parallel; 60x60x2
Molding shrinkage, across; 60x60x2
Mold 80 °C; melt temperature/back pressure
Post-shrinkage, parallel; 60x60x2; 120 °C; 4 h *
Post-shrinkage, across; 60x60x2; 120 °C; 4 h *
Water absorption (saturation value)
Water absorption (equilibrium value)
Glass fiber/glass bead/filler content
Density
PROCESSING CONDITIONS FOR TEST SPECIMENS
Injection molding – melt temperature
Injection molding – mold temperature
BASIC GRADES
BM 40 X H2.0 DUS009
901510
40 % glass fiber + mineral
MPa
MPa
%
%
MPa
%
MPa
MPa
%
MPa
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
N/mm 2
°C
°C
°C
°C
°C
°C
10 -4/K
10 -4/K
°C
Classification
%
°C
°C
10 -4
10 -4
Ohm
Ohm
kV/mm
Rating
Rating
cm 3/10 min
cm 3/10 min
%
%
°C/bar
%
%
%
%
°C/bar
%
%
%
%
%
kg/m 3
°C
°C
BG 30 X
000000
30 % glass fiber + glass beads
dry as molded
conditioned
dry as molded
conditioned
8000
4000
6400
3200
120
2.8
7500
193
3.6
193
45
40
60
35
35
< 10
70
35
< 10
125
4
5800
195
5.0
175
50
45
< 10
< 10
< 10
35
30
65
10
2800
100
8.0
80
75
45
< 10
< 10
< 10
80
40
< 10
< 10
185
< 10
< 10
75
213
221
190
215
80
215
0.4
0.8
HB (0.75)
425
90
40
222
~190
~210
~60
> 200
> 200
0.3
0.9
HB (0.75)
23
650 (2.0)
4.5
4
130
180
1E13
1E14
36
400 – 1.5
225 M – 1.5
18
30
0.43
1.08
290/500
0.06
0.06
0.51
0.67
290/600
0.17
0.15
0.33
0.87
280/500
0.06
0.16
40
1480
~7.0
~2.2
30
1360
290
80
280
80
PLEASE NOTE THAT OUR PRODUCT INFORMATION AND DATA ARE SUBJECT TO CONTINUOUS EXAMINATION AND UPDATES.
MAKE SURE YOU REFER TO FURTHER INFORMATION AND THE LATEST UPDATES AT WWW.DURETHAN.COM
See page 1 of the table for test conditions and standards
* deviant figures in parenthesis
N = no failure
1
16
4.8
3100
1000
1E09
1E12
30
13
DURETHAN®
PA 6 A N D C O - P O LYA M I D E S
REINFORCED/FILLED
I M P R O V E D F L O WA B I L I T Y
BKV 30 EF
000000
30 % glass fiber, easy flow
DP BKV 30 XF
000000
30 % glass fiber, extreme flow
BKV 35 H2.0 EF
901510
35 % glass fiber, easy flow
DP BKV 35 XF
901510
35 % glass fiber, extreme flow
dry as molded
conditioned
dry as molded
conditioned
dry as molded
conditioned
dry as molded
conditioned
9300
5700
8600
5500
10500
6700
9500
6300
180
3.2
7800
270
4.1
255
65
50
12
10
100
6
6000
180
5.3
155
85
45
18
10
165
3
7400
230
4.0
235
90
95
5
4900
150
5.8
130
85
190
3
9500
280
4.0
270
70
55
10
115
6
5900
180
6.0
150
80
55
15
165
2.9
8700
250
3.7
250
80
104
5.1
5700
160
5.1
140
80
55
80
65
50
10
75
55
15
70
15
10
70
40
15
75
10
10
65
60
12
14
19
190
155
210
220
~210
~220
~150
220
210
165
220
210
220
160
210
0.2
1.0
0.2
1.1
210
0.3
0.9
28
43
220
209
220
0.2
0.9
HB (0.75)
550 – < 1
75 (270/5)
0.17
0.74
260/500
0.04
0.15
0.23
0.58
260/600
0.05
0.14
0.22
0.53
270/600
0.03
0.09
0.21
0.60
280/600
0.07
0.15
0.16
0.87
280/500
0.03
0.02
0.22
0.58
280/600
0.05
0.14
30
1350
30
1340
35
1400
35
1358
260
80
260
80
260
80
270
80
R E F E R E N C E D ATA
PA 6 A N D C O - P O LYA M I D E S
REINFORCED/FILLED
PROPERTIES1
UNITS
COLOR
BRIEF DESCRIPTION
MECHANICAL PROPERTIES (23 °C/50 % R.H.)
Tensile modulus
Yield stress
Yield strain
Nominal strain at break
Stress at break
Strain at break
Flexural modulus
Flexural strength
Flexural strain at flexural strength
Flexural stress at 3.5 % strain
Charpy impact strength 23 °C
Charpy impact strength –30 °C
Charpy notched impact strength 23 °C
Charpy notched impact strength –30 °C
Charpy notched impact strength –40 °C
Izod impact strength 23 °C
Izod impact strength –30 °C
Izod notched impact strength 23 °C
Izod notched impact strength –30 °C
Izod notched impact strength –40 °C
Ball indentation hardness
THERMAL PROPERTIES
Melting temperature
Temperature of deflection under load HDT, method Af
Temperature of deflection under load HDT, method Bf
Temperature of deflection under load HDT, method Cf
Vicat softening temperature, B50
Vicat softening temperature, B120
Coefficient of linear thermal expansion, parallel
Coefficient of linear thermal expansion, across
Resistance to heat (ball pressure test)
Burning behavior UL 94 (UL Yellow Card)
Oxygen index
Glow Wire Flammability Index (GWFI)
Glow Wire Ignition Temperature (GWIT)
ELECTRICAL PROPERTIES (23 °C/50 % R.H.)
Relative permittivity; 100 Hz
Relative permittivity; 1 MHz
Dissipation factor; 100 Hz
Dissipation factor; 1 MHz
Volume resistivity
Surface resistivity
Electric strength
Comparative tracking index CTI
Comparative tracking index CTI M
OTHER PROPERTIES (23 °C)
Melt volume-flow rate (MVR), 260 °C; 5 kg *
Melt volume-flow rate (MVR), 280 °C; 5 kg *
Molding shrinkage, parallel; 150x105x3
Molding shrinkage, across; 150x105x3
Mold 80 °C; melt temperature/back pressure
Post-shrinkage, parallel; 150x105x3; 120 °C; 4 h *
Post-shrinkage, across; 150x105x3; 120 °C; 4 h *
Molding shrinkage, parallel; 60x60x2
Molding shrinkage, across; 60x60x2
Mold 80 °C; melt temperature/back pressure
Post-shrinkage, parallel; 60x60x2; 120 °C; 4 h *
Post-shrinkage, across; 60x60x2; 120 °C; 4 h *
Water absorption (saturation value)
Water absorption (equilibrium value)
Glass fiber/glass bead/filler content
Density
PROCESSING CONDITIONS FOR TEST SPECIMENS
Injection molding – melt temperature
Injection molding – mold temperature
I M P R O V E D F L O WA B I L I T Y
BKV 50 H2.0 EF
900116
50 % glass fiber, easy flow
MPa
MPa
%
%
MPa
%
MPa
MPa
%
MPa
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
N/mm 2
°C
°C
°C
°C
°C
°C
10 -4/K
10 -4/K
°C
Classification
%
°C
°C
10 -4
10 -4
Ohm
Ohm
kV/mm
Rating
Rating
cm 3/10 min
cm 3/10 min
%
%
°C/bar
%
%
%
%
°C/bar
%
%
%
%
%
kg/m 3
°C
°C
DP BKV 60 H2.0 EF
900116
60 % glass fiber, easy flow
dry as molded
conditioned
dry as molded
conditioned
16500
10000
18900
13100
225
2.3
15200
350
3.1
140
3.5
9900
230
4.4
235
2.1
17200
365
3.0
150
3.1
13100
245
4.0
95
95
85
85
90
90
90
80
85
85
15
80
80
20
80
80
15
75
75
20
232
255
155
222
213
220
180
222
~215
~220
~190
214
0.2
0.8
210
0.2
0.7
HB (0.75)
4.7
4.2
135
170
7E12
12.9
4.8
2622
774
4E9
5.3
4.7
164
177
5.8E12
11.2
5.1
2149
651
8E9
35
400
250 M
34
33
600 – < 1
250 M – < 1
33
23 (270/5)
10 (270/5)
0.16
0.61
280/500
0.03
0.08
0.19
0.51
280/600
0.04
0.09
50
1570
0.19
0.55
280/500
0.03
0.02
0.19
0.47
280/600
0.02
0.09
~4.2
~1.2
60
1690
280
80
280
80
PLEASE NOTE THAT OUR PRODUCT INFORMATION AND DATA ARE SUBJECT TO CONTINUOUS EXAMINATION AND UPDATES.
MAKE SURE YOU REFER TO FURTHER INFORMATION AND THE LATEST UPDATES AT WWW.DURETHAN.COM
See page 1 of the table for test conditions and standards
* deviant figures in parenthesis
N = no failure
1
15
DURETHAN®
PA 6 A N D C O - P O LYA M I D E S
REINFORCED/FILLED
I M P R O V E D F L O WA B I L I T Y
DP BM 29 X H2.0 EF
900116
30 % glass fiber + mineral,
easy flow
dry as molded
conditioned
E N H A N C E D I M PA C T R E S I S TA N C E
DP 1441/40 H2.0 EF
900116
40 % glass fiber + mineral,
easy flow
BKV 115
000000
15 % glass fiber,
high impact resistance
BKV 130
000000
30 % glass fiber,
high impact resistance
dry as molded
conditioned
dry as molded
conditioned
dry as molded
conditioned
6200
8500
4500
5700
2800
9000
5200
110
2.7
5700
180
4.5
165
40
35
110
35
135
2.8
8100
220
3.5
220
40
40
5
65
8.7
4250
125
6.2
110
65
45
8
100
7
4800
145
7.0
115
110
80
28
10
95
30
< 10
< 10
30
30
5
60
30
10
65
12
2500
95
8.0
70
80
40
20
< 10
< 10
50
40
160
4
8000
250
5.0
230
95
80
18
10
30
25
< 10
< 10
120
4
5000
185
5.0
165
65
45
< 10
< 10
< 10
60
40
< 10
< 10
160
< 10
< 10
70
80
16
10
75
60
25
10
190
80
189
210
222
180
200
222
200
215
> 200
0.4
0.8
0.3
95
213
~190
~205
~60
~200
~200
0.3
1.0
213
~200
~210
~90
> 200
> 200
0.2
1.0
22
650 (2.0)
22
650 (2.0)
0.9
4.1
3.7
80
200
1E13
1E14
35
600 – 0.6
475 (300) M – 2.0
425
8
4.8
2150
1300
1E10
1E13
35
4.2
3.8
90
200
1E13
1E15
40
575
525 M
60 (270/5)
28
11
0.25
0.87
290/500
0.05
0.15
0.16
0.72
280/500
0.04
0.15
280
80
0.24
0.36
280/600
0.13
0.15
~7.0
~2.2
30
1360
40
1440
0.26
0.71
280/500
0.07
0.16
0.38
0.51
280/600
0.11
0.13
~8.5
~2.5
15
1230
280
80
290
80
280
80
~7
~2.0
30
1360
13
4.6
1750
900
1E10
1E13
40
R E F E R E N C E D ATA
PA 6 A N D C O - P O LYA M I D E S
REINFORCED/FILLED
PROPERTIES1
UNITS
COLOR
BRIEF DESCRIPTION
MECHANICAL PROPERTIES (23 °C/50 % R.H.)
Tensile modulus
Yield stress
Yield strain
Nominal strain at break
Stress at break
Strain at break
Flexural modulus
Flexural strength
Flexural strain at flexural strength
Flexural stress at 3.5 % strain
Charpy impact strength 23 °C
Charpy impact strength –30 °C
Charpy notched impact strength 23 °C
Charpy notched impact strength –30 °C
Charpy notched impact strength –40 °C
Izod impact strength 23 °C
Izod impact strength –30 °C
Izod notched impact strength 23 °C
Izod notched impact strength –30 °C
Izod notched impact strength –40 °C
Ball indentation hardness
THERMAL PROPERTIES
Melting temperature
Temperature of deflection under load HDT, method Af
Temperature of deflection under load HDT, method Bf
Temperature of deflection under load HDT, method Cf
Vicat softening temperature, B50
Vicat softening temperature, B120
Coefficient of linear thermal expansion, parallel
Coefficient of linear thermal expansion, across
Resistance to heat (ball pressure test)
Burning behavior UL 94 (UL Yellow Card)
Oxygen index
Glow Wire Flammability Index (GWFI)
Glow Wire Ignition Temperature (GWIT)
ELECTRICAL PROPERTIES (23 °C/50 % R.H.)
Relative permittivity; 100 Hz
Relative permittivity; 1 MHz
Dissipation factor; 100 Hz
Dissipation factor; 1 MHz
Volume resistivity
Surface resistivity
Electric strength
Comparative tracking index CTI
Comparative tracking index CTI M
OTHER PROPERTIES (23 °C)
Melt volume-flow rate (MVR), 260 °C; 5 kg *
Melt volume-flow rate (MVR), 280 °C; 5 kg *
Molding shrinkage, parallel; 150x105x3
Molding shrinkage, across; 150x105x3
Mold 80 °C; melt temperature/back pressure
Post-shrinkage, parallel; 150x105x3; 120 °C; 4 h *
Post-shrinkage, across; 150x105x3; 120 °C; 4 h *
Molding shrinkage, parallel; 60x60x2
Molding shrinkage, across; 60x60x2
Mold 80 °C; melt temperature/back pressure
Post-shrinkage, parallel; 60x60x2; 120 °C; 4 h *
Post-shrinkage, across; 60x60x2; 120 °C; 4 h *
Water absorption (saturation value)
Water absorption (equilibrium value)
Glass fiber/glass bead/filler content
Density
PROCESSING CONDITIONS FOR TEST SPECIMENS
Injection molding – melt temperature
Injection molding – mold temperature
E N H A N C E D I M PA C T R E S I S TA N C E
BKV 140
000000
40 % glass fiber,
high impact resistance
BKV 215
000000
15 % glass fiber,
highest impact resistance
dry as molded
conditioned
dry as molded
conditioned
MPa
MPa
%
%
MPa
%
MPa
MPa
%
MPa
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
N/mm 2
11500
6700
4600
2400
180
3
10400
295
4.0
280
100
95
25
10
120
6
6200
175
6.0
145
110
95
30
10
90
4.5
4000
140
5.0
125
70
80
20
12
55
15
2200
80
7.0
60
80
75
35
12
80
75
20
16
90
75
30
16
18
10
30
10
200
110
55
°C
°C
°C
°C
°C
°C
10 -4/K
10 -4/K
°C
Classification
%
°C
°C
213
~200
~210
> 200
> 200
0.2
0.9
213
~175
~205
~60
~200
~200
0.4
1.5
22
650 (2.0)
22
650 (2.0)
10 -4
10 -4
Ohm
Ohm
kV/mm
Rating
Rating
cm 3/10 min
cm 3/10 min
%
%
°C/bar
%
%
%
%
°C/bar
%
%
%
%
%
kg/m 3
°C
°C
4
4
70
200
1E13
1E14
40
575
450 M – 0.6
10
5
1E09
1E10
35
3.5
3.2
60
150
1E11
1E15
43
600 (550)
575 (375) M
5
0.16
0.71
280/400
0.03
0.10
0.30
0.83
280/400
0.06
0.15
~6
~1.6
40
1460
~7.0
~2.0
15
1180
290
80
280
80
PLEASE NOTE THAT OUR PRODUCT INFORMATION AND DATA ARE SUBJECT TO CONTINUOUS EXAMINATION AND UPDATES.
MAKE SURE YOU REFER TO FURTHER INFORMATION AND THE LATEST UPDATES AT WWW.DURETHAN.COM
See page 1 of the table for test conditions and standards
* deviant figures in parenthesis
N = no failure
1
10
3.7
1500
800
1E10
1E13
43
17
DURETHAN®
PA 6 A N D C O - P O LYA M I D E S
REINFORCED/FILLED
E N H A N C E D I M PA C T R E S I S TA N C E
BKV 230
000000
30 % glass fiber,
highest impact resistance
I M P R O V E D S U R FA C E F I N I S H
DP BKV 240 H2.0
901510
40 % glass fiber,
highest impact resistance
BKV 15 G H2.0
901510
15 % glass fibers, improved
surface finish, CaCl 2 resistance
BKV 30 G H2.0
900051
30 % glass fibers, improved
surface finish, CaCl 2 resistance
dry as molded
conditioned
dry as molded
conditioned
dry as molded
conditioned
dry as molded
conditioned
8300
4700
10500
5700
6500
4000
9500
6200
140
4
7500
230
5.0
210
95
100
25
20
90
10
4300
125
7.0
100
110
100
45
20
150
4
9500
235
4.0
230
80
90
25
15
90
7.5
5500
135
6.0
115
95
120
3
5700
185
4.0
180
3
8700
250
4.0
35
15
90
80
35
15
75
60
10
< 10
< 10
65
50
110
7
5700
170
6.2
145
75
60
13
< 10
< 10
70
50
25
15
80
90
25
15
40
35
< 10
< 10
< 10
20
20
70
11
3500
125
7.0
100
40
35
< 10
< 10
< 10
35
25
165
70
< 10
< 10
190
< 10
< 10
95
< 10
< 10
230
< 10
< 10
140
213
~190
~210
210
195
210
125
~200
~200
0.2
1.3
200
0.2
1.4
35
218
~180
~210
~55
~200
~200
0.3
0.8
221
~195
~215
~80
~210
~210
0.3
0.8
23
650 (2.0)
23
600 (2.0)
HB (0.75)
650 (2.0)
3.8
3.6
14
4.1
1E13
1E14
40
1E09
1E12
30
600
4.1
3.7
80
180
1E11
1E15
30
375 (325) – 0.5
10
4.3
2200
700
1E09
1E13
30
4.3
4.0
80
170
1E13
1E15
34
475
225 (175) M
42
0.18
0.83
280/400
0.04
0.10
~6.0
~1.8
30
1320
280
80
0.19
0.78
290/500
0.15
0.02
0.27
0.74
290/600
0.04
0.15
0.34
0.67
280/500
0.10
0.21
40
1410
~7.8
~2.6
15
1240
0.20
0.74
280/500
0.04
0.16
0.27
0.58
280/600
0.06
0.16
~6.5
~1.9
30
1360
290
80
280
80
280
80
7
4.3
1300
500
1E10
1E13
31
R E F E R E N C E D ATA
PA 6 A N D C O - P O LYA M I D E S
PROPERTIES1
UNITS
DP 1100/30 H2.0
901510
30 % micro beads,
improved surface finish
COLOR
BRIEF DESCRIPTION
MECHANICAL PROPERTIES (23 °C/50 % R.H.)
Tensile modulus
Yield stress
Yield strain
Nominal strain at break
Stress at break
Strain at break
Flexural modulus
Flexural strength
Flexural strain at flexural strength
Flexural stress at 3.5 % strain
Charpy impact strength 23 °C
Charpy impact strength –30 °C
Charpy notched impact strength 23 °C
Charpy notched impact strength –30 °C
Charpy notched impact strength –40 °C
Izod impact strength 23 °C
Izod impact strength –30 °C
Izod notched impact strength 23 °C
Izod notched impact strength –30 °C
Izod notched impact strength –40 °C
Ball indentation hardness
THERMAL PROPERTIES
Melting temperature
Temperature of deflection under load HDT, method Af
Temperature of deflection under load HDT, method Bf
Temperature of deflection under load HDT, method Cf
Vicat softening temperature, B50
Vicat softening temperature, B120
Coefficient of linear thermal expansion, parallel
Coefficient of linear thermal expansion, across
Resistance to heat (ball pressure test)
Burning behavior UL 94 (UL Yellow Card)
Oxygen index
Glow Wire Flammability Index (GWFI)
Glow Wire Ignition Temperature (GWIT)
ELECTRICAL PROPERTIES (23 °C/50 % R.H.)
Relative permittivity; 100 Hz
Relative permittivity; 1 MHz
Dissipation factor; 100 Hz
Dissipation factor; 1 MHz
Volume resistivity
Surface resistivity
Electric strength
Comparative tracking index CTI
Comparative tracking index CTI M
OTHER PROPERTIES (23 °C)
Melt volume-flow rate (MVR), 260 °C; 5 kg *
Melt volume-flow rate (MVR), 280 °C; 5 kg *
Molding shrinkage, parallel; 150x105x3
Molding shrinkage, across; 150x105x3
Mold 80 °C; melt temperature/back pressure
Post-shrinkage, parallel; 150x105x3; 120 °C; 4 h *
Post-shrinkage, across; 150x105x3; 120 °C; 4 h *
Molding shrinkage, parallel; 60x60x2
Molding shrinkage, across; 60x60x2
Mold 80 °C; melt temperature/back pressure
Post-shrinkage, parallel; 60x60x2; 120 °C; 4 h *
Post-shrinkage, across; 60x60x2; 120 °C; 4 h *
Water absorption (saturation value)
Water absorption (equilibrium value)
Glass fiber/glass bead/filler content
Density
PROCESSING CONDITIONS FOR TEST SPECIMENS
Injection molding – melt temperature
Injection molding – mold temperature
REINFORCED/FILLED
I M P R O V E D H E AT
I M P R O V E D S U R FA C E F I N I S H
S TA B I L I Z AT I O N
MPa
MPa
%
%
MPa
%
MPa
MPa
%
MPa
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
N/mm 2
°C
°C
°C
°C
°C
°C
10 -4/K
10 -4/K
°C
Classification
%
°C
°C
dry as molded
conditioned
dry as molded
conditioned
4300
80
3.5
1350
35
15
10000
5200
75
6
3900
125
5.0
115
25
20
3
35
155
1150
45
7.5
30
> 150
30
8
170
3
8500
275
4.0
260
80
70
12
< 10
75
8
4700
130
6.0
110
90
60
15
< 10
20
20
3.5
N
25
7.5
65
60
60
40
< 10
< 10
210
100
175
°C
°C
65
70
180
50
222
~205
~215
~110
205
0.75
0.75
> 200
0.2
0.8
23
600 (2.0)
4.7
3.9
360
230
1E13
1E12
40
425
200
10 -4
10 -4
Ohm
Ohm
kV/mm
Rating
Rating
cm 3/10 min
cm 3/10 min
%
%
°C/bar
%
%
%
%
°C/bar
%
%
%
%
%
kg/m 3
BKV 30 HTS
901510
30 % glass fibers
8 (270/5)
85
1.07
1.13
280/500
0.31
0.31
0.20
0.85
280/400
0.06
0.08
30
1351
~7.0
~2.1
30
1360
280
80
280
80
PLEASE NOTE THAT OUR PRODUCT INFORMATION AND DATA ARE SUBJECT TO CONTINUOUS EXAMINATION AND UPDATES.
MAKE SURE YOU REFER TO FURTHER INFORMATION AND THE LATEST UPDATES AT WWW.DURETHAN.COM
See page 1 of the table for test conditions and standards
* deviant figures in parenthesis
N = no failure
1
38
5.1
8500
1300
4E13
9E11
35
19
DURETHAN®
PA 6 A N D C O - P O LYA M I D E S
PA 6 I
REINFORCED/FILLED
I M P R O V E D H E AT
S TA B I L I Z AT I O N
GIT/WIT
IMPROVED WELDING
PERFORMANCE
T R A N S PA R E N T
BKV 35 HTS
901510
35 % glass fibers
BKV 130 GIT
900116
30 % glass fibers
BKV 330 H2.0
901510
30 % glass fibers
T 40/T 40 ZS
000000
non-reinforced
dry as molded
conditioned
dry as molded
conditioned
dry as molded
conditioned
dry as molded
conditioned
11500
6300
9400
5300
9700
5600
3000
110
6.0
3300
90
5.0
190
3
10000
300
4.0
290
75
65
15
85
8
5400
150
6.0
130
85
55
20
160
3.5
8600
250
4.0
80
70
16
10
95
6
4700
140
7.0
110
90
70
25
10
170
3
8300
260
4.5
245
80
65
12
< 10
100
8
4900
150
7.0
120
95
65
20
< 10
3000
150
7.0
105
N
N
< 10
< 10
< 10
3300
130
5.0
110
N
N
< 10
< 10
< 10
75
60
15
10
75
50
23
10
75
75
85
70
< 10
< 10
< 10
< 10
< 10
< 10
180
195
95
213
~190
~210
~80
~200
~200
0.2
0.9
222
~200
~215
~90
> 200
> 200
0.2
1.0
HB (0.75)
23
700 (2.0)
V-2 (0.75)
24
650 (2.0)
4.5
3.9
190
190
1E13
1E13
32
450 – 0.3
225 M – 1.0
4.3
3.8
400
900
1E13
1E15
25
600
15
230
222
~205
~215
~140
> 200
23
5
4
450
265
7E12
1E12
425
275 M
20
120
4.5
4
70
200
1E13
1E15
32
600 – 0.1
400 (325) M1 – 1.5
12
4.5
1600
900
1E10
1E14
32
~105
~115
~125
~125
960 (2.0)
1.5
13
0.23
1.00
280/400
0.03
0.08
0.13
0.64
280/400
0.04
0.14
0.23
0.87
280/500
0.04
0.12
0.53
0.49
280/500
0.13 (100/4)
0.09 (100/4)
6.5
1.9
35
1410
~6.5
~1.9
30
1360
~6.5
~2.3
30
1360
~6.0
~2.0
1180
280
80
280
80
280
80
270
80
4.6
4
480
1100
1E13
1E15
28
R E F E R E N C E D ATA
PA 6 6
NON-REINFORCED
PROPERTIES1
UNITS
COLOR
BRIEF DESCRIPTION
MECHANICAL PROPERTIES (23 °C/50 % R.H.)
Tensile modulus
Yield stress
Yield strain
Nominal strain at break
Stress at break
Strain at break
Flexural modulus
Flexural strength
Flexural strain at flexural strength
Flexural stress at 3.5 % strain
Charpy impact strength 23 °C
Charpy impact strength –30 °C
Charpy notched impact strength 23 °C
Charpy notched impact strength –30 °C
Charpy notched impact strength –40 °C
Izod impact strength 23 °C
Izod impact strength –30 °C
Izod notched impact strength 23 °C
Izod notched impact strength –30 °C
Izod notched impact strength –40 °C
Ball indentation hardness
THERMAL PROPERTIES
Melting temperature
Temperature of deflection under load HDT, method Af
Temperature of deflection under load HDT, method Bf
Temperature of deflection under load HDT, method Cf
Vicat softening temperature, B50
Vicat softening temperature, B120
Coefficient of linear thermal expansion, parallel
Coefficient of linear thermal expansion, across
Resistance to heat (ball pressure test)
Burning behavior UL 94 (UL Yellow Card)
Oxygen index
Glow Wire Flammability Index (GWFI)
Glow Wire Ignition Temperature (GWIT)
ELECTRICAL PROPERTIES (23 °C/50 % R.H.)
Relative permittivity; 100 Hz
Relative permittivity; 1 MHz
Dissipation factor; 100 Hz
Dissipation factor; 1 MHz
Volume resistivity
Surface resistivity
Electric strength
Comparative tracking index CTI
Comparative tracking index CTI M
OTHER PROPERTIES (23 °C)
Melt volume-flow rate (MVR), 260 °C; 5 kg *
Melt volume-flow rate (MVR), 280 °C; 5 kg *
Molding shrinkage, parallel; 150x105x3
Molding shrinkage, across; 150x105x3
Mold 80 °C; melt temperature/back pressure
Post-shrinkage, parallel; 150x105x3; 120 °C; 4 h *
Post-shrinkage, across; 150x105x3; 120 °C; 4 h *
Molding shrinkage, parallel; 60x60x2
Molding shrinkage, across; 60x60x2
Mold 80 °C; melt temperature/back pressure
Post-shrinkage, parallel; 60x60x2; 120 °C; 4 h *
Post-shrinkage, across; 60x60x2; 120 °C; 4 h *
Water absorption (saturation value)
Water absorption (equilibrium value)
Glass fiber/glass bead/filler content
Density
PROCESSING CONDITIONS FOR TEST SPECIMENS
Injection molding – melt temperature
Injection molding – mold temperature
BASIC GRADES
A 30
000000
standard grade, low viscosity
A 30 S
000000
standard grade, low viscosity,
easy release
dry as molded
conditioned
dry as molded
conditioned
MPa
MPa
%
%
MPa
%
MPa
MPa
%
MPa
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
N/mm 2
3200
85
4.5
1300
55
20
> 50
3600
95
4.5
1600
60
18
2800
125
6.0
100
N
N
< 10
< 10
< 10
N
N
< 10
< 10
1200
50
8.0
40
N
N
20
< 10
< 10
N
N
< 10
< 10
3200
135
6.0
110
150
100
< 10
< 10
< 10
90
75
< 10
< 10
1300
60
8.0
37
N
150
12
< 10
< 10
N
95
< 10
< 10
130
70
140
70
°C
°C
°C
°C
°C
°C
10 -4/K
10 -4/K
°C
Classification
%
°C
°C
263
~70
~225
~50
> 230
> 230
0.9
1.0
10 -4
10 -4
Ohm
Ohm
kV/mm
Rating
Rating
cm 3/10 min
cm 3/10 min
%
%
°C/bar
%
%
%
%
°C/bar
%
%
%
%
%
kg/m 3
°C
°C
263
75
214
55
> 230
> 230
0.7
0.8
240
V-2 (0.75)
26
700 (2.0)
V-2 (0.75)
27
750 (2.0)
3.8
3.4
90
200
1E13
1E15
30
600 – 2
550 (400) M – 3
10
4
2000
900
1E10
1E14
35
3.8
3.4
60
180
1E13
1E15
30
575 – 1.3
575 (450) M – 1.9
1.18
1.95
280/500
0.26
0.36
0.75
1.65
280/400
0.1
0.15
~8.5
~2.8
~8.5
~2.8
1140
1136
280
80
280
80
PLEASE NOTE THAT OUR PRODUCT INFORMATION AND DATA ARE SUBJECT TO CONTINUOUS EXAMINATION AND UPDATES.
MAKE SURE YOU REFER TO FURTHER INFORMATION AND THE LATEST UPDATES AT WWW.DURETHAN.COM
See page 1 of the table for test conditions and standards
* deviant figures in parenthesis
N = no failure
1
10
4
1400
700
1E10
1E14
30
21
DURETHAN®
PA 6 6
PA 6 6
NON-REINFORCED
REINFORCED/FILLED
E N H A N C E D I M PA C T R E S I S TA N C E
BASIC GRADES
AC 30
000000
enhanced impact resistance
compared to A 30 S
DP 2325 H3.0
000000
medium impact resistance
AKV 15 H2.0
901510
15 % glass fibers
AKV 30 H2.0
901510
30 % glass fibers
dry as molded
conditioned
dry as molded
conditioned
dry as molded
conditioned
dry as molded
conditioned
2900
80
5.0
14
1200
48
21
> 50
1800
50
21
50
47
80
1660
65
6.8
52
N
N
50
20
700
30
38
50
49
290
660
27
8.7
19
N
N
100
20
6300
3800
10000
6000
6.7
110
6
5700
180
6.0
150
85
60
14
< 10
< 10
N
N
100
20
90
8
3200
110
8.0
90
60
40
< 10
< 10
< 10
45
35
< 10
< 10
4.4
170
3
8100
270
4.0
N
N
80
25
3.6
125
3
5000
200
5.0
175
40
40
< 10
< 10
< 10
30
30
< 10
< 10
190
100
2400
101
6.7
80
N
N
10
< 10
< 10
N
N
< 10
< 10
1000
41
8.5
30
N
200
15
< 10
< 10
N
N
< 10
< 10
130
70
260
~70
160
53
> 200
> 200
0.9
1.1
242
HB (0.75)
21
750 (2.0)
3.6
3.4
90
200
1E13
1E15
30
600
550 (450) M
1.60
2.20
280/400
0.30
0.20
263
60
110
50
> 200
> 200
1.3
1.3
263
~250
~250
~70
230
> 230
0.4
0.9
248
HB (0.75)
24
650 (2.0)
20
650 (2.0)
7
3.8
1400
700
1E11
1E14
30
3.5
3
80
150
1E17
1E15
40
600 – 1.3
7
3.4
1500
750
1E15
1E14
45
4
4
90
170
1E13
1E15
35
425
75
60
< 10
< 10
< 10
55
50
< 10
< 10
220
263
~250
~250
~135
230
> 230
0.3
0.9
253
HB (0.75)
23
600 (2.0)
9
4
2200
700
1E10
1E12
35
4
4
120
190
1E13
1E15
35
475 – 0.3
0.55
1.55
280/400
0.05
0.10
0.35
1.27
290/500
0.04
0.07
~5.5
~2.0
30
1360
290
80
~8
~2.5
2.10
1.90
280/500
0.5
0.1
2.1
1.6
280/600
0.5
0.2
~7
~2.0
1100
1076
~7
~2.4
15
1230
280
80
280
80
290
80
< 10
< 10
120
12
4
2700
800
1E10
1E13
30
R E F E R E N C E D ATA
PA 6 6
REINFORCED/FILLED
PROPERTIES1
UNITS
COLOR
BRIEF DESCRIPTION
MECHANICAL PROPERTIES (23 °C/50 % R.H.)
Tensile modulus
Yield stress
Yield strain
Nominal strain at break
Stress at break
Strain at break
Flexural modulus
Flexural strength
Flexural strain at flexural strength
Flexural stress at 3.5 % strain
Charpy impact strength 23 °C
Charpy impact strength –30 °C
Charpy notched impact strength 23 °C
Charpy notched impact strength –30 °C
Charpy notched impact strength –40 °C
Izod impact strength 23 °C
Izod impact strength –30 °C
Izod notched impact strength 23 °C
Izod notched impact strength –30 °C
Izod notched impact strength –40 °C
Ball indentation hardness
THERMAL PROPERTIES
Melting temperature
Temperature of deflection under load HDT, method Af
Temperature of deflection under load HDT, method Bf
Temperature of deflection under load HDT, method Cf
Vicat softening temperature, B50
Vicat softening temperature, B120
Coefficient of linear thermal expansion, parallel
Coefficient of linear thermal expansion, across
Resistance to heat (ball pressure test)
Burning behavior UL 94 (UL Yellow Card)
Oxygen index
Glow Wire Flammability Index (GWFI)
Glow Wire Ignition Temperature (GWIT)
ELECTRICAL PROPERTIES (23 °C/50 % R.H.)
Relative permittivity; 100 Hz
Relative permittivity; 1 MHz
Dissipation factor; 100 Hz
Dissipation factor; 1 MHz
Volume resistivity
Surface resistivity
Electric strength
Comparative tracking index CTI
Comparative tracking index CTI M
OTHER PROPERTIES (23 °C)
Melt volume-flow rate (MVR), 260 °C; 5 kg *
Melt volume-flow rate (MVR), 280 °C; 5 kg *
Molding shrinkage, parallel; 150x105x3
Molding shrinkage, across; 150x105x3
Mold 80 °C; melt temperature/back pressure
Post-shrinkage, parallel; 150x105x3; 120 °C; 4 h *
Post-shrinkage, across; 150x105x3; 120 °C; 4 h *
Molding shrinkage, parallel; 60x60x2
Molding shrinkage, across; 60x60x2
Mold 80 °C; melt temperature/back pressure
Post-shrinkage, parallel; 60x60x2; 120 °C; 4 h *
Post-shrinkage, across; 60x60x2; 120 °C; 4 h *
Water absorption (saturation value)
Water absorption (equilibrium value)
Glass fiber/glass bead/filler content
Density
PROCESSING CONDITIONS FOR TEST SPECIMENS
Injection molding – melt temperature
Injection molding – mold temperature
BASIC GRADES
AKV 35 H2.0
901510
35 % glass fibers
MPa
MPa
%
%
MPa
%
MPa
MPa
%
MPa
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
N/mm 2
°C
°C
°C
°C
°C
°C
10 -4/K
10 -4/K
°C
Classification
%
°C
°C
10 -4
10 -4
Ohm
Ohm
kV/mm
Rating
Rating
cm 3/10 min
cm 3/10 min
%
%
°C/bar
%
%
%
%
°C/bar
%
%
%
%
%
kg/m 3
°C
°C
AKV 50 H2.0
901510
50 % glass fibers
dry as molded
conditioned
dry as molded
conditioned
10600
6800
15300
10200
200
3.1
9300
300
4.1
280
80
70
12
10
124
6.4
6400
200
6.2
162
90
75
17
10
230
2.6
14000
370
3.0
152
4.3
10000
240
4.8
216
95
100
19
12
100
23
15
85
80
20
12
132
65
55
12
10
15
10
85
85
15
12
250
140
246
263
250
250
185
230
250
0.3
0.9
254
HB (0.75)
25
600 (2.0)
4
4
110
150
1E13
1E15
35
425
400 M
27 (290/5)
0.32
1.40
300/400
0.03
0.04
0.37
0.91
300/600
0.05
0.07
~5
~1.7
35
1410
300
80
261
~250
~250
205
> 230
> 230
0.2
0.8
258
HB (0.75)
27
600 (2.0)
10
4
2100
650
1E10
1E13
30
4.5
4
90
150
1E13
1E13
40
550 – 0.5
325 M – 0.3
0.23
0.90
300/400
0.02
0.04
~4
~1.4
50
1570
300
80
PLEASE NOTE THAT OUR PRODUCT INFORMATION AND DATA ARE SUBJECT TO CONTINUOUS EXAMINATION AND UPDATES.
MAKE SURE YOU REFER TO FURTHER INFORMATION AND THE LATEST UPDATES AT WWW.DURETHAN.COM
See page 1 of the table for test conditions and standards
* deviant figures in parenthesis
N = no failure
1
14
5
3200
850
1E12
1E12
35
23
DURETHAN®
PA 6 6
REINFORCED/FILLED
BASIC GRADES
AM 230 H2.0
901510
30 % mineral
AM 140 H2.0
901510
40 % mineral
KL 1-2403/40 H1.0
000000
40 % mineral
KL 1-2218/40 H2.0
901510
40 % glass fibers + mineral
dry as molded
conditioned
dry as molded
conditioned
dry as molded
conditioned
dry as molded
conditioned
5100
2300
9100
5100
6300
2700
8000
5000
90
5
5000
155
6.0
140
100
70
< 10
< 10
< 10
130
100
< 10
< 10
60
20
2300
75
8.0
60
N
70
< 10
< 10
< 10
N
80
< 10
< 10
75
2
9100
120
2.0
45
9
5200
80
5.0
75
30
25
< 10
< 10
< 10
35
25
< 10
< 10
100
5
6000
165
5.0
150
100
85
< 10
< 10
< 10
100
70
< 10
< 10
65
28
2600
85
9.0
65
N
100
< 10
< 10
< 10
N
70
< 10
< 10
135
3
7000
210
4.0
200
40
35
< 10
< 10
80
10
4500
120
7.0
100
45
35
< 10
10
200
100
230
140
230
165
25
25
< 10
< 10
< 10
20
25
< 10
< 10
263
~100
~230
~55
> 230
> 230
0.6
0.8
245
263
~180
~250
~70
> 230
> 230
0.5
0.3
234
26
650 (2.0)
30
650 (2.0)
4.2
3.8
100
170
1E13
1E14
30
575
425 M
11
4.4
2250
750
1E09
1E12
30
4
4
100
150
1E13
1E15
35
600
425 M
263
~130
~235
~65
263
~230
~250
> 230
0.6
0.7
> 230
650 (2.0)
8
4
1800
550
1E10
1E13
30
4
4
100
150
1E13
1E14
35
600 – 0.9
400 M
10
5
1500
1E09
1E12
35
5
4
80
150
1E13
1E14
40
400
275 M
1.43
1.44
280/500
0.22
0.12
0.50
0.60
280/400
0.10
0.05
31
1.50
1.40
300/400
0.20
0.10
0.70
1.30
280/400
0.10
0.10
~5.5
~2.0
30
1360
~5
~1.4
40
1460
~4.5
~1.7
40
1446
~4.5
~1.5
40
1460
290
80
300
80
300
80
300
80
10
4
1300
700
1E10
1E12
35
R E F E R E N C E D ATA
PA 6 6
REINFORCED/FILLED
PROPERTIES1
UNITS
COLOR
BRIEF DESCRIPTION
MECHANICAL PROPERTIES (23 °C/50 % R.H.)
Tensile modulus
Yield stress
Yield strain
Nominal strain at break
Stress at break
Strain at break
Flexural modulus
Flexural strength
Flexural strain at flexural strength
Flexural stress at 3.5 % strain
Charpy impact strength 23 °C
Charpy impact strength –30 °C
Charpy notched impact strength 23 °C
Charpy notched impact strength –30 °C
Charpy notched impact strength –40 °C
Izod impact strength 23 °C
Izod impact strength –30 °C
Izod notched impact strength 23 °C
Izod notched impact strength –30 °C
Izod notched impact strength –40 °C
Ball indentation hardness
THERMAL PROPERTIES
Melting temperature
Temperature of deflection under load HDT, method Af
Temperature of deflection under load HDT, method Bf
Temperature of deflection under load HDT, method Cf
Vicat softening temperature, B50
Vicat softening temperature, B120
Coefficient of linear thermal expansion, parallel
Coefficient of linear thermal expansion, across
Resistance to heat (ball pressure test)
Burning behavior UL 94 (UL Yellow Card)
Oxygen index
Glow Wire Flammability Index (GWFI)
Glow Wire Ignition Temperature (GWIT)
ELECTRICAL PROPERTIES (23 °C/50 % R.H.)
Relative permittivity; 100 Hz
Relative permittivity; 1 MHz
Dissipation factor; 100 Hz
Dissipation factor; 1 MHz
Volume resistivity
Surface resistivity
Electric strength
Comparative tracking index CTI
Comparative tracking index CTI M
OTHER PROPERTIES (23 °C)
Melt volume-flow rate (MVR), 260 °C; 5 kg *
Melt volume-flow rate (MVR), 280 °C; 5 kg *
Molding shrinkage, parallel; 150x105x3
Molding shrinkage, across; 150x105x3
Mold 80 °C; melt temperature/back pressure
Post-shrinkage, parallel; 150x105x3; 120 °C; 4 h *
Post-shrinkage, across; 150x105x3; 120 °C; 4 h *
Molding shrinkage, parallel; 60x60x2
Molding shrinkage, across; 60x60x2
Mold 80 °C; melt temperature/back pressure
Post-shrinkage, parallel; 60x60x2; 120 °C; 4 h *
Post-shrinkage, across; 60x60x2; 120 °C; 4 h *
Water absorption (saturation value)
Water absorption (equilibrium value)
Glass fiber/glass bead/filler content
Density
PROCESSING CONDITIONS FOR TEST SPECIMENS
Injection molding – melt temperature
Injection molding – mold temperature
MPa
MPa
%
%
MPa
%
MPa
MPa
%
MPa
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
N/mm 2
°C
°C
°C
°C
°C
°C
10 -4/K
10 -4/K
°C
Classification
%
°C
°C
I M P R O V E D F L O WA B I L I T Y
I M P R O V E D S U R FA C E F I N I S H
DP AKV 30 HR EF
901510
30 % glass fibers, easy flow
AKV 30 G H2.0 SR1
900051
30 % glass fibers,
good surface finish
dry as molded
conditioned
dry as molded
conditioned
8800
5300
9600
6600
155
3.2
7800
240
4.0
225
80
100
8
4900
150
6.0
125
80
180
3
8800
270
4.0
70
65
10
70
60
15
120
6
6500
170
6.0
150
75
60
15
< 10
< 10
65
50
< 10
< 10
260
240
> 250
0.3
0.9
°C
°C
260
~220
~250
~90
> 230
> 230
0.2
0.8
26
650 (2.0)
10 -4
10 -4
Ohm
Ohm
kV/mm
Rating
Rating
cm 3/10 min
cm 3/10 min
%
%
°C/bar
%
%
%
%
°C/bar
%
%
%
%
%
kg/m 3
70
60
10
< 10
< 10
55
50
< 10
< 10
4
4
90
170
1E13
1E15
31
375 – 0.3
275 (225) M – 1.6
21 (270/5)
15
0.25
0.94
280/500
0.04
0.08
0.37
0.82
290/600
0.06
0.04
30
1340
~5
~1.9
30
1360
280
80
290
80
PLEASE NOTE THAT OUR PRODUCT INFORMATION AND DATA ARE SUBJECT TO CONTINUOUS EXAMINATION AND UPDATES.
MAKE SURE YOU REFER TO FURTHER INFORMATION AND THE LATEST UPDATES AT WWW.DURETHAN.COM
See page 1 of the table for test conditions and standards
* deviant figures in parenthesis
N = no failure
1
8
4
1800
600
1E10
1E13
28
25
DURETHAN®
PA 6 6
REINFORCED/FILLED
G A S / WAT E R I N J E C T I O N T E C H N O L O G Y
I M P R O V E D H Y D R O LY S I S
R E S I S TA N C E
DP AKV 30 X HR
900116
30 % glass fiber mixture
AKV 30 HR H2.0
901510
30 % glass fibers
AKV 30 GIT H2.0
900116
30 % glass fibers
dry as molded
conditioned
dry as molded
9200
6600
190
4
8500
280
4.5
260
70
60
10
< 10
< 10
70
60
10
10
110
6
6000
180
6.0
157
80
60
15
< 10
< 10
80
60
15
10
conditioned
DP 2-2224/30 H2.0
901510
30 % glass fibers and mineral
dry as molded
conditioned
dry as molded
conditioned
7300
9000
4200
9700
6100
145
3.5
6700
220
4.5
200
120
2.8
8000
190
3.5
190
50
45
< 10
< 10
< 10
60
8
4500
100
6.0
85
55
45
< 10
< 10
< 10
180
4
8600
280
4.5
260
85
75
12
< 10
< 10
120
8
5400
180
6.5
150
90
75
20
< 10
< 10
< 10
< 10
< 10
< 10
10
< 10
205
10
< 10
105
40
35
215
195
260
~220
~250
~90
> 230
> 230
0.2
0.8
263
~235
~250
~85
230
0.3
0.7
263
~245
~250
~125
> 230
> 230
0.3
0.9
25
650 (2.0)
28
650 (2.0)
HB (0.75)
26
650 (2.0)
4
3.8
80
160
1E13
1E15
45
475 (425) – 0.5
350 (300) M – 1.6
8
4.2
2100
700
1E10
1E13
40
4.7
3.9
260
220
1E13
1E13
40
350 – 0.3
225 M – 1.1
12.8
4.4
2800
850
1E09
1E13
29
4
3.6
80
160
1E13
1E15
35
450 – 0.4
350 M – 0.9
0.22
0.93
290/500
0.04
0.08
0.60
0.76
280/400
0.15
0.07
10
0.35
1.27
290/500
0.04
0.07
~5.0
~2.0
30
1368
~5.5
~2.1
30
1360
~5.5
~2.0
30
1360
290
80
290
80
290
80
12
4.5
3000
900
1E09
1E13
30
R E F E R E N C E D ATA
PA 6 A N D C O - P O LYA M I D E S , F L A M E R E TA R D A N T
NON-REINFORCED
PROPERTIES1
UNITS
COLOR
BRIEF DESCRIPTION
MECHANICAL PROPERTIES (23 °C/50 % R.H.)
Tensile modulus
Yield stress
Yield strain
Nominal strain at break
Stress at break
Strain at break
Flexural modulus
Flexural strength
Flexural strain at flexural strength
Flexural stress at 3.5 % strain
Charpy impact strength 23 °C
Charpy impact strength –30 °C
Charpy notched impact strength 23 °C
Charpy notched impact strength –30 °C
Charpy notched impact strength –40 °C
Izod impact strength 23 °C
Izod impact strength –30 °C
Izod notched impact strength 23 °C
Izod notched impact strength –30 °C
Izod notched impact strength –40 °C
Ball indentation hardness
THERMAL PROPERTIES
Melting temperature
Temperature of deflection under load HDT, method Af
Temperature of deflection under load HDT, method Bf
Temperature of deflection under load HDT, method Cf
Vicat softening temperature, B50
Vicat softening temperature, B120
Coefficient of linear thermal expansion, parallel
Coefficient of linear thermal expansion, across
Resistance to heat (ball pressure test)
Burning behavior UL 94 (UL Yellow Card)
Oxygen index
Glow Wire Flammability Index (GWFI)
Glow Wire Ignition Temperature (GWIT)
ELECTRICAL PROPERTIES (23 °C/50 % R.H.)
Relative permittivity; 100 Hz
Relative permittivity; 1 MHz
Dissipation factor; 100 Hz
Dissipation factor; 1 MHz
Volume resistivity
Surface resistivity
Electric strength
Comparative tracking index CTI
Comparative tracking index CTI M
OTHER PROPERTIES (23 °C)
Melt volume-flow rate (MVR), 260 °C; 5 kg *
Melt volume-flow rate (MVR), 280 °C; 5 kg *
Molding shrinkage, parallel; 150x105x3
Molding shrinkage, across; 150x105x3
Mold 80 °C; melt temperature/back pressure
Post-shrinkage, parallel; 150x105x3; 120 °C; 4 h *
Post-shrinkage, across; 150x105x3; 120 °C; 4 h *
Molding shrinkage, parallel; 60x60x2
Molding shrinkage, across; 60x60x2
Mold 80 °C; melt temperature/back pressure
Post-shrinkage, parallel; 60x60x2; 120 °C; 4 h *
Post-shrinkage, across; 60x60x2; 120 °C; 4 h *
Water absorption (saturation value)
Water absorption (equilibrium value)
Glass fiber/glass bead/filler content
Density
PROCESSING CONDITIONS FOR TEST SPECIMENS
Injection molding – melt temperature
Injection molding – mold temperature
MPa
MPa
%
%
MPa
%
MPa
MPa
%
MPa
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
N/mm 2
°C
°C
°C
°C
°C
°C
10 -4/K
10 -4/K
°C
Classification
%
°C
°C
10 -4
10 -4
Ohm
Ohm
kV/mm
Rating
Rating
cm 3/10 min
cm 3/10 min
%
%
°C/bar
%
%
%
%
°C/bar
%
%
%
%
%
kg/m 3
°C
°C
REINFORCED
HALOGEN-FREE
HALOGEN-FREE
KU 2-2183
000000
UL94V-2 (0.75 mm)
DP 1801/30 H3.0
000000
30 % glass fibers,
UL94V-2 (0.75 mm)
dry as molded
conditioned
dry as molded
conditioned
3400
90
4.0
9.6
60
15.5
3000
120
5.9
100
N
1100
45
22.5
265
65
293
900
35
8.1
26
N
7600
96
2.4
3400
50
9.7
93
4
7300
150
3.9
170
50
47
28
3200
75
6.9
75
84
< 10
< 10
< 10
35
80
N
N
< 10
< 10
< 10
< 10
135
194
222
66
166
222
~175
~210
0.9
0.8
212
0.82
0.35
V-2 (0.75)
28
960 (3.0)
750 (3.0)
V-2 (0.75)
30
960 (1.6)
775 (0.75)
600 – 1.6
1E13
1E13
38
550
28
27.4
0.90
0.90
260/500
0.20
0.20
0.90
0.90
260/600
0.30
0.30
~10.0
~3.0
0.35
0.95
260/500
0.09
0.24
0.55
0.63
260/600
0.14
0.15
5.9
1140
30
1400
260
80
260
80
PLEASE NOTE THAT OUR PRODUCT INFORMATION AND DATA ARE SUBJECT TO CONTINUOUS EXAMINATION AND UPDATES.
MAKE SURE YOU REFER TO FURTHER INFORMATION AND THE LATEST UPDATES AT WWW.DURETHAN.COM
See page 1 of the table for test conditions and standards
* deviant figures in parenthesis
N = no failure
1
27
DURETHAN®
PA 6 A N D C O - P O LYA M I D E S , F L A M E R E TA R D A N T
PA 6 6 , F L A M E R E TA R D A N T
REINFORCED
NON-REINFORCED
HALOGEN-FREE
HALOGEN
HALOGEN-FREE
DP 1852/30
000000
30 % glass fibers,
UL94V-0 (1.5 mm)
DP 2801
000000
UL94V-2 (0.75 mm)
DP 1803/10 H3.0
000000
50 % glass fibers and mineral,
UL94V-2 (0.75 mm)
KU 2-2184/15 H3.0
000000
65 % glass fibers and mineral,
UL94V-0 (1.2 mm)
dry as molded
conditioned
dry as molded
conditioned
dry as molded
conditioned
dry as molded
conditioned
8500
3900
11500
5800
11000
7000
85
3.0
107
2.3
8000
180
3.1
127
2
12500
175
1.5
75
3
6700
110
2.0
140
2.5
10000
210
2.7
40
60
5.5
3600
96
5.3
85
45
55
45
35
25
15
< 10
< 10
< 10
25
1400
55
20
155
55
230
1300
49
8.0
36
N
185
15
< 10
35
30
25
< 10
< 10
< 10
25
80
3.4
6000
130
3.7
135
55
3500
94
4.2
10
80
11
3200
127
6.2
105
110
120
< 10
< 10
< 10
< 10
< 10
< 10
320
< 10
< 10
190
80
110
< 10
< 10
N
130
10
< 10
226
151
70
222
203
218
213
265
~75
~210
~60
230
223
168
205
0.4
0.6
V-2 (0.75)
960 (3.0)
775 (3.0)
600
9
0.50
0.50
290/600
0.13
0.11
50
290
80
220
~170
~200
~75
~200
~200
0.3
0.6
0.75
0.23
V-0 (1.2)
68
960 (3.0)
775 (3.0)
4.9
4.6
70
120
1E13
1E15
30
600 – 0.1
600 M – 0.4
50
45
11
9
V-0 (1.5)
960 (2.0)
800 (3.0)
55
14
> 230
0.7
0.9
249
V-2 (0.75)
30
960 (1.0)
775 (0.75)
7.1
4.7
1100
350
1E11
1E13
28
400
600
400 M – 1.8
5
33
0.32
0.70
280/400
0.05
0.08
0.31
0.43
280/600
0.11
0.12
~3.5
~1.2
65
1700
0.19
0.69
280/500
0.04
0.16
0.23
0.55
280/600
0.07 (120/1)
0.14 (120/1)
1.16
1.51
280/500
0.36
0.09
1.14
1.22
280/600
0.42
0.11
1.3
30
1669
1143
290
80
280
80
280
80
R E F E R E N C E D ATA
PA 6 6 , F L A M E R E TA R D A N T
REINFORCED
PROPERTIES1
UNITS
COLOR
BRIEF DESCRIPTION
MECHANICAL PROPERTIES (23 °C/50 % R.H.)
Tensile modulus
Yield stress
Yield strain
Nominal strain at break
Stress at break
Strain at break
Flexural modulus
Flexural strength
Flexural strain at flexural strength
Flexural stress at 3.5 % strain
Charpy impact strength 23 °C
Charpy impact strength –30 °C
Charpy notched impact strength 23 °C
Charpy notched impact strength –30 °C
Charpy notched impact strength –40 °C
Izod impact strength 23 °C
Izod impact strength –30 °C
Izod notched impact strength 23 °C
Izod notched impact strength –30 °C
Izod notched impact strength –40 °C
Ball indentation hardness
THERMAL PROPERTIES
Melting temperature
Temperature of deflection under load HDT, method Af
Temperature of deflection under load HDT, method Bf
Temperature of deflection under load HDT, method Cf
Vicat softening temperature, B50
Vicat softening temperature, B120
Coefficient of linear thermal expansion, parallel
Coefficient of linear thermal expansion, across
Resistance to heat (ball pressure test)
Burning behavior UL 94 (UL Yellow Card)
Oxygen index
Glow Wire Flammability Index (GWFI)
Glow Wire Ignition Temperature (GWIT)
ELECTRICAL PROPERTIES (23 °C/50 % R.H.)
Relative permittivity; 100 Hz
Relative permittivity; 1 MHz
Dissipation factor; 100 Hz
Dissipation factor; 1 MHz
Volume resistivity
Surface resistivity
Electric strength
Comparative tracking index CTI
Comparative tracking index CTI M
OTHER PROPERTIES (23 °C)
Melt volume-flow rate (MVR), 260 °C; 5 kg *
Melt volume-flow rate (MVR), 280 °C; 5 kg *
Molding shrinkage, parallel; 150x105x3
Molding shrinkage, across; 150x105x3
Mold 80 °C; melt temperature/back pressure
Post-shrinkage, parallel; 150x105x3; 120 °C; 4 h *
Post-shrinkage, across; 150x105x3; 120 °C; 4 h *
Molding shrinkage, parallel; 60x60x2
Molding shrinkage, across; 60x60x2
Mold 80 °C; melt temperature/back pressure
Post-shrinkage, parallel; 60x60x2; 120 °C; 4 h *
Post-shrinkage, across; 60x60x2; 120 °C; 4 h *
Water absorption (saturation value)
Water absorption (equilibrium value)
Glass fiber/glass bead/filler content
Density
PROCESSING CONDITIONS FOR TEST SPECIMENS
Injection molding – melt temperature
Injection molding – mold temperature
HALOGEN-FREE
HALOGEN
DP 2802/30
000000
30 % glass fibers,
UL94V-2 (0.75 mm)
DP 2851/30 H3.0
000000
30 % glass fibers,
UL94V-0 (0.75 mm)
dry as molded
conditioned
dry as molded
conditioned
MPa
MPa
%
%
MPa
%
MPa
MPa
%
MPa
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
kJ/m 2
N/mm 2
6000
3900
58
7.8
12400
8600
85
3.5
5500
150
5.0
140
35
56
13.2
3700
90
6.5
80
60
160
2
10800
235
2.6
105
3
7300
165
3.4
50
40
50
40
< 10
< 10
30
50
45
40
< 10
< 10
< 10
< 10
200
250
°C
°C
°C
°C
°C
°C
10 -4/K
10 -4/K
°C
Classification
%
°C
°C
263
~155
~250
260
221
245
> 230
0.71
0.39
230
0.3
0.8
V-2 (0.75)
960 (0.75)
775 (0.75)
V-0 (0.75)
39.8
960 (1.0)
775 (0.75)
33
600
400
10 -4
10 -4
Ohm
Ohm
kV/mm
Rating
Rating
cm 3/10 min
cm 3/10 min
%
%
°C/bar
%
%
%
%
°C/bar
%
%
%
%
%
kg/m 3
°C
°C
1.20
1.50
280/500
0.10
0.20
0.64
0.77
280/600
0.16
0.11
0.23
0.81
280/500
0.04
0.14
30
1400
30
1667
280
80
280
80
PLEASE NOTE THAT OUR PRODUCT INFORMATION AND DATA ARE SUBJECT TO CONTINUOUS EXAMINATION AND UPDATES.
MAKE SURE YOU REFER TO FURTHER INFORMATION AND THE LATEST UPDATES AT WWW.DURETHAN.COM
See page 1 of the table for test conditions and standards
* deviant figures in parenthesis
N = no failure
1
129
CHEMICAL RESISTANCE TESTS
31
DURETHAN ®
COLOR NOMENCLATURE
Durethan® is available in a large number of colors. We use a six-digit number
to precisely characterize the color, which follows on after the grade designation. The first two digits specify the color class, while the remaining digits
are used for administrative purposes in the color laboratory. The material's
natural color generally has the designation "000000".
COLOR CLASS
FIRST TWO DIGITS
N AT U R A L
00
WHITE
01
YELLOW
10
ORANGE
20
RED
30
PURPLE
40
BLUE
50
GREEN
60
GREY
70
BROWN
80
BLACK
90
Example: Durethan® BKV 30 000000: natural color
Durethan® BKV 30 H2.0 901510: black
This information and our technical advice - whether verbal, in writing or by way of
trials - are given in good faith but without warranty, and this also applies where
proprietary rights of third parties are involved. Our advice does not release you from
the obligation to verify the information currently provided - especially that contained
in our safety data and technical information sheets - and to test our products as to their
suitability for the intended processes and uses. The application, use and processing
of our products and the products manufactured by you on the basis of our technical
advice are beyond our control and, therefore, entirely your own responsibility. Our
products are sold and our advisory service is given in accordance with the current
version of our General Conditions of Sale and Delivery.
Trial Products - Further information, including amended or supplementary data on
hazards associated with its use, may be compiled in the future. For this reason no
assurances are given as to type conformity, processability, long term performance
characteristics or other production or application parameters. Therefore, the
purchaser / user uses the product entirely at his own risk without having been given
any warranty or guarantee and agrees that the supplier shall not be liable for any damage, of whatever nature, arising out of such use. Commercialization and continued
supply of this material are not assured. Its supply may be discontinued at any time.
Order No. LXS-SCP-012EN, Edition: 2007-05
® = registerd trademark of LANXESS Deutschland GmbH
© LANXESS Deutschland GmbH 2007 all rights reserved | alle Rechte vorbehalten
FOR FURTHER INFORMATION VISIT:
WWW.DURETHAN.COM
LANXESS DEUTSCHLAND GMBH | BUSINESS UNIT SEMI-CRYSTALLINE
PRODUCTS | D-51369 LEVERKUSEN | WWW.LANXESS.COM
