USA & Canada
USA & Canada

F3300

Industrial FDM 3D Printer
The F3300 establishes a new standard in FDM industrial 3D printing, with up to twice the speed and throughput of standard fused deposition modeling 3D printers. As a 3D printer designed for manufacturing, the F3300 boosts productivity, print reliability and part yield with advanced hardware and software technology. These capabilities combine to efficiently address many applications in industries including automotive, aerospace, rail, general manufacturing, and medical.

F3300 3D Printer Features & Benefits

Benefits
F3300 benefits

The F3300 industrial FDM printer is designed with advanced technology to meet today’s manufacturing challenges.

  • check The F3300 lowers your overall cost per part through faster print speed, more efficient material costs and increased part yield.
  • check Increase your throughput by printing at up to twice the rate of other extrusion 3D printing systems.
  • check Boost your print reliability to increase part yield and enable predictable performance, a must-have in a production environment.
  • check Lower your 3D printing labor with the F3300’s ease of use including autocalibration, eliminating time-intensive manual calibration.
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Features
F3300 benefits

The F3300 reinvents FDM technology with new features that increase productivity while lowering cost and labor.

  • check Faster gantry speeds enable faster point-to-point material deposition for faster print speeds and reduced time-to-part.
  • check Multiple extruders provide redundancy for higher reliability and eliminate non-print time typical with single-extruder thermal cycling.
  • check The autocalibration feature eliminates the time previously needed to do manual calibration after a material change.
  • check Multi-resolution printing uses small and large bead thicknesses in the same print job to expedite the time required to complete the part.
  • check Faster extrusion rates enabled by new extruder technology contribute to faster print speeds and greater throughput.
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The F3300 uses a selection of materials that address high-use applications in the additive manufacturing environment. They include widely used durable engineering thermoplastics such as ASA as well as higher-performing materials like cabon fiber nylon and ULTEM™.

ASA material

ASA

ASA provides the right characteristics to satisfy a wide range of applications from prototyping to production parts.

FDM Polycarbonate PC

PC (Polycarbonate)

PC offers durability, stability and heat resistance for higher-capability applications like functional prototyping.

Nylon 12CF

FDM Nylon 12CF

Combining chopped carbon fibers with a base nylon polymer results in this very strong and stiff composite material.

FDM ultem 9085 material

ULTEM™ 9085 Resin

This PEI polymer offers excellent physical and mechanical properties for demanding applications.

ASA material

ASA provides the right characteristics to satisfy a wide range of applications from prototyping to production parts.

FDM Polycarbonate PC

PC offers durability, stability and heat resistance for higher-capability applications like functional prototyping.

Nylon 12CF

Combining chopped carbon fibers with a base nylon polymer results in this very strong and stiff composite material.

FDM ultem 9085 material

This PEI polymer offers excellent physical and mechanical properties for demanding applications.

Typical Applications

All Applications

The F3300 brings industrial FDM printing to manufacturing to cover the full breadth of additive manufacturing applications for greater time and cost efficiency. This includes fast prototyping, customized tooling and cost-effective production parts.

Prototyping

Prototyping

Solve design challenges with faster prototyping before committing to expensive and time-consuming tooling and production.

tooling

Tooling

Avoid the high cost and long lead time of machined tools with 3D printed jigs, fixtures and custom manufacturing aids.

FDM production part

Production Parts

FDM technology offers a cost-effective means of producing end-use parts in low-volume/high-mix applications.

Prototyping

Solve design challenges with faster prototyping before committing to expensive and time-consuming tooling and production.

tooling

Avoid the high cost and long lead time of machined tools with 3D printed jigs, fixtures and custom manufacturing aids.

FDM production part

FDM technology offers a cost-effective means of producing end-use parts in low-volume/high-mix applications.

Printer Specifications

Download spec sheet

  • Build Size
  • Build Resolution
  • Materials
  • Printer dimensions/ weight
  • Brochure
  • Build Size 600 x 600 x 800 mm (23.6 x 23.6 x 31.5 in.)
  • Build Resolution (varies by material – see Product Specifications for detailed information)

    0.188 mm (0.007 in.)
    0.250 mm (0.010 in.)
    0.500 mm (0.020 in.)
  • Materials ASA (with SR-35 soluble support material)
    Polycarbonate (with SR-110 soluble support material)
    ULTEM™ 9085 resin (with SUP8500B breakaway support material)
    FDM Nylon 12CF (with SR-110 soluble support material)
  • Printer dimensions/ weight Height (including light tower): 236.2 cm (93 in.)
    Width: 203.2 cm (80 in.)
    Depth: 162.6 cm (64 in.)
    Weight: 1360 kg (3000 lbs)
  • Brochure Download brochure
grabcad print image

GrabCAD Print Software

Simplify your 3D printing workflow with powerful and intuitive software.

GrabCAD Print software is what makes Stratasys 3D printers go, providing the features and flexibility to make 3D printing easy and understandable. At its core, GrabCAD Print software removes the friction of going from a CAD model to a physical 3D printed part and speeds up the process. You designed the part, now let GrabCAD Print software do the rest to make it a reality.