Faster, Smarter, Cost-Effective
Reduce production costs and print twice as fast as legacy FDM printers with advanced technology that minimizes labor and maximizes efficiency.
The F3300 redefines industrial FDM 3D printing, delivering up to twice the speed and throughput of traditional fused deposition modeling systems. Designed for manufacturing, it enhances productivity, reliability, and part yield through advanced hardware and software technologies. Ideal for applications across automotive, aerospace, rail, general manufacturing, and medical industries, the F3300 sets a new benchmark for efficiency and performance.
Why Stratasys F3300 Industrial FDM 3D Printer?
The F3300™ embodies next-generation FDM® technology, delivering significant advancements in speed, throughput, reliability, and quality. Features like linear motors and encoders enable fast, precise extruder movement, while four extruders with a patented automatic tool changer allow multi-resolution printing and system redundancy. Integrated material dryers eliminate moisture issues, maintaining optimal material properties with precise drying prescriptions. The system’s autocalibration reduces labor and operator input, ensuring seamless operation. Advanced extruder controls and a highly accurate gantry system guarantee precise material application, achieving unmatched repeatability and high-quality production parts.
3D Printer – Stratasys F3300 Features
Print with Benchmark Reliability.
Large Intuitive User Interface
Easy accessibility starts with an ample printer control touchscreen with two internal camera views and large color displays of extruder, material, and print status.
More Customer-Replaceable Units
The F3300 includes more customer-replaceable components than legacy FDM systems. This lets you get operational much faster vs. having to wait for field support to replace the part should a fault occur.
Front-Mounted Plug-In Extruders
Extruders are conveniently located on the tool changer in the front of the printer for easy accessibility and replacement.
Easy-Access Print Bays
All four print bays are conveniently located in the front of the printer. Loading material is a basic process of placing the spool in the bay and inserting the end of the filament into the feed port.
Autocalibration
Calibrating the printer after a material change is handled automatically in minutes by the printer, requiring no operator input.
Empowering User-Friendly Software
GrabCAD Print™ offers an intuitive, easy, CAD-to-print workflow with features that let you check build file integrity, organize print queues, and get real-time print status notifications.
Get more information about our industrial 3D Printer
Stratasys F190CR Specifications
High-throughput, next-level FDM technology for lower overall cost per part.
System Size and Weight (uncrated) |
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Achievable Accuracy |
+/- .067 mm or +/- .0015 mm per mm, whichever is greater (+/- .0026 in. or +/-.0015 in. per in., whichever is greater) Z part accuracy includes an additional tolerance of -0.000/+ slice height. |
Software |
GrabCAD Print, GrabCAD Print Pro, Insight, MTConnect enabled |
Network Connectivity |
10/100 Base T, Ethernet Protocol, RJ45 connector, IPv6 |
Operating Environment |
System operating temperature shall be in the range of 15 °C to 30 °C (60 °F to 86 °F), with relative humidity range of 20% to 80% non-condensing. |
Extruder Hot End Sizes |
Model Material
Support Material
Layer Thickness
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Noise Emission (Acoustic) |
<65 dBA when idle and in operation |
Onboard Cameras |
Two (2) cameras – front-mounted showing extruder level and rear-mounted showing full chamber view |
Regulatory Compliance |
CE (Machinery Directive & EMC) 2006/42/EC, cTUVus, FCC Part B |
Power Requirements |
208V, 3 PH, 30A dedicated circuit, 50/60 Hz, 5-wire (L-L-L-N-G) |
Facility Requirements |
Compressed Air: 90-110 psi with 14 CFM minimum flow |
Installation Requirements |
Forklift required for uncrating, installation and movement. Crated Dimenions:
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Enough Talk Let’s Build Something Together
Industries
Industries We Serve with 3D Printing & Advanced Manufacturing
Rapid Prototyping
Functional Prototyping
Tooling
Injection Molding
Jigs and Fixtures
Production Parts
Rapid Prototyping
Functional Prototyping
Concept/ Injection Modeling
Orthodontic Models
Cast Partial Frames
Implant Models
Surgical Guides
Preclinical Testing
Clinical Training Models
Medical Manufacturing
Surgical Planning Models
Research
Rapid Prototyping
Tooling
Jigs and Fixtures
Production Parts
Spare Parts
Designing Art Installations
Modern Sculptures
Character And Prop Design
Materials available for the Stratasys F3300 FDM
Learn more about Stratasys F3300 FDM materials
ASA
ASA provides the right characteristics to satisfy a wide range of applications from prototyping to production parts.
PC (Polycarbonate)
PC offers durability, stability and heat resistance for higher-capability applications like functional prototyping.
FDM Nylon 12CF
Combining chopped carbon fibers with a base nylon polymer results in this very strong and stiff composite material.
ULTEM™ 9085 Resin
This PEI polymer offers excellent physical and mechanical properties for demanding applications.
