DEED 3D is the largest platinum partner of  ” Stratasys ”  in Asia, with more than 17 years of leading 3D printing technology and services.

Industrial-grade FDM Thermoplastic (high-performance thermoplastic)

High-performance thermoplastic – These materials provide excellent performance and durability in a variety of industrial applications.

Click on the material name below to view the corresponding material introduction  ↓  

FDM PEI Thermoplastic (Ultem-9085)

Stratasys – Introduction to Ultem9085 3D Printing Materials


ultem9085 - FDM 3D printing materialUltem 9085 is a high-performance thermoplastic resin widely used in industrial-grade 3D printing. It is an FDM (Fused Deposition Modeling) material from Stratasys that offers exceptional strength, heat resistance, and chemical resistance for a variety of demanding applications.

The main purpose

  • Ultem 9085 material is widely used in multiple industries and applications due to its outstanding properties. Here are the main uses of Ultem 9085:

  • Automotive industry: Ultem 9085 is suitable for the manufacture of auto parts, such as body structures, interior parts, hoods and air intakes. Its high strength and high temperature resistance make it ideal for functional verification and prototyping by automotive engineers.

  • Aerospace industry: Ultem 9085 is lightweight, high strength and high temperature resistant, making it ideal for aerospace applications. It can be used to manufacture aircraft internal components, aviation equipment and spacecraft components, etc.

  • Industrial manufacturing: Ultem 9085 can be used to manufacture wear parts, fixtures, molds and custom tooling for industrial equipment. Its high temperature resistance and chemical resistance make it ideal for industrial applications.

Brief description of material parameters

  • Color options: Black, Tan (this is currently the only color for DEED 3D)
  • Ultimate Tensile Strength: 69MPa(9950PSI)
  • (HDT)Heat Deflection Temperature: 153°C(307°F)

Downloads

Ultem-9085 Material Datasheet

FDM PEI Thermoplastic (Ultem-1010)

Stratasys – Introduction to Ultem1010 3D Printing Materials


ultem1010 - FDM 3D printing materialUltem 1010 is a high-performance thermoplastic resin for Stratasys’ FDM (Fused Deposition Modeling) 3D printing technology. This material offers exceptional strength, heat and chemical resistance, as well as excellent wear resistance and electrical insulation.

The main purpose

  • Aerospace industry: Ultem 1010 is suitable for various applications in the aerospace field, including the manufacture of aircraft internals, aviation equipment and spacecraft components. Its high strength, high temperature and chemical resistance make it ideal for aerospace engineers.

  • Medical field: Ultem 1010 is a material that meets the medical industry standard and can be used in the manufacture of medical equipment, surgical instruments and customized medical devices. It is biocompatible, high temperature and chemical resistant for the harsh requirements found in medical environments.

  • Industrial manufacturing: Ultem 1010 can be used to manufacture wear parts, fixtures, molds and custom tooling for industrial equipment. Its wear resistance, high temperature resistance and electrical insulating properties make it ideal for industrial manufacturing.

Brief description of material parameters

  • Color options: Amber (Natural) 
  • Layer thickness: 0.178 mm (0.007 in)
  • Density: 1.27 g/cm3
  • Melting temperature: about 350°C (662°F)
  • Flexural Modulus: 2.8 GPa (406,000 psi)
  • Tensile Strength: 72 GPa (10,400 psi)

Downloads

Ultem-1010 Material Datasheet

FDM 3D Printing Carbon Fiber Thermoplastic(Nylon 12CF)

Stratasys – Introduction to Nylon 12CF 3D Printing Materials


FDM 3D Printing Carbon Fiber Thermoplastic - Nylon 12CF

FDM Nylon 12 Carbon Fiber (Nylon 12CF) combines Nylon 12 and chopped carbon fiber to achieve the highest flexural strength and stiffness-to-weight ratio of any FDM material. Nylon 12CF also provides a cleaner carbon fiber additive process than SLA with equivalent strength properties.

Lightweight Strength:

The strength and rigidity to replace metal in certain applications. Replace heavy metal tools with lighter, ergonomic carbon fiber FDM tools. Validate designs faster with carbon fiber functional prototypes instead of costly and time-consuming metal prototypes.

 

The main purpose

  • Automotive Industry: Nylon 12CF can be used to manufacture automotive components such as body structures, chassis assemblies, and interior parts. Its excellent strength and stiffness-to-weight ratio make it an ideal choice for automotive engineers for functional validation and rapid prototype development.
  • Aerospace Industry: Nylon 12CF offers outstanding strength and stiffness, making it highly suitable for the aerospace sector. It can be used to manufacture lightweight aircraft components, aerospace equipment, and spacecraft assemblies.
  • Industrial Manufacturing: Nylon 12CF can be employed to produce wear-resistant parts, fixtures, and custom tooling for industrial equipment. By utilizing this material, you can save weight, enhance strength, and achieve higher production efficiency.

Brief description of material parameters

  • Color options: Black
  • Layer Thickness: 0.178 mm (0.007 inches)
  • Density: 1.31 g/cm³
  • Flexural Modulus: 6.6 GPa (957,000 psi)
  • Tensile Strength: 94 MPa (13,600 psi)

Downloads

Nylon 12CF Material Datasheet

High-Performance PEKK Polymer(Antero 800NA)

Stratasys – Introduction to Antero 800NA 3D Printing Materials


High-Performance PEKK Polymer(Antero 800NA)

Antero 800NA is one of Stratasys’ PEKK materials, known for its exceptional physical and mechanical properties. It combines toughness and wear resistance with high strength, heat resistance, low outgassing, and superior chemical resistance. These qualities make it a valuable material for aerospace applications and other industries that require durability and weight reduction.

Cost Savings through FDM Design Freedom:

Antero 800NA combines the advantages of PEKK with the design freedom offered by FDM, enabling the production of complex geometries without the constraints of traditional machining methods. 3D printing with PEKK also reduces material waste by using it only where necessary, resulting in cost savings compared to the substantial waste associated with machining PEKK

The main purpose

  • Aerospace Industry: Antero 800NA’s high strength and heat resistance make it an ideal choice for aerospace applications. It can be used to manufacture spacecraft components, engine parts, and other critical structures that require performance in extreme environments.

  • Medical Field: Antero 800NA can be utilized in the production of medical devices and surgical tools, offering chemical resistance and wear resistance. Its high strength and antimicrobial properties make it an excellent choice for the healthcare industry.

  • Automotive Industry: Antero 800NA can be employed in the manufacturing of automotive components such as engine covers, intake manifolds, and hydraulic system components. Its heat resistance and chemical stability make it suitable for the demanding automotive environment.

Brief description of material parameters

  • Color options: Brown
  • Layer Thickness: 0.178 mm (0.007 inches)
  • Density: 1.25 g/cm³
  • Flexural Modulus: 4.8 GPa (696,000 psi)
  • Tensile Strength: 92 MPa (13,300 psi)

Downloads

Antero 800NA Material Datasheet

FDM PEKK-Based ESD Thermoplastic(Antero - 840CN03)

Stratasys – Introduction to Antero 840CN03 3D Printing Materials


FDM PEKK-Based ESD Thermoplastic(Antero - 840CN03)-min

Antero 840CN03 is a high-performance, PEKK-based electrostatic discharge (ESD) thermoplastic offered by Stratasys. It provides unprecedented strength, heat and chemical resistance, toughness, and serves as a lightweight alternative to metal. With its exceptional properties, Antero 840CN03 is an ideal choice for applications that require static dissipative properties and high-performance capabilities.

Space-Ready Performance:

Experience the space-ready performance of Antero 840CN03 FDM filament, which allows you to produce highly-customized, low-volume parts with consistent static dissipative properties. This material offers excellent chemical resistance and ultra-low outgassing, ensuring optimal performance in demanding environments.

The main purpose

  • Aerospace Industry: Antero 840CN03 is tailored for aerospace applications that demand static dissipative properties and high-performance characteristics. It can be used to manufacture components such as aerospace equipment, satellite parts, and aircraft interiors, ensuring optimal safety and functionality.
  • Electronics Industry: The electrostatic discharge (ESD) properties of Antero 840CN03 make it an excellent choice for the electronics industry. It can be utilized to produce components where protection against static discharge is crucial, such as electronic enclosures, connectors, and fixtures.
  • Industrial Manufacturing: Antero 840CN03 is suitable for industrial manufacturing applications that require static dissipative properties, chemical resistance, and toughness. It can be employed to produce customized, low-volume parts with consistent performance, reducing lead times and costs.

Brief description of material parameters

  • Color options: Brown
  • Layer Thickness: 0.178 mm (0.007 inches)
  • Density: 1.27 g/cm³
  • Flexural Modulus: 3.8 GPa (551,000 psi)
  • Tensile Strength: 77 MPa (11,200 psi)

Downloads

Antero 840 CN03 Material Datasheet

Flame Retardant FDM Filament(Kimya PC-FR)

Stratasys – Introduction to Kimya PC-FR(V0)  3D Printing Materials


Flame Retardant FDM Filament(Kimya PC-FR)

Kimya PC-FR is a flame-retardant polycarbonate FDM 3D printing material. It has been specifically designed to comply with fire safety regulations, making it an excellent choice for applications in passenger rail and air transportation industries. This Stratasys Validated Material combines the advantages of polycarbonate, such as dimensional stability, high impact resistance, and a wide operating temperature range, with flame-retardant properties.

Benefits of Kimya PC-FR:
Kimya PC-FR offers a range of benefits that make it a preferred material for various applications. These benefits include:

Flame-Retardant Properties: Kimya PC-FR meets the requirements of EN 45545, the European railway standard for fire safety. It has been formulated to provide superior flame-retardant properties, ensuring compliance with stringent safety regulations.

Enhanced Strength and Impact Resistance: This material exhibits a 25% increase in tensile yield strength and a remarkable 180% increase in impact strength (Izod unnotched) in the XZ plane compared to standard polycarbonate. This enhanced strength makes it suitable for demanding applications that require robust performance.

Perfect for Transportation Industry:
Kimya PC-FR is an ideal choice for the transportation industry, particularly in applications where fire safety is a critical concern. It meets the HL3 (highest) hazard level within the EN 45545 standard, making it eligible for use in all rail vehicle configurations. Whether for passenger rail or air transportation, Kimya PC-FR provides the necessary flame-retardant properties and performance characteristics.

Brief description of material parameters

  • Color options: grey
  • Layer Thickness: 0.254 mm (0.010 inches)
  • Density: 1.19 g/cm³
  • Tensile Strength: 55 MPa (7,980 psi)
  • Impact Strength: 68 J/m (1.28 ft-lb/in)

Downloads

Kimya PC-FR(V0) Material Datasheet