F3300 Industrial FDM® 3D Printer

The F3300 is a large, production scale system and requires appropriate space, handling equipment, and utilities. The printer measures 2,073 mm (81.6 in.) wide, 1,689 mm (66.5 in.) deep and 2,210 mm (87 in.) tall (or 2,393 mm / 94.2 in. tall with the light tower ) and weighs about 3,000 lbs. (1,360 kg), so sufficient floor space, ceiling clearance, and door access are required for delivery and installation. The system has no casters, so a forklift rated for 3,000 lbs. or greater is required for uncrating, installation, or relocation; a pallet jack may be used only on level surfaces.  Utility requirements include a 208V, 3 phase, 30A dedicated electrical circuit (50/60 Hz, 5 wire L L L N G), compressed air at 90–110 psi with a minimum flow of 14 CFM, and network connectivity via 10/100 Base T Ethernet (RJ45, IPv6 supported).

The build chamber is 600 mm x 600 mm x 800 mm (23.6” x 23.6” x 31.5”) which equals 0.288 cubic meters (10.16 cubic feet).  This capacity allows users to produce large parts or maximize throughput by printing multiple parts within a single build.

The F3300 supports a broad range of engineering‑grade thermoplastics for production, including ASA, PC, nylon and carbon fiber‑reinforced materials such as Nylon 12CF, as well as ULTEM™ 1010 and ULTEM™ 9085 resins. Stratasys continues to expand the material portfolio to address an increasing range of industrial and production‑level applications.

The F3300 is significantly faster than traditional FDM systems, offering up to two times or greater throughput compared to legacy platforms. Its high-speed gantry system, combined with optimized extrusion and motion control, enables faster build times and increased production capacity.

The F3300 features a fully automated calibration system that continuously monitors printhead alignment and overall system performance. Using onboard sensors and advanced software algorithms, the printer makes real-time adjustments during operation. This eliminates the need for manual calibration and helps maintain consistent print quality.

Unlike many industrial 3D printers that require periodic manual calibration, the F3300 performs continuous, in-process calibration. This approach reduces downtime, minimizes the potential for human error, and ensures consistent output across long production runs. As a result, users benefit from higher uptime and more predictable performance.

The F3300 is engineered to reduce cost per part compared to legacy FDM systems. Increased throughput, improved material efficiency, reduced labor requirements, and higher part yield all contribute to a lower total cost of ownership and more economical production.

The F3300 delivers high dimensional accuracy suitable for production environments. Depending on part geometry and material selection, typical accuracy is around +/- 0.089 mm (+/- 0.0035 in.) or +/- 0.0015 mm/mm (+/- 0.0015 in./in.) whichever is greater. Z part accuracy +/- 0.200 mm (+/- 0.008 in.) or +/- 0.002 mm/mm (+/- 0.002 in./in.) plus 1 layer height. The system is also designed for strong repeatability, which is critical for batch manufacturing.

Multi-resolution printing allows the F3300 to vary layer height within a single part. This means finer resolution can be applied to areas requiring high surface quality, while thicker layers can be used in less critical regions to improve speed. The result is an optimal balance between part quality and production efficiency.

Yes.  The F3300 includes integrated material management (onboard dryers) with temperature and humidity controlled storage conditions to help maintain material quality. This is particularly important as it helps ensure consistent print performance and reduces the risk of defects caused by moisture.