Stanyl® TW241F3

Mit 15% Glasfasern verstärkt, wärmestabilisiert, geschmiert

Allgemeine Information

Stanyl® is our high-performance polyamide 46 used for applications in automotive, E&E, gears and outdoor power equipments.
Stanyl® is a high performance polyamide that provides unmatched performance and value for demanding applications in which superior heat resistance, design stiffness, wear & friction and process flow qualities are required.
Because Stanyl retains its mechanical properties at high temperatures up to 220°C, this makes it ideal for extremely high-performance applications, where it outperforms PPA, PA6T, PA9T, and often PPS and LCP.
Besondere Merkmale
Regulatorische Angelegenheiten
Verarbeitung
Injection Molding
Automobil OEM
CALLOUT, FIAT CHRYSLER, GM
OEM Specification
ASTM D6779 PA062G15Z1
FCA-MS50017(MS-DB-41)-CPN4596-(2017-02)
GMW15702-024241-PA46-GF15

Mechanische Kennwerte

Zug-Modul
6100
MPa
Zug-Modul (120°C)
3000
MPa
Zug-Modul (160°C)
2650
MPa
Zug-Modul (180°C)
2500
MPa
Zug-Modul (200°C)
2350
MPa
Bruchspannung
140
MPa
Bruchspannung (120°C)
85
MPa
Bruchspannung (160°C)
75
MPa
Bruchspannung (180°C)
70
MPa
Bruchspannung (200°C)
65
MPa
Bruchdehnung
4
%
Bruchdehnung (120°C)
11.5
%
Bruchdehnung (160°C)
12
%
Bruchdehnung (180°C)
12
%
Bruchdehnung (200°C)
12
%
Biegemodul
5800
MPa
Biegefestigkeit
235
MPa
Charpy-Schlagzähigkeit (+23°C)
50
kJ/m²
Charpy-Schlagzähigkeit (-30°C)
45
kJ/m²
Charpy-Kerbschlagzähigkeit (+23°C)
6
kJ/m²
Charpy-Kerbschlagzähigkeit (-30°C)
6
kJ/m²
Izod-Kerbschlagzähigkeit (23°C)
6
kJ/m²
Izod-Kerbschlagzähigkeit (-40°C)
6
kJ/m²

Thermische Kennwerte

Schmelztemperatur (10°C/min)
295
°C
Glasübergangstemperatur (10°C/min)
75
°C
Formbeständigkeitstemperatur (1.8 MPa)
275
°C
Formbeständigkeitstemperatur (0.45 MPa)
290
°C
Vicat-Erweichungstemperatur (50°C/h 50N)
290
°C
Längenausdehnungskoeffizient (parallel)
0.5
E-4/°C
Längenausdehnungskoeffizient (senkrecht)
0.8
E-4/°C
Brennbarkeit bei nominal 1.5mm
HB
class
geprüfte Probekörperdicke
1.5
mm
Rel. Temperaturindex -elektrisch
65
°C
RTI elektrisch - geprüfte Probekörperdicke (1)
0.75
mm
Rel. Temperaturindex -elektrisch
65
°C
RTI elektrisch - geprüfte Probekörperdicke (2)
3
mm
Rel. Temperaturindex -mech. mit Schlagbelastung
65
°C
RTI mechanisch Schlag - geprüfte Probekörperdicke (1)
0.75
mm
Rel. Temperaturindex -mech. mit Schlagbelastung
65
°C
RTI mechanisch Schlag - geprüfte Probekörperdicke (2)
3
mm
Rel. Temperaturindex -mech. ohne Schlagbelastung
65
°C
RTI mechanisch - geprüfte Probekörperdicke (1)
0.75
mm
Rel. Temperaturindex -mech. ohne Schlagbelastung
65
°C
RTI mechanisch - geprüfte Probekörperdicke (2)
3
mm

Sonstige Kennwerte

Wasseraufnahme
11.5
%
Wasseraufnahme in Wasser bei 23°C nach 24h
3.2
%
Feuchtigkeitsaufnahme
3.15
%
Dichte
1290
kg/m³

Formmasse-Spezifische Kennwerte

Viskositätszahl
150
cm³/g

RDS

Food Contact-EU (EC 10/2011)
-
Food Contact-USA
-
Food Contact USA Akulon® PA6
-
-
Food Contact USA Akulon® PA66
-
-
Food Contact EU Akulon®
-
Food Contact EU Arnite® A (PET)
-
-
Food Contact USA Arnite® A (PET)
-
Food Contact EU Arnite® T (PBT)
-
Food Contact USA Arnite® T (PBT)
-
Food Contact EU Arnitel®
-
Food Contact EU Arnitel® EXXXX-08 types
-
°C
Food Contact USA Xytron(tm) PPS Natural
-
°C
Food Contact USA Xytron(tm) PPS Black
-
°C
Food Contact USA ForTii®
-
°C
Conflict minerals declaration (EICC, GeSI)
+
REACH and SVHC statement
+
RoHS (2011/65/EC: Schwermetalle & PBB, PBDE, decaBDE)
+
CALIFORNIA PROPOSITION 65 (NDS)
-
°C
CALIFORNIA PROPOSITION 65 (Sb2O3)
-
°C
ELV (2000/53/EC: Schwermetalle Cadmium, Blei, Chrom VI, Quecksilber)
+
ELV China (Requirements for prohibited Substances on Automobiles)
+
Nano Declaration
+
-
WEEE brominated flame retardants
-
WEEE no brominated flame retardants
-
Packaging, Packaging Waste and CONEG declaration (94/62/EC)
+
°C
opBDE (2003/11/EC: Octa- / Pentabromdiphenylether)
+
Phthalates (2005/84/EC: DEHP, DBP, BBP,DINP,DIDP, DNOP)
+
PAK (Polycyclische Aromatische Kohlenwasserstoffe)
+
PFOS/PFOA (2006/122/EC: Perfluoroctan-sulfonat, -saeure)
+
-
DMF (2009/251/EC: Dimethylfumarate)
+
NMP (N-Methylpyrrolidone)
+
Absence Declaration Red Phosphorus
+
BNST Declaration
+
Absence Declaration Persistent Organic Pollutants (POPs)
+
-
Turkish customs legislation info letter (EK-8 form)
+
Absence Declaration Primary Aromatic Amines (PAA)
-
Absence Declaration Food Allergens
+
°C
Absence Declaration Ozone Depleting Chemicals
+
°C
Biocidal Product Declaration
+
°C
Carbon Footprint Declaration
-
Drinking Water Approval Statement Black
-
Drinking Water Approval Statement Natural
-

Diagramme

Anwendungsbeispiele

EPS gears

Branche
Automotive
  • Stanyl® PA46 allows for lightweight and cost effective solutions as compared to machined cast metal and also offers advantages in NVH
  • Stanyl® PA46 allows for reliable solutions due to its superiority in fatigue performance as compared to PA66
  • Stanyl® PA46 allows for cost effective solutions due to its faster cycle times in comparison with PA66 and PPA

EPS Steering components: Gears, Flex couplers and Sensors

Branche
Automotive
  • Stanyl® PA46 allows for light weight solutions (17% less weight than a metal alternative) and for sustainable solutions (NVH significant lower compared to metal)
  • Stanyl PA46 allows for reliable solutions due to its low friction and high abrasion resistance performance

Oil Pump Gears (automotive)

Branche
Automotive
  • Stanyl® PA46 allows for light weight solutions versus metal and it enables compact designs and reduced noise (as much as 20% reduction versus other plastics)
  • Stanyl® PA46 allows for reliable solutions due to its high abrasion resistance (PA46 yields reduced wear (backlash) after 500 hours, and Stanyl® TW241B3 showed 5 microns wear versus 20 microns for PA66) and it yields high safety factors under jamming condition

Power Door Actuators

Branche
Automotive
  • Stanyl® PA46 allows for lightweight and cost effective solutions as compared to machined cast metal and also offers advantages in NVH
  • Stanyl® PA46 allows for reliable solutions due to its superiority in temperature and abrasion performance as compared to PA66 and POM
  • Stanyl® PA46 allows for cost effective solutions due to its faster cycle times in comparison with PA66 and PPA

Power Lift Gate Actuators

Branche
Automotive
  • Stanyl® PA46 allows for lightweight and cost effective solutions as compared to machined cast metal and also offers advantages in NVH
  • Stanyl® PA46 allows for reliable solutions due to its superiority in temperature and abrasion performance as compared to PA66 and POM
  • Stanyl® PA46 allows for cost effective solutions due to its faster cycle times in comparison with PA66 and PPA

Power Seats

Branche
Automotive
  • Stanyl® PA46 allows for lightweight and cost effective solutions as compared to machined cast metal and also offers advantages in NVH
  • Stanyl® PA46 allows for reliable solutions due to its superiority in temperature and abrasion performance as compared to PA66 and POM
  • Stanyl® PA46 allows for cost effective solutions due to its faster cycle times in comparison with PA66 and PPA

Power Window Actuators

Branche
Automotive
  • Stanyl® PA46 allows for lightweight and cost effective solutions as compared to machined cast metal and also offers advantages in NVH
  • Stanyl® PA46 allows for reliable solutions due to its superiority in temperature and abrasion performance as compared to PA66 and POM
  • Stanyl® PA46 allows for cost effective solutions due to its faster cycle times in comparison with PA66 and PPA

Windshield Wiper Actuators

Branche
Automotive
  • Stanyl® PA46 allows for lightweight and cost effective solutions as compared to machined cast metal and also offers advantages in NVH
  • Stanyl® PA46 allows for reliable solutions due to its superiority in temperature and abrasion performance as compared to PA66 and POM
  • Stanyl® PA46 allows for cost effective solutions due to its faster cycle times in comparison with PA66 and PPA