• Applications

    • High temperature components testing, and general use parts including: HVAC, consumer appliances, motor enclosures, stators, etc.
    • Low pressure molding/tooling: expanding foams, rubbers, etc.
    • Overmolding
  • Benefits

    • Production-grade material
    • High heat resistance for testing and use in high heat environments
    • No secondary thermal post-cure required
    • Excellent visualization for parts requiring evaluation of internal features and fluid flow performance
  • Features

    • HDT over 300 °C at both low and high stress (HDT at 0.455 and 1.82 MPa)
    • Rigid and translucent
    • High tensile modulus for use in molds (4000 MPa)
  • Key Material Properties

    The full suite of mechanical properties are given per ASTM and ISO standards where applicable. All parts are conditioned per ASTM recommended standards for a minimum of 40 hours at 23 °C, 50% RH. Material properties include physical and mechanical properties, as well as thermal, UL flammability, and electrical (dielectric strength, dielectric constant, dissipation factor, and volume resistivity).

  • Isotropic properties

    Figure 4 technology prints parts that are isotropic in mechanical properties meaning the parts printed along either the XYZ axis will give similar results. Parts do not need to be oriented to get the highest mechanical properties, further improving the degree of freedom for part orientation for mechanical properties.

Long term environmental stability

Figure 4 HI TEMP 300-AMB is engineered to give long term environmental UV and humidity stability. This means the material is tested for the ability to retain a high percent of the initial mechanical properties over a given period of time. This provides real design conditions to consider for the application or part. 

The chart shows a sampling of the dataset. The full datasheet includes Indoor and Outdoor Stability data for Tensile Strength, Elongation at Break, Tensile Modulus and Impact Strength. Actual data value is on Y-axis, and data points are % of initial value.

  • Indoor Stability

    Tested per ASTM D4329 standard method.

    3D Systems Figure 4 Hi Temp 300 AMB indoor elongation
  • Outdoor Stability

    Tested per ASTM G1554 standard method.

    3D Systems Figure 4 Hi Temp 300 AMB outdoor tensile strength

Chemical and automotive fluid compatibility

The compatibility of a material with hydrocarbons and cleaning chemicals is critical to part application. Figure 4 HI TEMP 300-AMB parts were tested for sealed and surface contact compatibility per ASTM D543 test conditions and per USCAR2 test conditions.  Tensile Strength (MPa) is shown below. The full datasheet includes additional data tables for Tensile Modulus, Elongation at Break and Notched Impact Strength.

  • Automotive Fluid Compatibility

    3D Systems Figure 4 Hi Temp 300 AMB automotive fluid chart tensile strength
  • Chemical Compatibility

    3D Systems Figure 4 Hi Temp 300 AMB chemical chart tensile strength

* Note: Not all products and materials are available in all countries – please consult your local sales representative for availability.

Warranty/Disclaimer: The performance characteristics of these products may differ according to variations in printing and post processing conditions, test equipment, product application, operating conditions, or with end use. 3D Systems makes no warranties of any type, express or implied, including, but not limited to, the warranties of merchantability or fitness for a particular use.

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Technical Specifications

  • Key Mechanical Properties

    • Elongation at break: 2.6%
    • Tensile modulus: 4000 MPa
    • Impact strength (notched Izod): 10 J/m
    • Heat Deflection Temperature @ 0.455 and 1.82MPa: >300 °C

    Download the material technical specifications:

  • 3D Systems Figure 4 Hi Temp 300 AMB

    High temperature resistant stator in Figure 4 HI TEMP 300-AMB plastic for testing and use in high heat environments.

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  • Advantages of Plastic 3D Printing

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