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Polymer Additive

Evonik 6100

Evonik 6100 is a premium material designed for producing detailed, high-quality components with superior mechanical properties.

Material Overview

Known for its exceptional tensile strength, toughness, and impact resistance, Evonik 6100 is ideal for demanding applications across aerospace, automotive, and electronics industries. In addition to its durability, the material offers outstanding chemical and thermal resistance, making it versatile for various challenging environments. INFINAM® ST 6100 L also delivers exceptional surface finish and accuracy, ensuring top-tier results for precision parts.

Key Features:

  • Durable and Tough: Evonik 6100 provides excellent toughness and durability, ensuring long-lasting performance for industrial applications.
  • High Tensile Strength with Elongation: Combines high tensile strength with flexibility, making it ideal for parts that need to withstand both stress and strain.
  • Thermal Resistance: Withstands high temperatures, ensuring stability and performance in heat-intensive environments.
  • High Green Body Strength: Offers solid mechanical integrity right after printing, making post-processing easier and more efficient.
  • Weather Resistant: Exhibits excellent weatherability, allowing it to maintain its performance and appearance even in outdoor conditions.
PropertyASTMMetric Units
Tensile StrengthD638M89 MPa
Modulus of Elasticity, Youngs ModulusD638M3,200 MPa
Elongation at Break (%)D638M6%
Flexural StrengthD790M145 MPa
Flexural ModulusD790M3,400 MPa
IZOD Impact (notched)D256A22 J/m
Heat Deflection Temperature at .45 MPa/66 psi (°C)D648120 °C

HPS Technology

HPS Technology (Hybrid PhotoSynthesis) is an advanced 3D printing technology that combines multiple light sources, such as UV and LED, to cure photosensitive materials during the printing process. By utilizing these different energy sources simultaneously, HPS optimizes the curing process, allowing for faster print speeds, higher resolution, and improved material properties.

Applications

High-Precision, High-Performance

Evonik 6100 combines strength, precision, and thermal resistance, making it an exceptional material for 3D printing parts that require both high mechanical performance and fine detail.

  • Products Requiring Detail and Superior Quality: Perfect for precision parts where accuracy and surface finish are crucial.
  • Molds, Models, and Tooling: Ideal for producing high-quality molds and tools that require mechanical strength and durability.
  • Aerospace, Automotive, and Electronics Components: Well-suited for manufacturing complex components in industries that demand high performance and resilience.

Advantages:

  • High Mechanical Strength: Evonik 6100 offers excellent tensile strength, toughness, and impact resistance, making it ideal for applications requiring durable and long-lasting parts.
  • Thermal Resistance: It can withstand high temperatures, ensuring stability and performance in environments with extreme heat, such as aerospace and automotive applications.
  • Chemical Resistance: This material provides excellent resistance to chemicals, allowing it to maintain its integrity in harsh environments or under exposure to various substances.
  • Precision and Surface Finish: Evonik 6100 delivers exceptional accuracy and a high-quality surface finish, making it suitable for products requiring fine detail and superior quality.
  • Weather Resistance: The material is resistant to weathering, allowing it to perform well in outdoor conditions without degrading.
  • High Green Body Strength: Evonik 6100 has strong mechanical properties immediately after printing, which can reduce the need for extensive post-processing.

Disadvantages:

  • Limited Flexibility: While the material is strong and tough, it lacks flexibility, making it unsuitable for applications that require elastic or flexible parts.
  • Complex Printing Requirements: Due to its advanced mechanical and thermal properties, Evonik 6100 may require precise printing conditions and specialized equipment, which can add complexity to the printing process.
  • Post-Processing Needs: Although it has high green body strength, some applications may still require post-processing for optimal surface finish and dimensional accuracy.

Achieve high-quality finished parts