Stanyl® 46HF4540
40% Glass Reinforced, Heat Stabilized, High Flow, for E&E applications
General 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.
Special features
- Good or high flow
- Heat stabilized
General Document
Regulatory Affairs
- Absence Declaration BNST2023-11-16
- Absence Declaration Biocidal Products2023-11-16
- Absence Declaration DMF (2009/251/EC: Dimethylfumarate)2023-11-16
- Absence Declaration ELV (2000/53/EC: Heavy metals)2024-02-15
- Absence Declaration EPA 20 High Priority Substances 20192023-11-16
- Absence Declaration Food Allergens2023-11-16
- Absence Declaration NMP (N-Methylpyrrolidone)2023-11-16
- Absence Declaration Nano Materials2023-11-16
- Absence Declaration Ozone Depleting Chemicals2024-04-25
- Absence Declaration PAH (Polycyclic Aromatic Hydrocarbons)2023-11-16
- Absence Declaration PBT chemicals under TSCA section 6(h)2023-11-16
- Absence Declaration PFAS2024-03-05
- Absence Declaration POPs (Persistent Organic Pollutants)2023-10-27
- Absence Declaration Phthalates (2005/84/EC: DEHP, DBP, BBP,DINP,DIDP, DNOP)2023-11-16
- Absence Declaration Red Phosphorus2023-11-16
- Absence Declaration opBDE (2003/11/EC: Octa- / Pentabromodiphenylether)2023-11-16
- Conflict minerals declaration (EICC, GeSI)2024-03-21
- Packaging, Packaging Waste and CONEG declaration (94/62/EC)2021-12-06
- REACH Registration Statement2024-03-27
- REACH STATEMENT KOREA2023-11-16
- REACH STATEMENT TURKYE2023-11-16
- RoHS Statement (2011/65/EC: Heavy metals)2024-02-01
- SVHC, REACH Annex XIV and –XVII Statement2024-03-27
- Turkish customs legislation info letter (EK-8 form)2023-11-16
Processing technology
Injection Molding
Injection Molding
Applications
Rheological properties
Molding shrinkage [parallel]
0.5
%
Sim. to ISO 294-4
Molding shrinkage [normal]
1.1
%
Sim. to ISO 294-4
Spiral flow length 0.5mm 1200 bar
90
mm
-
Spiral flow length 0.5 mm 1600 bar
115
mm
-
Spiral flow length 0.5mm 2000 bar
130
mm
-
Mechanical properties
Tensile modulus
13500
MPa
ISO 527-1/-2
Tensile modulus (120°C)
7000
MPa
ISO 527-1/-2
Tensile modulus (160°C)
6000
MPa
ISO 527-1/-2
Stress at break
210
MPa
ISO 527-1/-2
Stress at break (120°C)
130
MPa
ISO 527-1/-2
Stress at break (160°C)
115
MPa
ISO 527-1/-2
Strain at break
2.2
%
ISO 527-1/-2
Strain at break (120°C)
4
%
ISO 527-1/-2
Strain at break (160°C)
4
%
ISO 527-1/-2
Flexural modulus
12000
MPa
ISO 178
Flexural strength
320
MPa
ISO 178
Charpy impact strength (+23°C)
70
kJ/m²
ISO 179/1eU
Charpy impact strength (-30°C)
60
kJ/m²
ISO 179/1eU
Charpy notched impact strength (+23°C)
12
kJ/m²
ISO 179/1eA
Charpy notched impact strength (-30°C)
12
kJ/m²
ISO 179/1eA
Thermal properties
Melting temperature (10°C/min)
295
°C
ISO 11357-1/-3
Glass transition temperature (10°C/min)
75
°C
ISO 11357-1/-2
Temp. of deflection under load (1.80 MPa)
290
°C
ISO 75-1/-2
Temp. of deflection under load (0.45 MPa)
290
°C
ISO 75-1/-2
Vicat softening temperature (50°C/h 50N)
290
°C
ISO 306
Coeff. of linear therm. expansion (parallel)
0.15
E-4/°C
ISO 11359-1/-2
Coeff. of linear therm. expansion (normal)
1.4
E-4/°C
ISO 11359-1/-2
Coeff. of linear therm. expansion (parallel)
0.4
E-4/°C
ASTM D696
Coeff. of linear therm. expansion (normal)
0.6
E-4/°C
ASTM D696
Burning Behav. at 1.5 mm nom. thickn.
HB
class
IEC 60695-11-10
Thickness tested
1.5
mm
IEC 60695-11-10
UL recognition
Yes
-
-
Burning Behav. at 3.0 mm nom. thickn.
HB
class
IEC 60695-11-10
Thickness tested
3
mm
IEC 60695-11-10
UL recognition
Yes
-
-
Relative Temperature Index - electrical
65
°C
UL746B
RTI electrical (Thickness (1) tested)
0.75
mm
UL746B
Relative Temperature Index - electrical
65
°C
UL746B
RTI electrical (Thickness (2) tested)
3
mm
UL746B
Relative Temperature Index - with impact
65
°C
UL746B
RTI with impact (Thickness (1) tested)
0.75
mm
UL746B
Relative Temperature Index - with impact
65
°C
UL746B
RTI with impact (Thickness (2) tested)
3
mm
UL746B
Relative Temperature Index - without impact
65
°C
UL746B
RTI without impact (Thickness (1) tested)
0.75
mm
UL746B
Relative Temperature Index - without impact
65
°C
UL746B
RTI without impact (Thickness (2) tested)
3
mm
UL746B
Electrical properties
Relative permittivity (1GHz)
3.9
-
IEC 61189-2-721
Relative permittivity (10GHz)
3.87
-
IEC 61189-2-721
Dissipation factor (1GHz)
120
E-4
IEC 61189-2-721
Dissipation factor (10GHz)
115
E-4
IEC 61189-2-721
Volume resistivity
1E13
Ohm*m
IEC 62631-3-1
Surface resistivity
Ohm
IEC 62631-3-2
Electric strength
30
kV/mm
IEC 60243-1
Comparative tracking index
475
V
IEC 60112
Other properties
Water absorption
8.1
%
Sim. to ISO 62
Humidity absorption
2.2
%
Sim. to ISO 62
Density
1510
kg/m³
ISO 1183
Material specific properties
Viscosity number
80
cm³/g
ISO 307, 1157, 1628
Diagrams
Applications
E-Motors for Power Tools
Industry
Consumer goods
Material
- •} Current e-motor applications are packed tight with little to no room to gain additional power or improve efficiency. With Stanyl® PA46, you can mold thinner walls (i.e., lamina stack insulation) down to .25 mm or less, allowing more room for copper windings or thicker gauge to maximize torque potential and reduce resistance.
- •} At high loads, e-motors generate substantial heat. Temperatures can easily exceed 150°C (302°F), resulting in mechanical failures. Stanyl® PA46 offers excellent high temperature mechanical performance with a heat deflection temperature of 290°C (554°F) and a continuous use temperature of 170°C (338°F).
- •} The superior flow and high crystallinity of Stanyl® PA46 results in strong and flexible weld lines, improving manufacturing yield by eliminating process scrap in rotors and stators.
