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VESTAMID® DX9303 BK E70288

1 of 39 products in this brand
VESTAMID® DX9303 BK E70288 is a PA 612 extrusion compound developed for tubing systems with higher heat resistance requirements. Its melting point is approximately 35°C higher than that of PA 11 and PA 12 compounds, allowing for higher peak temperatures during use. This compound meets the increased demands resulting from higher temperatures in the engine compartment.

Polymer Name: Polyamide 612 (PA 612)

Processing Methods: Extrusion, Injection Molding, Pipe Extrusion, Tubing Extrusion

Additives Included: Heat Stabilizer, Impact Modifier, Light Stabilizer, Plasticizer (Unspecified)

Flexural Modulus: 847.47 - 847.47 MPa

Materials Features: Dimensional Stability, Electrically Insulating, Fuel Resistant, Good Impact Strength, Good Light Stability, Good Thermal Stability, Good Weather Stability, Heat Resistance, Heat Stabilized, High Viscosity, Impact Modified, Impact Resistance, Light Stabilized, Low Moisture Absorption, Oil Resistant, Plasticized, UV Resistant, Unreinforced, Very Good Heat Resistance

Color: Black

Technical Data Sheet

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Knowde Enhanced TDS

Identification & Functionality

Additives Included

Heat Stabilizer,

Impact Modifier,

Light Stabilizer,

Plasticizer (Unspecified)

Chemical Family

Polyamides

Polymer Name

Polyamide 612 (PA 612)

Plastics & Elastomers Functions

Resin

Technologies

Plastics

Product Families

Plastics — Engineering & Specialty Polymers

Polyamides

Features & Benefits

Materials Features

Dimensional Stability,

Electrically Insulating,

Fuel Resistant,

Good Impact Strength,

Good Light Stability,

Good Thermal Stability,

Good Weather Stability,

Heat Resistance,

Heat Stabilized,

High Viscosity,

Impact Modified,

Impact Resistance,

Light Stabilized,

Low Moisture Absorption,

Oil Resistant,

Plasticized,

UV Resistant,

Unreinforced,

Very Good Heat Resistance

Product Attributes
  • The melting point of VESTAMID® DX9303 BK E70288 is about 35°C higher than PA 11 and PA 12 compounds, allows higher peak temperatures in use. Thereby this compound fulfills the increased demands resulting from higher temperatures in the engine compartment.
  • If it is intended to use VESTAMID® DX9303 BK E70288 for fuel lines, certain preconditions must be observed. The Technical Marketing assists you in finding the suitable VESTAMID® compound. At temperatures above 100°C tubing of VESTAMID® DX9303 BK E70288 allow a higher pressure load than tubing made of PA 12 compounds with comparable flexibility.
  • The process temperatures should be in the range of 240-270°C.
  • The material absorbs only little moisture. Therefore dimensions and properties of parts are nearly unaffected through ambient conditions. Pigmentation may affect values.

Applications & Uses

Markets

Automotive & Transportation

Applications

Automotive & Transportation — Automotive

Fuel Systems

Plastics & Elastomers End Uses

Automotive Applications,

Automotive Fuel Lines,

Engine Systems,

Hoses,

Tubes

Plastics & Elastomers Processing Methods

Extrusion,

Injection Molding,

Pipe Extrusion,

Tubing Extrusion

Properties

Color

Black

Flame Rating

IEC 60695-11-10 HB

Physical Form

Granules,

Pellets,

Solid

Mechanical Properties
ValueUnitsTest Method / Conditions
Tensile Modulus (dry)131000psiISO 527
Tensile Modulus (cond.)98600psiISO 527
Tensile Strength (dry)5510psiISO 527
Yield Stress (dry)5510psiISO 527
Yield Strain (dry)30%ISO 527
Stress at 50% Strain (dry)5370psiISO 527
Stress at Break (dry)6530psiISO 527
Stress at Break (cond.)5950psiISO 527
Nominal Strain at Break (ɛtb, dry)196%ISO 527
Nominal Strain at Break (ɛtb, cond.)200%ISO 527
Typical for the Mat. Nom. Strain at Break (ɛtb)2200%ISO 527
Charpy Notched Impact Strength (+23°C, dry)41.4ftlb/in²ISO 179/1eA
Charpy Notched Impact Strength (+23°C, cond.)64.2ftlb/in²ISO 179/1eA
Charpy Notched Impact Strength (-30°C, dry)523ftlb/in²ISO 179/1eA
Charpy Notched Impact Strength (-30°C, cond.)714ftlb/in²ISO 179/1eA
Flexural Modulus (23°C, dry)123000psiISO 178
Flexural Modulus (23°C, cond.)87700psiISO 178
Flexural Stress at Conv. Deflection (23°C, dry)3480psiISO 178
Flexural Stress at Conv. Deflection (23°C, cond.)2610psiISO 178
Flexural Strength (23°C, dry)4930psiISO 178
Flexural Strength (23°C, cond.)4060psiISO 178
Flexural Strain at Flexural Strength (23°C, dry)85%ISO 178
Flexural Strain at Flexural Strength (23°C, cond.)10%ISO 178
Physical Properties
ValueUnitsTest Method / Conditions
Density (dry)1.05g/cm³ISO 1183
Water Absorption (dry)2.4%Sim. to 1SO 62
Humidity Absorption (dry)1%Sim. to 1SO 62
Shore D Hardness (dry)70 (3 sec)ISO 7619-1
Shore D Hardness (cond.)65 (3 sec)ISO 7619-1
Thermal Properties
ValueUnitsTest Method / Conditions
Melting Temperature (dry)412°FISO 11357-1/-3
Glass Transition Temperature (dry)68°FISO 11357-1/-2
Temperature of Deflection Under Load A (1.80 Mpa, dry)140°FISO 75-1/-2
Temperature of Deflection Under Load B (0.45 Mpa, dry)288°FISO 75-1/-2
Vicat Softening Temperature A (10 N, 50 K/h, dry)396°FISO 306
Vicat Softening Temperature B (50 N, 50 K/h, dry)318°FISO 306
Coefficient of Linear Thermal Expansion (23°C to 55 °C, Parallel, dry)8.33e-05in/in/°FISO 11359-1/-2
Coefficient of Linear Thermal Expansion (23°C to 55 °C, Normal, dry)6.67e-05in/in/°FISO 11359-1/-2
Electrical Properties
ValueUnitsTest Method / Conditions
Volume Resistivity (pV, dry)2E10Ohm*mIEC 62631-3-1
Volume Resistivity (pV, cond.)5.3E8Ohm*mIEC 62631-3-1
Surface Resistivity (σC, Circular Electrodes, dry)2.6E12Ohm/sqIEC 62631-3-2
Surface Resistivity (σC, Circular Electrodes, cond.)5E12Ohm/sqIEC 62631-3-2
Relative Permittivity (50Hz, dry)5IEC 62631-2-1
Relative Permittivity (100Hz, dry)4.7IEC 62631-2-1
Relative Permittivity (1MHz, dry)27IEC 62631-2-1
Dissipation Factor (50Hz, dry)1700E-4IEC 62631-2-1
Dissipation Factor (100Hz, dry)1450E-4IEC 62631-2-1
Dissipation Factor (1Mhz, dry)400E-4IEC 62631-2-1
Electric Strength (AC, S20/S20, t. 1 mm, dry.)991kV/inIEC 60243-1
Electric Strength (AC, S20/S20, t. 1 mm, cond.)864kV/inIEC 60243-1
Comparative Tracking Index (Test Solution A, 50 Drops Value, dry)600IEC 60112
Test Specimen Production
ValueUnitsTest Method / Conditions
Injection Molding - Melt Temperature 482°FISO 294
Injection Molding - Mold Temperature 176°FISO 294
Injection Molding - Injection Velocity 7.87in/sISO 294
Rheological Properties
ValueUnitsTest Method / Conditions
Melt Volume Flow Rate (dry, at 527°F, 1lb))1cm³/10minISO 1133
Molding Shrinkage (Parallel, dry)2.7%ISO 294-4, 2577
Molding Shrinkage (Normal, dry)9%ISO 294-4, 2577
Mold Temperature (dry)176°F
Melt Temperature (dry)482°F
Pipe Properties
ValueUnitsTest Method / Conditions
Cold Impact Resistance (Breaks of 10, -40°C, 912g, Tube Dimension: 8x1 mm)0SAE J2260, J2043
Cold Impact Resistance (Breaks of 10, -40°C, 454g, Tube Dimension: 8x1 mm)0SAE J844
Cold Impact Resistance (Breaks of 10, -40°C, 454g, Tube Dimension: 8x1 mm, Pretreatment: 2h Boiling, Water)0SAE J844
Cold Impact Resistance (Breaks of 10, -40°C, 454g, Tube Dimension: 8x1 mm, Pretreatment: 24h, 110°C)0SAE J844
Burst Hoop Stress (23°C, H₂O, dry)4930psiDIN 53758, historical
Burn Testing Properties
ValueUnitsTest Method / Conditions
Burning Behavior (at 1.5 mm Nominal Thickness) (dry)HBclassIEC 60695-11-10
Burning Behavior (at Thickness 0.1260 in.) (dry)HBclassIEC 60695-11-10

Technical Details & Test Data

Burst Hoop Stress DIN 53758 Hist.

Storage & Handling

Shelf Life
2 years
Storage Conditions

Inside the original and undamaged packaging, the product has a shelf life of at least 2 years when stored in dry rooms at temperatures not exceeding 30°C.