ESD Safe - ABS

Category: ABS (Acrylonitrile Butadiene Styrene)

Material Information

Name: ESD Safe - ABS
Source: Airwolf 3D

ESD ABS Carbon Nanotube (CNT) enhanced compounds are used in critical applications that require electrostatic discharge (ESD) protection and a high level of cleanliness. Manufactured with consistency in mind – Production starts with MG-94 Premium ABS (same resin as P430) and then compounded according to a proprietary formulation of multi-wall carbon nanotubes and process / dispersion modifiers – giving you a filament with excellent printing characteristics and consistent ESD properties.

  • Technical Data Sheet (TDS)
  • Airwolf 3D Printing Guide
  • Printer Compatibility:


    Purchase Options

    Company Available Colors Buy Now Black

    Recommended Support Materials

    Mechanical Properties

    Property Standard Value Unit
    Ultimate Tensile Strength ISO 527 58 MPa
    Tensile Modulus ISO 527 2130 MPa
    Elongation at Break ISO 527 4 %
    Flexural Strength ISO 178 80 MPa
    Flexural Modulus ISO 178 2275 MPa

    Thermal Properties

    Property Standard Value Unit
    HDT @ 0.45 MPa ISO 75 97 °C
    Glass Transition Temp DSC 105 °C

    Physical Properties

    Property Standard Value Unit
    Density ISO 1183 1.09 g/cm³

    Print Settings

    Subject Airwolf
    Extruder Temperature
    • 250°C
    Bed Temperature
    • 135°C
    Bed Preparation
    • Wolfbite for ABS, PETG, TPU, and TPE
    Cooling Fan
    • Increasing your extrusion multiplier up to 1.15 or even 1.2 and varying your fan speed between 50-100% may be necessary.
    Closed Chamber
    • Yes
    Heated Chamber
    • Yes

    Material Management

    Subject Airwolf
    Recommended Support Material
    • Hydrofill
    • Store in a dry place.
    Compatible Materials
    • None

    Slicer Settings

    Parameter APEX
    Material Profile Name ESD ABS
    Layer Height 0.2 mm
    Nozzle diameter 0.5 mm
    Loops 1
    Skin 1
    Infill 42 %

    General Comments


    • Consistent surface resistivity.
    • Low additive loading rates.
    • Improved retention of impact & elongation.
    • Low particulate contamination.
    • Minimal contribution to outgassing and ionic contamination.


    • Semi-con: HDD Components, Wafer Handling, Jigs, Casings, & Connectors.
    • Industrial: Conveying, Metering, and Sensing applications.


    • Some studies have indicated that increased extruder temperatures can achieve higher levels of conductivity. Likewise, lower extruder temperatures have resulted in lower levels of conductivity. Each printer is set-up differently as well as varied part geometry. Therefore, expect some trial time to understand how ESD ABS filament works in your specific printer / application.

    Printing Skill & Experience - Intermediate

    • Enclosed chamber necessary in order to prevent warping.
    • Increase in extruder temperature has shown increase in ESD performance.