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NORYL GTX™ Resin GTX914

1 of 47 products in this brand
SABIC's Specialties Business NORYL GTX914 resin is a non-reinforced alloy of Polyphenylene Ether (PPE) + Polyamide (PA). This injection moldable grade exhibits an ideal combination of impact performance and dimensional stability at elevated temperatures along with excellent chemical resistance and processability. NORYL GTX914 resin may be an excellent candidate for various automotive applications such as tank flaps, exterior trim, and wheel covers. This product does not contain PFAS intentionally added during SHPP’s manufacturing process and are not expected to contain unintentional PFAS impurities. Each user is responsible for evaluating the presence of unintentional PFAS impurities.

Polymer Name: PPO/Nylon Alloy

Processing Methods: Injection Molding

Density: 1090.0 - 1090.0 kg/m³

Flexural Modulus: 2000.0 - 2000.0 MPa

Technical Data Sheet

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Knowde Enhanced TDS

Identification & Functionality

Additives Included

Heat Stabilizer,

Impact Modifier,

Mold Release Agent

Polymer Name

PPO/Nylon Alloy

Plastics & Elastomers Functions

Resin

Technologies

Plastics

Product Families

Plastics — Engineering & Specialty Polymers

Blends & Alloys

Features & Benefits

Labeling Claims

No Added PFAS

Materials Features

Chemical Resistant,

Dimensional Stability,

Good Mold Release,

Heat Resistance,

Heat Stabilized,

High Hydrolytic Stability,

High Impact Resistance,

High Stiffness,

High Tensile Strength,

Impact Modified,

Light Weight,

Low Moisture Absorption,

Low Shrinkage,

Low Specific Gravity,

Low Warpage,

No Added PFAS,

Paintable,

Unreinforced,

Very Good Heat Resistance

Noryl Gtx™ Resin Solutions For New Wheel Insert Designs

Design Freedom and Lightweight Performance

Automotive designers look for new ways to stand out from the crowds with esthetically appealing designs and outstanding technical performance. Lightweight, injection molded parts offer design freedom…from special editions to exciting new designs.

NORYL GTX™ resin is an alloy of polyphenylene ether (PPE) and polyamide (PA), combining the inherent properties of PPE (long-term dimensional stability, very low moisture absorption, stiffness, strength, impact resistance) with the chemical resistance and flow of PA.

This advanced thermoplastic allows for new concept designs while providing superior mechanical properties and lightweight solutions that can withstand tough environments.

Key Properties For Electric Vehicle Wheel Insert
  • High heat resistance: to withstand heat build-up in brake or recuperation systems.
  • Paintability.
  • Impact resistance to enhance crash performance.
  • Very low specific gravity for reduced part weight and optimized moment of inertia.

Applications & Uses

Markets

Automotive & Transportation

Applications

Automotive & Transportation — Automotive

Exterior & Body,

Interior

Automotive & Transportation — Transportation

Off Road & Recreational Vehicle (RV)

Plastics & Elastomers End Uses

Automotive Applications,

Automotive Exterior Parts,

Covers,

Heavy Truck,

Recreational Vehicle Components,

Specialty Vehicles,

Wheels

Plastics & Elastomers Processing Methods

Injection Molding

Properties

Flame Rating

UL 94 HB

Mechanical Properties
ValueUnitsTest Method / Conditions
Tensile Stress (Yield, Type I, 50 mm/min) ¹¹55MPaASTM D638
Tensile Stress (Break, Type I, 50 mm/min) ¹¹55MPaASTM D638
Tensile Strain (Yield, Type I, 50 mm/min) ¹¹15%ASTM D638
Tensile Strain (Break, Type I, 50 mm/min) ¹¹100%ASTM D638
Tensile Modulus (at 50 mm/min) ¹¹1950MPaASTM D638
Flexural Stress (Yield, 1.3 mm/min, 50 mm span) ¹¹80MPaASTM D790
Flexural Modulus (at 1.3 mm/min, 50 mm span) ¹¹1900MPaASTM D790
Taber Abrasion (CS-17, 1 kg) ¹¹15mg/1000cySABIC method
Tensile Stress (Yield, 50 mm/min) ¹¹55MPaISO 527
Tensile Stress (Break, 50 mm/min) ¹¹55MPaISO 527
Tensile Strain (Yield, 50 mm/min) ¹¹7.5%ISO 527
Tensile Strain (Break, 50 mm/min) ¹¹60%ISO 527
Tensile Modulus (at 1 mm/min) ¹¹2100MPaISO 527
Flexural Stress (Yield, at 2 mm/min) ¹¹80MPaISO 178
Flexural Modulus (at 2 mm/min) ¹¹2000MPaISO 178
Ball Indentation Hardness (H358/30) ¹¹90MPaISO 2039-1
Physical Properties
ValueUnitsTest Method / Conditions
Specific Gravity ¹¹1.1ASTM D792
Mold Shrinkage (on Tensile Bar, flow) ᵍ ¹¹1.5 - 1.9%SABIC method
Mold Shrinkage (flow, 3.2 mm) ᵍ ¹¹1.3 - 1.6%SABIC method
Mold Shrinkage (xflow, 3.2 mm) ᵍ ¹¹1.1 - 1.4%SABIC method
Melt Flow Rate (at 280°C, 5.0 kgf) ¹¹12g/10 minASTM D1238
Density ¹¹1.09g/cm³ISO 1183
Water Absorption (at 23°C, saturated) ¹¹3.5%ISO 62-1
Moisture Absorption (at 23°C, 50% RH) ¹¹1.2%ISO 62
Melt Volume Rate (at 280°C, 5.0 kg) ¹¹11cm³/10 minISO 1133
Thermal Properties
ValueUnitsTest Method / Conditions
Vicat Softening Temperature (Rate B/50) ¹¹190°CISO 306
Vicat Softening Temperature (Rate B/50) ¹¹195°CASTM D1525
Heat Deflection Temperature (at 0.45 MPa, 3.2 mm, Unannealed) ¹¹180°CASTM D648
Coefficient of Thermal Expansion (at -40°C to 40°C, flow) ¹¹0.000091/°CASTM E831
Coefficient of Thermal Expansion (at -40°C to 40°C, xflow) ¹¹0.0000951/°CASTM E831
Thermal Conductivity ¹¹0.23W/m-°CISO 8302
Coefficient of Thermal Expansion (at 23°C to 60°C, flow) ¹¹0.000091/°CISO 11359-2
Coefficient of Thermal Expansion (at 23°C to 60°C, xflow) ¹¹0.000091/°CISO 11359-2
Ball Pressure Test (at 123°C to 127°C) ¹¹PassIEC 60695-10-2
Vicat Softening Temperature (Rate A/50) ¹¹245°CISO 306
Vicat Softening Temperature (Rate B/120) ¹¹195°CISO 306
Heat Deflection Temperature/Be (at 0.45MPa, Edgew 120*10*4, sp=100mm) ¹¹180°CISO 75/Be
Electrical Properties
ValueUnitsTest Method / Conditions
Dielectric Strength (in oil, at 3.2mm) ¹¹20kV/mmIEC 60243-1
Relative Permittivity (1 MHz) ¹¹2.7IEC 60250
Dissipation Factor (at 50/60 Hz) ¹¹0.072IEC 60250
Dissipation Factor (at at 1 MHz) ¹¹0.024IEC 60250
Comparative Tracking Index ¹¹600VIEC 60112
Relative Permittivity (50/60 Hz) ¹¹3.5IEC 60250
Impact Properties
ValueUnitsTest Method / Conditions
Izod Impact (Notched, at 23°C) ¹¹280J/mASTM D256
Izod Impact (Notched, at -30°C) ¹¹120J/mASTM D256
Instrumented Dart Impact Total Energy (at 23°C) ¹¹60JASTM D3763
Izod Impact (Notched, 80*10*4, at 23°C) ¹¹30kJ/m²ISO 180/1A
Izod Impact (Notched, 80*10*4, at -30°C) ¹¹15kJ/m²ISO 180/1A
Charpy Impact (at 23°C, V-notch Edgew 80*10*4 sp=62mm) ¹¹30kJ/m²ISO 179/1eA
Charpy Impact (Notched, at 23°C) ¹¹30kJ/m²ISO 179/2C
Charpy Impact (at -30°C, V-notch Edgew 80*10*4 sp=62mm) ¹¹15kJ/m²ISO 179/1eA
Injection Molding
ValueUnitsTest Method / Conditions
Drying Temperature ⁷100 - 120°C
Drying Time ⁷2 - 3Hrs
Maximum Moisture Content ⁷0.07%
Melt Temperature ⁷280 - 310°C
Nozzle Temperature ⁷270 - 300°C
Front - Zone 3 Temperature ⁷280 - 300°C
Middle - Zone 2 Temperature ⁷270 - 290°C
Rear - Zone 1 Temperature ⁷260 - 280°C
Hopper Temperature ⁷60 - 80°C
Mold Temperature ⁷80 - 120°C
Flame Characteristics
ValueUnitsTest Method / Conditions
UL Compliant (94HB Flame Class Rating) ¹¹1.6mmUL 94 by SABIC-IP
Note
  • ᵍ Measurements made from Laboratory test Coupon. Actual shrinkage may vary outside of range due to differences in processing conditions, equipment, part geometry and tool design. It is recommended that mold shrinkage studies be performed with surrogate or legacy tooling prior to cutting tools for new molded article.
  • ⁷ Injection Molding parameters are only mentioned as general guidelines. These may not apply or may need adjustment in specific situations such as low shot sizes, large part molding, thin wall molding and gas-assist molding.
  • ¹¹ The information stated on Technical Datasheets should be used as indicative only for material selection purposes and not be utilized as specification or used for part or tool design.
 

Regulatory & Compliance

Certifications & Compliance

UL 94

Packaging & Availability

Regional Availability
  • Europe