Intamsys Funmat HT
About
Parts manufactured with the material extrusion 3D printing method from various polymeric materials from common to high-performance ones.
Description
A 3D printer operating with the material extrusion (MEX) 3D printing method for the manufacturing of various types of parts with various polymeric materials. This 3D printer supports open access materials and can 3D print parts by using a long list of polymeric materials, such as ABS, PLA, PA12 and many other. It also supports the production of parts with high-performance polymers, such as PEEK, since it can reach nozzle temperature of 450 °C. These specifications make the 3D printer ideal for the prototyping of parts, which are common in the industry and more importantly for functional parts, with the 3D printing production method which enables the production of complex geometries, without geometrical limitations. A general use 3D printer for everyday use.
Homepage: https://www.intamsys.com/funmat-ht-3d-printer/
Technical specifications:
Printing Technology Fused Filament Fabrication (FFF)
Machine Size 543×501×663mm (21.4×19.7×26.1in)
Build Volume 260×260×260mm (10.2×10.2×10.2in)
Build Platform PI Sheet Heating + Ceramic Glass
Leveling Automatic Leveling
Layer Thickness 0.05-0.3mm
Max Travel Speed Max. 300mm/s
Extruder Temperature Max. 450℃/842℉ with an all-metal hot end
Platform Temperature Max. 160℃/320℉
Chamber Temperature Max. 90℃/194℉
Input File Type STL/OBJ
Filament Diameter 1.75mm
Position Resolution XY: 12.25μm Z: 1.25 μm
Motor Drive High Performance Independent Drivers
Safety Certification FCC/SGS/CE
Supported Materials PEEK/PEEK-CF/ PEEK-GF/PEKK/ULTEMTM (PEI)*/PPSU*/PC/PC Alloys/PA/PA-CF/ASA/ABS/HIPS/TPU/PETG/PLA/Carbon Fiber-Filled/Glass Fiber-Filled/ESD-Safe, etc.
Case study:
An INFRACHIP user aims to produce various parts using different polymeric materials, including high-performance polymers like PEEK, for prototyping and functional applications. The INFRACHIP access aids the user’s research by providing state-of-the-art semiconductor technologies, which can optimize the printer’s performance, enhance material compatibility, and improve printing efficiency.
Optional:
https://doi.org/10.1007/s00396-024-05229-y ,
https://doi.org/10.1007/s13204-023-02966-4 ,
https://doi.org/10.3390/polym15244717 (among many others)
Access Provider / Facilities
