Stanyl® TW200F6

30% Glass Reinforced, Heat Stabilized

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.
Product
Stanyl® TW200F6 is a high heat polyamide that offers excellent creep resistance, strength, stiffness and fatigue resistance, not only at ambient temperatures but especially at high temperatures, while at the same time providing cycle-time advantages and excellent flow.
Special features
Regulatory Affairs

Rheological properties

Molding shrinkage [parallel]
0.5
%
Molding shrinkage [normal]
1.3
%
Spiral flow length 1.0 mm 800 bar
100
mm
Spiral flow length 1.0 mm 900 bar
110
mm
Spiral flow length 1.0 mm 1000 bar
120
mm
Spiral flow length 0.5mm 1200 bar
33
mm
Spiral flow length 0.5 mm 1600 bar
44
mm
Spiral flow length 0.5mm 2000 bar
76
mm

Mechanical properties

Tensile modulus
10000
MPa
Tensile modulus (-40°C)
10200
MPa
Tensile modulus (40°C)
9500
MPa
Tensile modulus (100°C)
5500
MPa
Tensile modulus (120°C)
5300
MPa
Tensile modulus (140°C)
5100
MPa
Tensile modulus (150°C)
5000
MPa
Tensile modulus (160°C)
4750
MPa
Tensile modulus (180°C)
4550
MPa
Tensile modulus (200°C)
4300
MPa
Tensile modulus (210°C)
4200
MPa
Stress at break
210
MPa
Stress at break (-40°C)
250
MPa
Stress at break (100°C)
120
MPa
Stress at break (120°C)
115
MPa
Stress at break (140°C)
110
MPa
Stress at break (150°C)
105
MPa
Stress at break (160°C)
100
MPa
Stress at break (180°C)
95
MPa
Stress at break (200°C)
90
MPa
Stress at break (210°C)
85
MPa
Strain at break
3.7
%
Strain at break (-40°C)
3.5
%
Strain at break (120°C)
7.5
%
Strain at break (140°C)
8
%
Strain at break (150°C)
8
%
Strain at break (160°C)
8
%
Strain at break (180°C)
8
%
Strain at break (200°C)
8
%
Strain at break (210°C)
8
%
Flexural modulus
9500
MPa
Flexural modulus (120°C)
5100
MPa
Flexural modulus (160°C)
4900
MPa
Flexural modulus (180°C)
4500
MPa
Flexural modulus (200°C)
4400
MPa
Flexural modulus (210°C)
4400
MPa
Flexural strength
300
MPa
Flexural strength (120°C)
160
MPa
Flexural strength (160°C)
130
MPa
Flexural strength (180°C)
110
MPa
Flexural strength (200°C)
105
MPa
Flexural strength (210°C)
105
MPa
Charpy impact strength (+23°C)
80
kJ/m²
Charpy impact strength (-30°C)
65
kJ/m²
Charpy notched impact strength (+23°C)
12
kJ/m²
Charpy notched impact strength (-30°C)
11
kJ/m²
Izod notched impact strength (+23°C)
12
kJ/m²
Izod notched impact strength (-40°C)
11
kJ/m²
Weldline strength at thickness 1
100
MPa
Weldline strain at thickness 1
1.5
%
Thickness tested (1)
4
mm

Thermal properties

Melting temperature (10°C/min)
295
°C
Glass transition temperature (10°C/min)
75
°C
Temp. of deflection under load (1.80 MPa)
290
°C
Temp. of deflection under load (0.45 MPa)
290
°C
Vicat softening temperature (50°C/h 50N)
290
°C
Coeff. of linear therm. expansion (parallel)
0.25
E-4/°C
Coeff. of linear therm. expansion (normal)
0.6
E-4/°C
Burning Behav. at 1.5 mm nom. thickn.
HB
class
Thickness tested
1.5
mm
UL recognition
Yes
-
Burning Behav. at 3.0 mm nom. thickn.
HB
class
Thickness tested
3
mm
UL recognition
Yes
-
Oxygen index
22
%
Ball pressure temperature
285
°C
Glow Wire Flammability Index GWFI
960
°C
GWFI (Thickness (1) tested)
3
mm
Glow Wire Flammability Index GWFI
650
°C
GWFI (Thickness (2) tested)
0.75
mm
Glow Wire Ignition Temperature GWIT
725
°C
GWIT (Thickness (1) tested)
3
mm
Glow Wire Ignition Temperature GWIT
700
°C
GWIT (Thickness (2) tested)
0.75
mm
Relative Temperature Index - electrical
140
°C
RTI electrical (Thickness (1) tested)
0.9
mm
Relative Temperature Index - electrical
140
°C
RTI electrical (Thickness (2) tested)
3
mm
Relative Temperature Index - with impact
120
°C
RTI with impact (Thickness (1) tested)
0.9
mm
Relative Temperature Index - with impact
140
°C
RTI with impact (Thickness (2) tested)
3
mm
Relative Temperature Index - without impact
120
°C
RTI without impact (Thickness (1) tested)
0.9
mm
Relative Temperature Index - without impact
140
°C
RTI without impact (Thickness (2) tested)
3
mm
Thermal Index 2500 hrs
190
°C
Thermal Index 5000 hrs
177
°C
Thermal Index 10000 hrs
164
°C
Thermal Index 20000 hrs
153
°C

Electrical properties

Relative permittivity (100Hz)
4.3
-
Relative permittivity (1 MHz)
4
-
Dissipation factor (100 Hz)
70
E-4
Dissipation factor (1 MHz)
200
E-4
Volume resistivity
1E12
Ohm*m
Surface resistivity
Ohm
Electric strength
30
kV/mm
Comparative tracking index
300
V

Other properties

Water absorption
9.5
%
Water absorption in water at 23°C after 24h
2.65
%
Humidity absorption
2.6
%
Density
1410
kg/m³

Material specific properties

Viscosity number
145
cm³/g

Rheological calculation properties

Density of melt
1210
kg/m³
Thermal conductivity of melt
0.296
W/(m K)
Spec. heat capacity melt
2200
J/(kg K)
Eff. thermal diffusivity
1.1E-7
m²/s

Diagrams

Applications

Automotive Bearing Cages

Industry
Automotive
  • •} Allows for lightweight and more economical solutions
  • •} Allows for more reliable solutions
  • •}
Provides higher stiffness and chemical resistance}

Automotive e-motor Bobbins

Industry
Automotive
  • •} Stanyl® PA46 also used in connectors, e-motor parts, bobbins, sensors, fuse boxes. Thermoconductive Stanyl XL-T (P968A) in use as well
  • •} ForTii® PA4T and Xytron™ PPS also materials to be used in electromotor applications
}

Bobbins

Industry
Electrical
  • •} UL146 class F for reinforced PBT grades and unreinforced PA46 grades, UL146 class H for reinforced PA46 grades
  • •} Grades available with halogenfree flame-retardant ingredients.
}

Brushholders (electrical components)

Industry
Electrical
There are also grades available with halogenfree flame-retardant ingredients.}

Brushholders (electro motors)

Industry
Automotive
  • •} Stanyl® PA46 also used in connectors, e-motor parts, bobbins, sensors, fuse boxes. Thermoconductive Stanyl XL-T (P968A) in use as well
  • •} ForTii® PA4T and Xytron™ PPS also materials to be used in electromotor applications
}

Coil insulation

Industry
Automotive
  • •} Stanyl® PA46 also used in connectors, e-motor parts, bobbins, sensors, fuse boxes. Thermoconductive Stanyl XL-T (P968A) in use as well
  • •} ForTii® PA4T and Xytron™ PPS also materials to be used in electromotor applications
}

Collaborative Robotics

Industry
Robotics
  • •} Metal replacement enables lightweighting of the robot arm
  • •} Move at higher safe speeds
  • •} Higher productivity collaborative human-robot workcells
  • •} Enable a 30-50% lower component part price compared to metal. ​
}

Coolant valve actuators

Industry
Automotive
  • •} Higher torque and durability performance than PPA and PA66
  • •} Allows more compact actuator design and weight savings
  • •} Comparable performance to specialized materials without the need for expensive additives (e.g., carbon fiber or wear & friction optimizers) creates opportunities for cost savings
}

DRL sockets

Industry
Automotive
Material
During production the material is able to give ultra-short cycle times, it is easy to process and has a high flow}

E-Boxes

Industry
Automotive
Stanyl® PA46 also used in connectors, e-motor parts, bobbins, sensors, fuse boxes.}

E-motor electric insulation

Industry
Automotive
Material
Application requirements High flow and mechanics Thermal conductive E-friendly HB/V0 ATF/Glycol resistant High HDT (wire welding) Material properties Thinsulation Typical UL1446 class H (0,36mm, 180°C) E-motor/E-car (thermal) load cycles}

Electronic throttle control actuators

Industry
Automotive
  • •} Higher torque and durability performance than PPA and PA66
  • •} Allows more compact actuator design and weight savings
  • •} Comparable performance to specialized materials without the need for expensive additives (e.g., carbon fiber or wear & friction optimizers) creates opportunities for cost savings
}

Endlaminates (electro motors)

Industry
Automotive
  • •} Reliable
  • •} Long term high temperature resistant
  • •} Good flowability enables thin wall designs
  • •} Durable
  • •} Good electrical insulation
  • •} Creep resistant
}

Exhaust gas recirculation actuators

Industry
Automotive
  • •} Higher torque and durability performance than PPA and PA66
  • •} Allows more compact actuator design and weight savings
  • •} Comparable performance to specialized materials without the need for expensive additives (e.g., carbon fiber or wear & friction optimizers) creates opportunities for cost savings
}

Fuse Holders

Industry
Automotive
Stanyl® PA46 also used in connectors, e-motor parts, bobbins, sensors, fuse boxes.}

Gears

Industry
Automotive
Envalior is a global leader in the design, engineering and testing of advanced thermoplastic materials for gears and actuation systems. Automakers and other global manufacturers trust Envalior Engineering Materials to improve the performance of complex automotive applications, appliances, consumer goods, and industrial applications. In fact, Stanyl® is used in nearly 40 million gears in 100 million automotive actuation systems each year, making it one of the most popular thermoplastic gear materials in the world.}

Gears for 2-wheelers

Industry
Transportation
  • •} 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, POM and PPA
  • •} Stanyl® PA46 allows more power and torque with no increase in weight or size
}

Lawnmower Muffler Components

Industry
Consumer goods
Material
  • •} Yields better flow and processing behavior than PPA
  • •} Short injection molding cycle times
  • •} Good flowability
  • •} Superior heat resistance
  • •} Design stiffness
}

Lawnmower Trimmer Muffler

Industry
Consumer goods
Material
  • •} Yields better flow and processing behavior than PPA
  • •} Short injection molding cycle times
  • •} Good flowability
  • •} Superior heat resistance
  • •} Design stiffness
}

MTF/DMF Components

Industry
Automotive
  • •} Allows for lightweight and more economical solutions
  • •} Allows for more reliable solutions
  • •} Provides higher stiffness and chemical resistance
}

Positition Sensor

Industry
Automotive
Many different sensor types/systems: Hall-, ABS-, Oil-, MAF-, Air Bag-, Throttle- Sensor Crankshaft, Camshaft, ETC, Seat position.}

Robotic gears & gearboxes

Industry
Robotics
  • •} Stanyl® offers a superior alternative to POM, PA66 and PPA with higher torque and temperature performance
  • •} Stanyl® provides a comparable alternative to PEEK with significant cost savings.
  • •} Stanyl® is a proven solution used to manufacture more than 100 million automotive gears each year
  • •} Stanyl’s higher torque & durability performance allow more compact gearbox designs saving space and weight
}

Self propelled lawnmower transmission gears

Industry
Consumer goods
  • •} 70% lighter than metal
  • •} Reduces noise
  • •} Heat-stabilized
  • •} Retains its mechanical properties at high temperatures up to 220°C (428°F)
  • •} Outperforms PPA, PA6T, PA9T, and often PPS and LCP
}

Speed Sensor

Industry
Automotive
Many different sensor types/systems: Hall-, ABS-, Oil-, MAF-, Air Bag-, Throttle- Sensor Crankshaft, Camshaft, ETC, Seat position.}

Start-stop starter

Industry
Automotive
Material
  • •} High heat resistance
  • •} High Flow and thin wall electrical insulation Ul1446 Class H @ 0,35 mm
  • •} No part cracking under copper winding forces
  • •} E-motor insulation
}

Start/Stop: Alternator and Starter parts

Industry
Automotive
Stanyl® PA46 also used in connectors, e-motor parts, bobbins, sensors, fuse boxes.}

Suspension System Top Mounts

Industry
Automotive
Envalior Engineering Materials supported a lot with high-speed tensile property data.}

Temperature Sensor

Industry
Automotive
Many different sensor types/systems: Hall-, ABS-, Oil-, MAF-, Air Bag-, Throttle- Sensor Crankshaft, Camshaft, ETC, Seat position.}

Torque Convertor Components

Industry
Automotive
  • •} Allows for lightweight and more economical solutions
  • •} Allows for more reliable solutions
  • •} Provides higher stiffness and chemical resistance
}

Turbo actuators

Industry
Automotive
  • •} Higher torque and durability performance than PPA and PA66
  • •} Allows more compact actuator design and weight savings
  • •} Comparable performance to specialized materials without the need for expensive additives (e.g., carbon fiber or wear & friction optimizers) creates opportunities for cost savings
}