ESA and Zortrax 3D Print PEEK Composites for Built-in Electronics
Polish 3D printing solutions provider Zortrax has been working with the European Space Agency (ESA) for the last year to figure out how to use 3D printing to fabricate high-performance composite parts out of two different PEEK (polyetheretherketone) filament blends, and the two have finally reached a milestone in the project.
At the recent FabAddComp scientific conference in France, the ESA revealed during the keynote that the industrial Zortrax Endureal printer, which features dual extruders, is able to print models using two space-grade PEEK polymers, and so can support 3D printing components with built-in electronics and electrical circuits.
The Zortrax Endureal is a third generation industrial LPD Plus 3D printer, with a 400 x 300 x 300 mm build space, and featuring over 30 built-in sensors that work in real-time to guarantee uninterrupted operation in high-tech manufacturing and product development projects. Often used to fabricate components out of high-performance polymers like Z-PEI 9085 and PEEK-based materials already, the Endureal’s dual extrusion technology is typically used to print a model and its support structures out of two different materials. But, the aerospace sector is seeing a higher demand for 3D printed composite parts featuring two high-performance polymers, which is what the ESA and Zortrax have just done.
NASA has used Zortrax systems in the past to make tools, so the company’s printers are clearly able to handle aerospace applications already. But now, the ESA has developed an experimental, electrically conductive PEEK material blend, which Zortrax used, together with pure PEEK, to create 3D printed proof of concept composite models, featuring simple electricity, on its Zotrax Endureal.
Together with the ESA, Zortrax has successfully 3D printed what it’s calling “the world’s first data transfer device” entirely out of PEEK polymers.
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The Zortrax Endureal system is divided into three separate thermally isolated zones: the print chamber, the filament compartment, and the extruder compartment. It was an impressive printer already, with automated annealing and advanced filament sensors, but for the ESA project, the company’s engineering team worked to make it even better. In addition to updating the software and firmware, the industrial printer can now achieve better dimensional accuracy thanks to increased rigidity of the extrusion system, and additional tweaks to the hardware have enabled the Endureal to reach even higher operating temperatures; for instance, the maximum extrusion temperature is now 480°C. Users can now precisely define the temperature in the print chamber, which can now reach 200°C, and the PEI film-covered aluminum built platform can get up to 220°C, which helps decrease material shrinkage and warping.
As a bonus for other customers, Zortrax has implemented all of the changes and improvements in the design of the Endureal to all commercially available systems, in order to ensure dual extrusion 3D printing of composite models with pure and conductive PEEK. What this also means is that the technology could eventually make it into space one day, expanding the possibilities of what can be manufactured aboard the ISS or even on potential bases on the Moon.
via 3DPrint.com | The Voice of 3D Printing / Additive Manufacturing https://3dprint.com
October 16, 2020 at 07:32AM