3D printed Mini-EUSO project takes off.
As part of a cross-party collaboration with the Italian Space Agency and Roscosmos, the Russian Space Agency, INFN was recently tasked with developing a first-of-its-kind cosmic UV telescope to study terrestrial and cosmic UV emissions from the International Space Station (ISS). However, producing the mechanical structure of the telescope, named Mini-EUSO1, presented several challenges. Most notably, the team had to find a material that could meet the stringent certification requirements of the aerospace industry and the ISS, while also being able to bear the mechanical stress and vibrations of a rocket launch.
“We explored numerous ways in which we could achieve the expected performance while meeting material certification. We even built a full prototype in aluminum, one of the most commonplace materials for aerospace. But the results were far from expectation – the structure was too heavy and it did not provide the insulation required for the interior electrical currents,” explained Napolitano. “As a result, we turned to our Fortus 450mc 3D printer and found that the ULTEM™ 9085 resin offered the perfect alternative. Not only is the material extremely durable, but it’s lightweight. And crucially, it also offers exceptional insulation properties, as well as high chemical and thermal resistance. It’s fair to say that without the capability to print the MiniEUSO structure in this material, we would not have met the safety and weight restrictions of the ISS.”
ULTEM™ 9085 resin also fulfilled the objective to protect the two Fresnel lenses and the Photo Detector Module from harmful vibrations. Importantly, the material also met the need to ensure insulation and correct operation of the photomultiplier units that detect light and convert it into electrical impulses.
The Fortus 450mc was subsequently used to 3D print the entire structure of the Mini-EUSO telescope, which today sits onboard the ISS. According to Marco Ricci, Lead Researcher and INFN Country Manager for Collaboration EUSO SPB2 Italia, 3D printing’s impact on this project has been transformational.
“Using Stratasys FDM 3D printing throughout the production of the Mini-EUSO’s mechanical structure enabled us to reduce the overall cost of the project by a factor of ten, as well as save us about one year of development time. It’s an incredible outcome for us that I have to say I never expected from 3D printing,” he said.
The Mini-EUSO program is part of JEM EUSO (Joint Experiment Missions – Extreme Universe Space Observatory), a wider international project including France, Germany, Italy, Japan, Poland, Russia, Slovakia, Sweden, Switzerland and the United States, aimed at exploring the origin and nature of ultra-high energy cosmic rays from space.
“We are now in the process of analyzing the first data recorded by Mini-EUSO and the results are very promising. From a researcher’s perspective, I’m extremely proud of the way the project was executed and very excited with the achievements. For me it’s clear now how 3D printing can significantly contribute towards the future success of scientific research,” concluded Ricci.
1 Multiwavelength Imaging New Instrument used by the Extreme Universe Space Observatory