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Project Imperial Consortium to Create Large Scale 3D Printer for Zero Gravity

Under contract with the European Space Agency, Athlone Institute of Technology will be creating a new, large-scale 3D printer capable of fabricating parts in a zero-gravity atmosphere. The innovative hardware will be used at the International Space Station (ISS) in connection with a European consortium to be known as ‘Project Imperial’ that includes Sonaca Group, BEEVERYCREATIVE, and OHB.

Experts in 3D printing, materials, and associated processes will be leading the consortium:

  • Sean Lyons, Dean of Faculty of Engineering and Informatics
  • Declan Devine, Director of the Materials Research Institute
  • Dr Ian Major, Principal Investigator at the Materials Research Institute

The team of researchers involved with the consortium are tasked with the creation of a high-performance 3D printer (made of high strength, functional thermoplastics) which will then be tasked with making complex geometries even larger than its own frame.

“Traditionally, 3D printers are based around simple materials and applications. They might look the part but they’re not hard or strong enough to be fully functional. Using cutting-edge material science, we’re going to design components that can be modified or configured for printing in zero gravity conditions on board the International Space Station,” explained Dr. Sean Lyons.

“There are several applications for this technology, imagine a door handle breaks on the ISS, it’s not feasible to send a payload from France all the way to the International Space Station with a spare handle. Through Project Imperial, the astronauts on board the ISS will be able to print parts as and when they are required. They’ll also be able to print bespoke parts: say if an astronaut broke their arm and needed a cast plaster, they’ll have the capability to print it in space themselves in-situ.”

3D printing is still a mind blowing, exciting process—often even for the most experienced innovators. And although adding ‘in space’ to the equation takes us to another technological level, it is one that is becoming surprisingly commonplace too due to the benefits in self-sustainability while at a remote location, portability in hardware, software, and materials, and the opportunity to create parts on demand. Other 3D printers and bioprinters have come before the Project Imperial Concept, from companies like Tethers and Made in Space, but it sounds as if this consortium plans to make 3D printing in space a priority, and especially as the experts involved use an uplink connection to the ISS to understand operating constraints better.

“It’s not as simple as if the project was terrestrially-based. We obviously can’t go up to discuss our designs with the astronauts or train them how to use this technology in person,” said Dr. Lyons. “We’ll also have to ensure that the panels are multilingual because you have quite a diverse group on board the ISS.”

“We’re delighted to be collaborating on such seminal research with the European Space Agency and our European partners Sonaca Group, BEEVERYCREATIVE and OHB. It’s an amazing opportunity to demonstrate exactly what we’re capable of and the breadth of skills and expertise on offer at our award-winning institute,” concluded Dr. Lyons.

The team at AIT will also be examining how 3D printing in zero gravity is beneficial; for instance, scaffolds for bioprinting could be fabricated in space and then brought back to Earth for use in surgical procedures on humans. Currently, the researchers suspect that such cell scaffolds would offer better performance medically if they were not made within ‘gravity constraints’ found on Earth.

Project Imperial is scheduled to operate for two years, with ‘payload deployment’ projected for 2021. The consortium expects that new technology produced via this space program will serve as an example of how 3D printing in space creates potential for extra-terrestrial manufacturing, along with new ways to maintain parts and habitats.

High-tech advancements continue to make space travel possible, along with continued activities for astronauts away from terra firma for extended periods of time at the International Space Station (ISS). Over the past few years, we have learned what it will take to colonize both the moon and Mars, along with catching up on the latest 3D printed tools astronauts have been fabricating, or cosmonauts bioprinting.

What do you think of this news? Let us know your thoughts! Join the discussion of this and other 3D printing topics at 3DPrintBoard.com.

[Source / Image: Irish Tech News]

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BEEVERYCREATIVE Continues Work with ESA: New ISS 3D Printer to be Developed

BEEVERYCREATIVE first established an outer space connection in 2016, when the Portuguese company was asked by the European Space Agency (ESA) to develop a breadboard, or prototype, 3D printer for the International Space Station. Project Manufacturing of Experimental Layer Technology, or MELT, was successfully delivered to the ISS last May as a fully functional 3D printer prototype capable of 3D printing in microgravity conditions and utilizing engineering polymers with high end mechanical and thermal properties.

Now BEEVERYCREATIVE has been recruited by the ESA again. Project Imperial, like Project MELT, will be carried out by an international consortium of organizations. It will be led by OHB System AG, one of Europe’s three leading space companies. OHB System has been heavily involved in space manufacturing over the last three years, having participated in Project MELT as well as a study called URBAN, which involved the conception of a lunar base using 3D printing technologies.

The goal of Project Imperial is to design, develop and test a fully functioning 3D printer model that can perform under the requirements of the International Space Station. The printer will use engineering thermoplastics and alleviate build volume constraints. In order to demonstrate the 3D printer’s functionality, several parts will need to be 3D printed and tested. The printed parts, according to BEEVERYCREATIVE, will demonstrate the capability of in-space manufacturing to enable new maintenance and life support strategies for human space flight.

“This new project is a validation of our ability to develop technology in an area, aerospace, which will certainly have a great impact on our future lives,” said Mario Angelo, CTO of BEEVERYCREATIVE.

Also involved in the project will be German space company Sonaca Space GmbH and Ireland’s Athlone Institute of Technology.

Project Imperial is the latest endeavor to advance in-space 3D printing, a long-term project with many participants that began with the first 3D printer delivered to the ISS in 2014. A lot of the news surrounding 3D printing in space relates to that 3D printer and its follow-up, the Additive Manufacturing Facility, manufactured by Made In Space and sponsored by NASA. While NASA grabs many of the headlines, however, the ESA is plenty busy with the development of 3D printers capable of performing in zero gravity, as demonstrated by Project MELT and now Project Imperial.

Regardless of who is building the 3D printers, however, the fact is that in-space manufacturing is thriving, with 3D printing becoming the go-to technology for creating spare parts, medical supplies, and other needed items for astronauts on board the ISS. In-space 3D printing has come a long way since that first 3D printer was delivered, with ISS printers now capable of printing with engineering-grade materials and growing more advanced with every iteration.

Discuss this and other 3D printing topics at 3DPrintBoard.com or share your thoughts below.

[Images: BEEVERYCREATIVE]