Since its launch again in 2019, INTAMSYS’ flagship FUNMAT PRO 610HT 3D printer has confirmed itself to be an industrial powerhouse. Sporting a large-format construct quantity measuring 610 x 508 x 508mm, the high-performance FFF system is the agency’s most feature-packed but. It presents a twin extrusion setup with nozzle temperatures of as much as 500°C, in addition to an enclosed construct chamber able to sustaining 300°C.

Constructed particularly for large-scale end-use practical elements, the machine is designed to course of the highest-performance engineering polymers in the marketplace, together with PEEK, ULTEM(PEI), and PPSU. The producer has now shared particulars of the FUNMAT PRO 610HT’s genesis story, and the way 3D printing within the growth course of paved the best way for shorter lead instances, decrease prices, and a profitable launch.

“Everyone knows how complex it is to transform an idea into reality. At INTAMSYS, we go through the same obstacles as everybody else, therefore, we discover a way to overcome them. We develop, research and produce 3D printing equipment quicker than our rivals.”

Founder of INTAMSYS


Fifteen 3D Printed Internal Components

Tight temperature control capabilities were always a key requirement with the FUNMAT PRO 610HT, as is the case with all of INTAMSYS’ high-temperature systems. But building a machine with a 300°C build chamber is a tricky endeavor, as the internal components of the system need to be tested at equally high temperatures.

Thanks to the company’s existing portfolio of industrial 3D printers, the team was able to prototype many of these internal components in-house using engineering filaments. This eliminated the need to resort to metal prototypes, saving on costs.  According to INTAMSYS, if they had outsourced functional prototyping to a third-party metal manufacturer, they would’ve only been able to test up to three prototypes per component. By keeping operations in-house, some of their parts were tested in over a dozen different iterations with minor design changes between them.

With such streamlined lead times, this also led to 3D printed end-use parts. Some of the system’s internal components were 3D printed on-demand and fed into the production cycle on a rolling basis, greatly reducing INTAMSYS’ reliance on external suppliers. Today, there are a total of 15 different 3D printed production parts installed in every FUNMAT PRO 610HT unit.


Technology – Fused Filament Fabrication (FFF)

Build volume 610 x 508 x 508mm

Position accuracy – 12.5μm x 12.5μm x 1.25μm (X x Y x Z)

Build platform – Vaccum Absorbtion Platform

Supported files – STL, OBJ

Layer thickness – 0.15 – 0.3mm

Heated build plate maximum temperature – –°C

High temperature extruder maximum temperature – 500°C

Build chamber atmospheric temperature – 300°C

Compatible materials – PEEK/PEEK-CF/PEEK-GF/PEKK/ULTEM
ASA/ABS/HIPS/Carbon Fiber-Filled/GlassFiber-Filled/ESD-Safe, etc.

Filament diameter – 1.75mm

Get Started 3D Printing Like a Pro

This open platform is one of the key factors in selecting your preferred material, and have a choice because users have control over all parameters including filaments’ properties and printer settings. We encourage you to get in touch with us today for more details on how to get one of the top modernized 3D printers in your office or facility — INTAMSYS FUNMAT HT.

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