ForTii® F11

Mit 30% Glasfasern verstärkt, PA4T, Electro-friendly, Frei von rotem Phosphor und Halogenen, UL Registrierung V-0 bei 0.2mm

Allgemeine Information

ForTii® is a breakthrough high temperature polyamide with halogen-free and halogen containing flame retardant grades for demanding applications in the electronics, lighting, automotive, white goods, industrial and aerospace industries.
We developed ForTii® in close co-operation with leading OEMs and tier 1 connector and socket manufacturers to ensure we give our customer what they want – and need.
That means a high temperature polyamide with a broad and versatile portfolio of grades that deliver high performance with a unique balance of properties.
Produkt
ForTii® F11 has an excellent balance in flow, toughness and stiffness, enabling thin walls or complicated geometries for E&E applications. F11 is all-color VDE approved, has a high RTI electrical rating of
140°C at 0.75 mm and a CTI 600V rating to secure thermal ageing and electrical performance.


Besondere Merkmale
Regulatorische Angelegenheiten

Rheologische Kennwerte

Verarbeitungsschwindung parallel
0.3
%
Verarbeitungsschwindung senkrecht
1.2
%
Spiralfliesslänge, 1.0 mm 800bar
110
mm
Spiralfliesslänge, 1.0 mm 900bar
120
mm
Spiralfliesslänge, 1.0 mm 1000bar
130
mm

Mechanische Kennwerte

Zug-Modul
12000
MPa
Zug-Modul (-40°C)
12500
MPa
Zug-Modul (80°C)
11000
MPa
Zug-Modul (100°C)
10000
MPa
Zug-Modul (120°C)
7500
MPa
Zug-Modul (140°C)
5700
MPa
Zug-Modul (160°C)
5000
MPa
Zug-Modul, Probekörperdicke <4mm
10000
MPa
Zug-Modul, geprüfte Probekörperdicke
1
mm
Bruchspannung
155
MPa
Bruchspannung (-40°C)
180
MPa
Bruchspannung (80°C)
125
MPa
Bruchspannung (100°C)
115
MPa
Bruchspannung (120°C)
100
MPa
Bruchspannung (140°C)
80
MPa
Bruchspannung (160°C)
70
MPa
Bruchspannung, Probekörperdicke <4mm
165
MPa
Bruchspannung, geprüfte Probekörperdicke
1
mm
Bruchdehnung
2
%
Bruchdehnung (-40°C)
2.2
%
Bruchdehnung (80°C)
2
%
Bruchdehnung (100°C)
2
%
Bruchdehnung (120°C)
2.8
%
Bruchdehnung (140°C)
3.6
%
Bruchdehnung (160°C)
3.8
%
Bruchdehnung, Probekörperdicke <4mm
2.2
%
Bruchdehnung, geprüfte Probekörperdicke
1
mm
Biegemodul
11500
MPa
Biegefestigkeit
245
MPa
Charpy-Schlagzähigkeit (+23°C)
50
kJ/m²
Charpy-Kerbschlagzähigkeit (+23°C)
10
kJ/m²
Bruchspannung der Zusammenflussnaht bei Dicke (1)
65
MPa
Bruchdehnung der Zusammenflussnaht bei Dicke (1)
0.75
%
geprüfte Probekörperdicke (1)
1
mm

Thermische Kennwerte

Schmelztemperatur (10°C/min)
325
°C
Glasübergangstemperatur (10°C/min)
125
°C
Formbeständigkeitstemperatur (1.8 MPa)
305
°C
Formbeständigkeitstemperatur (0.45 MPa)
323
°C
Längenausdehnungskoeffizient (parallel)
0.2
E-4/°C
Längenausdehnungskoeffizient (senkrecht)
0.65
E-4/°C
Coeff. of linear therm. expansion (parallel)
0.3
E-4/°C
Coeff. of linear therm. expansion (normal)
0.35
E-4/°C
Brennbarkeit bei nominal 1.5mm
V-0
class
geprüfte Probekörperdicke
1.5
mm
UL Registrierung
Yes
-
Brennbarkeit bei Dicke h
V-0
class
geprüfte Probekörperdicke
0.2
mm
UL Registrierung
Yes
-
Brennbarkeit-Sauerstoff-Index
39
%
Kugeldruckprüfung
305
°C
Glühdrahtentflammbarkeitszahl GWFI
960
°C
GWFI - geprüfte Probekörperdicke (1)
3
mm
Glühdrahtentflammbarkeitszahl GWFI
960
°C
GWFI - geprüfte Probekörperdicke (2)
0.25
mm
Glühdrahtentzündungstemperatur GWIT
800
°C
GWIT - geprüfte Probekörperdicke (1)
3
mm
Glühdrahtentzündungstemperatur GWIT
800
°C
GWIT - geprüfte Probekörperdicke (2)
0.75
mm
Rel. Temperaturindex -elektrisch
140
°C
RTI elektrisch - geprüfte Probekörperdicke (1)
0.75
mm
Rel. Temperaturindex -elektrisch
130
°C
RTI elektrisch - geprüfte Probekörperdicke (2)
0.2
mm
Rel. Temperaturindex -mech. mit Schlagbelastung
130
°C
RTI mechanisch Schlag - geprüfte Probekörperdicke (1)
0.35
mm
Rel. Temperaturindex -mech. mit Schlagbelastung
130
°C
RTI mechanisch Schlag - geprüfte Probekörperdicke (2)
3
mm
Rel. Temperaturindex -mech. ohne Schlagbelastung
130
°C
RTI mechanisch - geprüfte Probekörperdicke (1)
0.35
mm
Rel. Temperaturindex -mech. ohne Schlagbelastung
130
°C
RTI mechanisch - geprüfte Probekörperdicke (2)
3
mm
Temperaturindex 2500 h
175
°C
Temperatur Index 5000 h
163
°C
Temperaturindex 10000 h
152
°C
Temperaturindex 20000 h
141
°C

Elektrische Kennwerte

Dielektrizitätszahl (100Hz)
4.2
-
Dielektrizitätszahl (1 MHz)
3.9
-
Dielektrizitätszahl (1GHz)
3.9
-
Dielektrizitätszahl (10GHz)
3.9
-
Dielektr. Verlustfaktor (100Hz)
64
E-4
Dielektr. Verlustfaktor (1 MHz)
176
E-4
Dielektr. Verlustfaktor (1GHz)
130
E-4
Dielektr. Verlustfaktor (10GHz)
110
E-4
Spezifischer Durchgangswiderstand
>1E13
Ohm*m
Spezifischer Oberflächenwiderstand
Ohm
Elektrische Durchschlagfestigkeit
33
kV/mm
Vergleichszahl der Kriechwegbildung
600
V

Sonstige Kennwerte

Wasseraufnahme
4.6
%
Wasseraufnahme in Wasser bei 23°C nach 24h
0.3
%
Feuchtigkeitsaufnahme
1.5
%
Dichte
1460
kg/m³

Formmasse-Spezifische Kennwerte

Viskositätszahl
86
cm³/g

Diagramme

Anwendungsbeispiele

High voltage connector e-motor

Branche
Automotive
  • Robust (wire load) design
  • Harsh environment
  • Improved lifetime/safety vs PA66/PBT

Automotive e-motor Bobbins

Branche
Automotive
  • Stanyl® PA46 allows for reliable solutions due to a high temperature resistance (UL1446 class H certified) and creep resistance at elevated temperatures, high toughness levels and good electrical insulation properties
  • Stanyl® PA46 allows for cost effective solutions due to a good flowability and processability enabling therefore thin wall designs
  • Xytron™ PPS allows for super high temperatrue resistance for long term.

Battery Connectors

Branche
Electronics
  • Stanyl® PA46 and ForTii® PA4T allow for reliable solutions due to their high-heat resistance, a unique balance of high stiffness and good flowability and high strength and creep resistance levels leading to good pin retention
  • Stanyl® PA46 and ForTii® PA4T allow for cost effective solutions to due good processability and high flowability enabling thin walled designs

Brushholders (electro motors)

Branche
Automotive
  • Stanyl® PA46 allows for reliable solutions due to a high temperature resistance (UL1446 class H certified) and creep resistance at elevated temperatures, high toughness levels and good electrical insulation properties
  • Stanyl® PA46 allows for cost effective solutions due to a good flowability and processability enabling therefore thin wall designs
  • Xytron™ PPS allows for super high temperatrue resistance for long term.

Coil insulation

Branche
Automotive
  • Stanyl® PA46 allows for reliable solutions due to a high temperature resistance (UL1446 class H certified) and creep resistance at elevated temperatures, high toughness levels and good electrical insulation properties
  • Stanyl® PA46 allows for cost effective solutions due to a good flowability and processability enabling therefore thin wall designs
  • Xytron™ PPS allows for super high temperatrue resistance for long term.

Contactors

Branche
Electrical
  • Akulon® PA6 and ForTii® PA4T allow for reliable solutions due to good electrical and thermal endurance
  • Akulon® PA6 and ForTii® PA4T allow for more design freedom and/or potential system cost reductions due to part integration and thinner wall design and lower profiles possibilities, reduced cycle time with lower production losses

EGR sensor

Branche
Automotive
  • ForTii® PA4T and Stanyl® PA46 allow for reliable solutions due to their high melting point of 325 and 295 °C resulting in no deformation at very high sensor tip temperatures and to their resistance to erosion from contamination in the exhaust stream
  • ForTii® PA4T and Stanyl® PA4 allow for cost effective solutions versus PEEK, LCP or other PPA

Endlaminates (electro motors)

Branche
Automotive
  • Stanyl® PA46 allows for reliable solutions due to a high temperature resistance (UL1446 class H certified) and creep resistance at elevated temperatures, high toughness levels and good electrical insulation properties
  • Stanyl® PA46 allows for cost effective solutions due to a good flowability and processability enabling therefore thin wall designs
  • Xytron™ PPS allows for super high temperatrue resistance for long term.

FPC connectors

Branche
Electronics
  • Stanyl® PA46 and ForTii® PA4T allow for reliable solutions due to high stiffness even at elevated lead-free reflow assembly temperatures with hot spots up to 300°C
  • Stanyl® PA46 and ForTii® PA4T allow for cost effective solutions due to very low warpage levels to minimizing rejects significantly therefore
  • ForTii® PA4T allow for even more sustainable solutions with reduced environmental impact due to its lower carbon footprint as compared to alternative materials

Fuse holder

Branche
Electrical
  • ForTii® allows the Fuse holder to withstand high temperatures and the material has a high impact resistance
  • Productivity improvement
  • Laser printing
  • Snap fitting
  • DIN rail mounting

HDMI Connectors

Branche
Electronics
  • ForTii® PA4T allows for reliable solutions due to its high melting temperature (ideal for reflow process), high mechanical performance (also after reflow soldering), a high dimensional stability (result from low, isotropic CLTE), a high co-planarity and low warpage after soldering, and good dielectrics due to low moisture uptake
  • ForTii® PA4T allow for cost effective solutions to due good processability and high flowability enabling thin walled designs
  • ForTii® PA4T allow for even more sustainable solutions with reduced environmental impact due to its lower carbon footprint as compared to alternative materials

Industrial Control Gear

Branche
Electrical
  • Akulon® PA6 and ForTii® PA4T allow for reliable solutions due to good electrical and thermal endurance
  • Akulon® PA6 and ForTii® PA4T allow for more design freedom and/or potential system cost reductions due to part integration and thinner wall design and lower profiles possibilities, reduced cycle time with lower production losses

MCCB Housings

Branche
Electrical
  • Akulon® PA6 and ForTii® PA4T enable increased design flexibility and integrated functionality, facilitating smart assembly solutions
  • Akulon® PA6 and ForTii® PA4T allow for reliable solutions due to good dielectric aging performance at 150°C and high CTI values at 600 Volts
  • Akulon® PA6 and ForTii® PA4T allow for potential system cost reductions up to 15% ( wall thicknesses reduced leading to a volume reduction of up to 25%) compared to conventional materials

Medium Voltage Circuit Breaker Isolators

Branche
Electrical
Material
  • ForTii® PA4T allows for more sustainable solutions in end-products due to lower CO₂ footprint as compared to solutions with epoxy Xlink agent
  • ForTii® PA4T allows for significant system cost reduction due to lower density up to 17% than conventional materials, part weight reduction up to 35%, cycle time down by factor 7

Medium Voltage Circuit Breakers

Branche
Electrical
  • ForTii® PA4T allows for more sustainable solutions in end-products due to lower CO₂ footprint as compared to solutions with epoxy Xlink agent
  • ForTii® PA4T allows for potential system cost reduction opportunities due to part integration possibilities , possible thinner wall design withlower profiles possibilities, reduced cycle times with lower production losses

Micro appliance connector

Branche
Electronics
Material
  • Better stiffness and toughness enhance
  • Dual locking latch performance
  • Reduce cracking rate down to 0%
  • Lowering system costs

Miniature Circuit Breakers

Branche
Electrical
  • Akulon® PA6 allows for reliable solutions due to up to 30% improved electrical endurance compared to conventional materials
  • Akulon® PA6 allows for more appealing solutions due to enhanced aesthetics
  • Akulon® PA6 allows for system cost reduction up to 15% compared to thermoset compounds due to potential reduction of wall thicknesses by up to 2/3rd and due to potential part integration possibilities

Molded case circuit breakers

Branche
Electrical
  • Akulon® PA6, Stanyl® PA46 and ForTii® PA4T allow for reliable solutions due to up-to 30% improved electrical endurance compared to conventional materials
  • Akulon® PA6, Stanyl® PA46 and ForTii® PA4T allow for more appealing solutions due to enhanced aesthetics
  • Akulon® PA6, Stanyl® PA46 and ForTii® PA4T allow for system cost reduction up to 15% compared to thermoset compounds due to potential reduction of wall thicknesses by up to 2/3rd and due to potential part integration possibilities

Motor Starter/Overload Relays

Branche
Electrical
  • Akulon® PA6, Arnite® PBT, Stanyl® PA46 and ForTii® PA4T allow for reliable solutions due to good electrical and thermal endurance
  • Akulon® PA6, Arnite® PBT, Stanyl® PA46 and ForTii® PA4T allow for more design freedom and/or potential system cost reductions due to part integration and thinner wall design and lower profiles possibilities, reduced cycle time with lower production losses

Positition Sensor

Branche
Automotive
  • Stanyl® PA46, ForTii® PA4T, Akulon® PA66, Akulon® PA6, Arnite® PBT allow for reliable solutions due to high temperature resistance, high toughness levels and good electrical insulation properties
  • Stanyl® PA46 allows for cost effective solutions due to a better flowability and processability than PPS and PPA enabling therefore thin wall designs
  • ForTii® PA4T allows for reliable solutions exposed to very high peak temperatures due to its melting point of 325 C

Reflow connectors

Branche
Electronics
  • Stanyl® PA46 and ForTii® PA4T allow for reliable solutions due to their high melting temperatures (allowing the use of high reflow temperatures) and high mechanical performance (implying a reduced reject rate during pin assembly + meeting mechanical specification also after reflow soldering)
  • ForTii® PA4T increases the reliability even due to a high dimensional stability, a low and isotropic CLTE leading to high co-planarity and low warpage after soldering
  • Stanyl® PA46 and ForTii® PA4T allow for cost effective solutions due to their ease of processability and flowability (enabling thin wall designs)

Reflow connectors (2)

Branche
Electronics
  • Stanyl® PA46 and ForTii® PA4T allow for reliable solutions due to their high melting temperatures (allowing the use of high reflow temperatures) and high mechanical performance (implying a reduced reject rate during pin assembly + meeting mechanical specification also after reflow soldering)
  • ForTii® PA4T increases the reliability even due to a high dimensional stability, a low and isotropic CLTE leading to high co-planarity and low warpage after soldering
  • Stanyl® PA46 and ForTii® PA4T allow for cost effective solutions due to their ease of processability and flowability (enabling thin wall designs)

Reflow connectors (3)

Branche
Electronics
  • Stanyl® PA46 and ForTii® PA4T allow for reliable solutions due to their high melting temperatures (allowing the use of high reflow temperatures) and high mechanical performance (implying a reduced reject rate during pin assembly + meeting mechanical specification also after reflow soldering)
  • ForTii® PA4T increases the reliability even due to a high dimensional stability, a low and isotropic CLTE leading to high co-planarity and low warpage after soldering
  • Stanyl® PA46 and ForTii® PA4T allow for cost effective solutions due to their ease of processability and flowability (enabling thin wall designs)

Speed Sensor

Branche
Automotive
  • Stanyl® PA46, ForTii® PA4T, Akulon® PA66, Akulon® PA6, Arnite® PBT allow for reliable solutions due to high temperature resistance, high toughness levels and good electrical insulation properties
  • Stanyl® PA46 allows for cost effective solutions due to a better flowability and processability than PPS and PPA enabling therefore thin wall designs
  • ForTii® PA4T allows for reliable solutions exposed to very high peak temperatures due to its melting point of 325 C

Start/Stop: Alternator and Starter parts

Branche
Automotive
  • Stanyl® PA46 allows for reliable solutions due to a high temperature resistance and creep resistance at elevated temperatures, high toughness levels, excellent wear and friction behaviour and good electrical insulation properties
  • ForTii® PA4T allows for reliable solutions due to a very high peakt temperature resistance due to its melting point of 325 C
  • Stanyl® PA46 and ForTii® PA4T allow for cost effective solutions due to a better flowability and processability than PPS and PPA enabling therefore thin wall designs

Temperature Sensor

Branche
Automotive
  • Stanyl® PA46, ForTii® PA4T, Akulon® PA66, Akulon® PA6, Arnite® PBT allow for reliable solutions due to high temperature resistance, high toughness levels and good electrical insulation properties
  • Stanyl® PA46 allows for cost effective solutions due to a better flowability and processability than PPS and PPA enabling therefore thin wall designs
  • ForTii® PA4T allows for reliable solutions exposed to very high peak temperatures due to its melting point of 325 C

WtB and BtB Connectors

Branche
Electronics
  • Stanyl® PA46 and ForTii® PA4T allow for reliable solutions due to their high-heat resistance, a unique balance of high stiffness and good flowability and high strength and creep resistance levels leading to good pin retention
  • Stanyl® PA46 and ForTii® PA4T allow for cost effective solutions to due good processability and high flowability enabling thin walled designs