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  • The Rise of Metal 3D Printing in Orbit
    The Rise of Metal 3D Printing in Orbit
    Sep 06, 2024
    In August 2024, a groundbreaking achievement on the International Space Station (ISS) revolutionized the field of metal manufacturing—successfully utilizing 3D printing technology to fabricated sheet metal parts in space for the first time. This feat not only marks a significant leap in space manufacturing but also paves new paths for future space exploration and orbital production and maintenance missions.   Led by the European Space Agency (ESA), this pioneering mission has proven the feasibility of printing metal parts in a microgravity environment. The metal 3D printer, developed by Airbus and its partners with funding from ESA, arrived at the ISS in January 2024, with its core objective being to explore the possibility of printing metal parts in such a unique environment.   Traditional space exploration missions require all parts to be produced on Earth and transported to orbit, a process that is costly and logistically complex. The application of metal 3D printing technology enables astronauts to potentially manufacture tools, parts, and even replacement parts directly in orbit, saving time, reducing costs, and enhancing the self-sufficiency of space missions, especially for long-term missions.   Due to the effects of microgravity, space manufacturing is much more complex than manufacturing on Earth. Traditional manufacturing methods rely on gravity to position materials and guide the process flow, and in a microgravity environment, the behavior of processes like molten metal deposition is unpredictable. Engineers had to develop new strategies and technologies to adapt the 3D printing process to these challenging conditions. The ISS provided a unique testing platform for these challenges and the development of viable solutions.   After the printer arrived at the ISS, astronaut Andreas Mogensen played a key role in installing the machine. Safety was the top priority for the project, with the printer being sealed to prevent any harmful gases or particles from escaping into the ISS atmosphere. This process also included careful control of the printer's internal environment to minimize risks during operation.   The actual process of 3D printing began with the deposition of stainless steel. Unlike traditional desktop 3D printers that use plastic filaments, this printer uses stainless steel wire melted by a high-power laser, which heats the metal wire to over 1200°C and deposits it layer by layer onto a moving platform.   By mid-July 2024, the team had successfully printed 55 layers, marking the completion of half of the first sample. This achievement heralds the start of the so-called "cruise phase," where the team was able to accelerate the printing process. These optimizations have made the printer's operation more efficient, increasing the daily printing time from 3.5 hours to 4.5 hours.   The successful application of metal 3D printing technology not only provides greater flexibility and self-sufficiency for space missions but also has a profound impact on the field of metalworking and manufacturing. This technology can be used to manufacture everything from spare parts to large structures in space, supporting long-term exploration and colonization of other planets. As technology continues to advance and improve, we can look forward to more innovations and breakthroughs in the field of space manufacturing through metal 3D printing.
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