F1W Professional Printer





Professional FDM printer, designed for high-precision and industrial applications.
Engineered to meet all the requirements of professional and industrial processes where high-precision or technical polymers, thanks to its unique motion system and high temperature hotend and heated bed.
F1W will give your product the importance it deserves without compromises or wastes of time.
- External structure in Peraluman 5083 alluminum alloy built with 10mm thick milled plates with H7 centering pins.
- HIgh precision movement system built on industrial grade ball bearing guides and screws. Axis positioning repeatability + – 0.005 mm.
- E3D Titan Aero extruder and Full-metal E3D v6 hotend designed for high temperatures (up to 550° C) and interchangeable nozzles (standard 0.4 nozzle in hardened steel that allows also the printing of high abrasion materials such as carbon addicted polymers).
- High temperature E3D heated bed reaching temperatures up to 200 °C with excellent heating times and thermal stability.
- Optimized material cooling system
- Super Whopper E3D stepper motors with 8.2 Kg / cm torque and 2A / phase current. The motors are driven by Trinamics drivers designed to withstand high currents, automatic interpolation (up to 256 microstep) and stall detection for step loss compensation.
- Sensorless end stop system – does not use mechanical parts to ensure durability and accuracy over time.
- Automatic Z-axis height calibration with an inductive sensor. It allows to calculate a precise map of the heights in different points of the printing plane and automatically adjust the movements of the print head to compensate any difference in the flatness of the surface.
- Aluminum printing surface with Gekofeet top to ensure the best adhesion of all materials without the need for aids. The plate is flexible and is secured to the printing plate by a matrix of magnets that hold it firmly in place. The piece can be removed easily by bending the plate.
- Network control system via ethernet network or using the integrated 7” LCD monitor. Remote management of the print queue and status with Octoprint.
Filaments
From our partner FiloAlfa
Applications:
- Mounting brackets
- Small enclosures
- Various mechanical
Advantages:
- Shock resistant
- Low temperatures resistant
- Can be machined and sanded after printing
- Warping temperature over 97 °C
Printing Parameters:
- Extruder: 250 – 290 °C
- Heating bed: 80 – 100 °C
- Printing speed: 30 – 60 mm / s
Applications:
- Fast prototyping
Advantages:
- Very easy to print
- Printing speed up to 120 mm / s
- No shrinkage in printing
- Non toxic and odorless
- Biodegradable
Printing Parameters:
- Extruder: 170 – 210 °C
- Heating bed: 0 – 50 °C
- Printing bed: 40 – 120 mm / s
Hardness
- Soft: Shore A 21
- Medium: Shore A 90
- Hard: Shore D 55
Applications:
- Gaskets
- Flexible joints
- Cushioning systems
Advantages:
- Certified raw material
- Wear resistant
- Tear resistant
- Oil, fat, acid, alkali resistant
- High temperature resistant
- Excellent chemical adhesion to ABS, PBT, PC, PC/ABS, TPU, EVA, metal (raw and painted)
- Excellent layer adhesion
Printing Parameters:
- Extruder: 190 – 210 °C
- Heating bed: 0 – 50 °C
- Printing speed: 10 – 30 mm / s
Hardness
- Shore D 27
Applications:
- Soft artefacts for medical use
Advantages:
- Medical certification USP XXXIII:2009 Class VI and ISO 10993-4/5/10
- Highly elastic (traction elongation up to 800%)
Printing parameters:
- Extruder: 210 – 230 °C
- Heating Bed: 0 – 70 °C
- Printing Speed: 40 – 60 mm / s
Applications:
- Mounting brackets
- Small enclosures
- Various mechanicals
Advantages:
- Shock resistant
- Low temperatures resistant
- Can be machined and sanded after printing
Printing Parameters:
- Extruder: 240 – 260 °C
- Heating bed: 70 – 90 °C
- Printing speed: 30 – 60 mm / s
Applications:
- Outdoor and nautical
Advantage:
- Easy to print
- Excellent finishing
- UV and hydrolysis resistant, even in salt water
- Can be machined and sanded after printing
- If heat-treated after printing gets a higher melting temperature and becomes harder
Printing parameters:
- Extruder: 190 – 210 °C
- Heating bed: 0 – 70 °C
- Printing speed: 40 – 120 mm / s
Applications:
- Complex prototyping
Advantages:
- Easy to print
- Excellent finishing
- High thermal conductivity
- Non toxic and odorless
- Graphene+ addicted
- Excellent mechanical strength
Printing parameters:
- Extruder: 170 – 210 °C
- Heating bed: 0 – 50 °C
- Printing speed: 40 – 120 mm / s
Applications:
- Mechanical parts for automation and robotics
- Replacement for mechanical parts subject to wear
- Mechanical parts for body shops
Advantages:
- Chemically inert
- Self-extinguishing
- Machinable after printing
- Metal Replacement
Printing parameters:
- Extruder: 310 – 350 °C
- Heating bed: 70 – 110 °C
- Printing speed: 20 – 60 mm / s
Applications:
- Support for Thermec Z3D printing
Printing parameters:
- Extruder: 240 – 260 °C
- Heating bed: 70 – 90 °C
- Printing speed: 40 – 75 mm / s
Applications:
- Aesthetic parts
Advantages:
- Easy to print
- Shiny and see-through finishing brillante e trasparente
- Shock resistant
- Machinable after printing
Printing parameters:
- Extruder: 210 – 230 °C
- Heating bed: 70 – 90 °C
- Printing speed: 70 – 90 mm / s
Applications:
- Electromechanical parts
Advantages:
- Easy to print
- Electro conductive
- Non toxic and odorless
Printing parameters:
- Extruder: 200 – 220 °C
- Heating bed: 0 – 50°C
- Printing speed: 20 – 40 mm / s
Applications:
- Mechanical parts for automation and robotics
- Mechanical parts subject to wear
Advantages:
- Excellent mechanical resistance
- Resistant to high temperatures
- Easy to print
- Machinable after printing
- High rigidity
Printing Parameters:
- Extruder: 240 – 260 °C
- Heating bed: 0 – 80 °C
- Printing speed: 30 – 60 mm / s
Applications:
- Model making
- Parts subjected to frequent stresses
Advantages:
- Easy to print
- Odorless
- Shiny and see-through finishing
- Shock resistant
Printing parameters:
- Extruder: 230 – 250 °C
- Heating bed: 0 – 70 °C
- Printing speed: 40 – 60 mm / s
Applications:
- Light and mechanical parts subject to wear
- Automotive
Advantages:
- Shock resistant
- Resistant to wear
- Shiny finishing
- Suitable for chrome plating
Printing parameters:
- Extruder: 240 – 260 °C
- Heating bed: 80 – 110 °C
- Printing speed: 30 – 60 mm / s
Applications:
- Electrotechnical prototyping
- Parts to be used in dangerous environments
Advantages:
- Shock resistant
- Antistatic (10^8 Ohm)
- Machinable and buffable after printing
Printing parameters:
- Extruder: 240 – 260 °C
- Heating bed: 70 – 90 °C
- Printing speed: 40 – 60 mm / s
Applications:
- Parts to be used in dangerous environments
Advantages:
- Shock resistant
- Self extinguishing (UL94 V0)
- Buffable
- Resistant to low temperatures
Printing parameters:
- Extruder: 240 – 260 °C
- Heating bed: 80 – 110 °C
- Printing speed: 30 – 60 mm / s
Applications:
- Parts to be used outdoor
- Automotive
Advantages:
- Shock resistant
- UV resistant
- Weatherproof
- Low shrinking
Printing parameters:
- Extruder: 240 – 260 °C
- Heating bed: 70 – 90 °C
- Printing speed: 30 – 60 mm / s
Applications:
- Mechanical parts subject to wear
- Gears
Advantages:
- Shock resistant
- Resistant to chemical agents
- Excellent mechanical properties
- Self-lubricating
Printing parameters:
- Extruder: 210 – 240 °C
- heating bed: 60 – 80 °C
- Printing speed: 30 – 50 mm / s
Applications:
- Mechanical parts for robotics and automation
- Mechanical parts subject to wear
Advantages:
- Shock resistant
- High performance
- Abrasion resistant
- Addicted with Carbon Fiber
Printing parameters:
- Extruder: 250 – 260 °C
- Heating bed: 60 – 70 °C
- Printing speed: 30 – 50 mm / s