Skip to main content
Polymer Additive

9120Flex

9120Flex is a premium SLA (Stereolithography) material designed to replicate the properties of engineering plastics, elastomers, and composites.

Material Overview

Known for its flexibility, high-impact strength, and precision, 9120Flex performs exceptionally well in diverse temperature and humidity conditions, ensuring reliability and durability both during the manufacturing process and in end-use scenarios.

Key Features:

  • Flexible: Provides excellent elasticity, making it perfect for parts that require movement or bending, such as snap-fits and flexible enclosures.
  • High-Impact Strength: Built to withstand mechanical stress and impacts, ensuring parts remain durable in demanding environments.
  • Accurate: Delivers high precision and dimensional stability, ensuring complex and detailed parts are produced with exacting tolerances.
  • Temperature & Humidity Resistance: Performs consistently across a wide range of temperatures and humidity levels, making it suitable for various industrial applications.
PropertyASTMMetric Units
Tensile StrengthD638M26 MPa
Modulus of Elasticity, Youngs ModulusD638M276-703 MPa
Elongation at Break (%)D638M27%
Flexural StrengthD790M26 MPa
Flexural ModulusD790M690 MPa
IZOD Impact (notched)D256A59 J/m
Heat Deflection Temperature at .45 MPa/66 psi (°C)D648454 °C

SLA Technology

SLA (Stereolithography) is a cutting-edge 3D printing technology that uses a UV laser to cure liquid resin into highly detailed and precise solid parts. Known for its ability to create smooth, accurate, and complex designs, SLA is widely used across industries for a variety of applications, from prototyping to final-use parts.

Applications

High-Performance and Flexible

9120Flex is ideal for applications ranging from plastic bottles and packaging to automotive panels, electronic enclosures, medical products, and snap-fits.

  • Flexible: Provides excellent elasticity, making it perfect for parts that require movement or bending, such as snap-fits and flexible enclosures.
  • High-Impact Strength: Built to withstand mechanical stress and impacts, ensuring parts remain durable in demanding environments.
  • Accurate: Delivers high precision and dimensional stability, ensuring complex and detailed parts are produced with exacting tolerances.
  • Temperature & Humidity Resistance: Performs consistently across a wide range of temperatures and humidity levels, making it suitable for various industrial applications.

Advantages:

  • Plastic Bottles & Packaging: Ideal for creating flexible, durable packaging solutions that can endure stress and handling.
  • Automotive Panels: Provides flexibility and impact resistance for automotive parts that need to bend without breaking.
  • Electronic Enclosures: Perfect for housing and protecting sensitive electronics while allowing flexibility in design.
  • Medical Products: Suitable for producing flexible medical components and devices that require durability and precision.
  • Snap-Fits: Excellent for parts that require repeated movement and flexibility, such as snap-fit assemblies and components.

Disadvantages:

  • Superior Flexibility & Strength: Combines flexibility with high-impact resistance, making it ideal for parts that must endure repeated stress and handling.
  • Precision & Accuracy: Offers outstanding dimensional stability, ensuring complex parts meet exacting design specifications.
  • Environmentally Resilient: Performs reliably under varying temperatures and humidity levels, ensuring parts maintain their integrity in challenging environments.
  • Versatility: Suitable for a broad range of industries, from automotive to medical, offering flexibility in both design and application.

Achieve high-quality finished parts