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ICON 3D Prints the First Simulated Mars Surface Habitat for NASA

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ICON, developer of advanced construction technologies including robotics, software, and building materials, announced it has been awarded a subcontract through Jacobs supporting NASA’s The Crew Health and Performance Exploration Analog (CHAPEA) to deliver a 3D-printed habitat, known as Mars Dune Alpha, at NASA’s Johnson Space Center. ICON’s next-gen Vulcan construction system will complete a 1,700 square-foot structure, designed by world-renowned architecture firm BIG-Bjarke Ingels Group, that will simulate a realistic Mars habitat to support long-duration, exploration-class space missions. CHAPEA is a sequence of three one-year Mars surface mission simulations at the NASA Johnson Space Center in Houston. The analog missions will provide valuable insights and information to assess NASA’s space food system, as well as physical and behavioral health and performance outcomes for future space missions. NASA will use research from the Mars Dune Alpha simulations to inform risk and resource trades to support crew health and performance for future missions to Mars when astronauts would live and work on the Red planet for long periods of time. Future space exploration habitats have the potential to be 3D printed with additive construction technology to eliminate the need to launch large quantities of building materials on multiple flights, which is cost prohibitive. Life in Mars Dune Alpha will resemble the expected experience for those living in a future Mars surface habitat. Designed by BIG-Bjarke Ingels Group, the layout of the innovative structure is organized in a gradient of privacy. Four private crew quarters will be located on one end of the habitat; dedicated workstations, medical stations and food-growing stations are located on the opposite end, with shared living spaces found in between. Varying ceiling heights vertically segmented by an arching shell structure accentuate the unique experience of each area to avoid spatial monotony and crew member fatigue. A mix of fixed and movable furniture will allow crew members to reorganize the habitat according to their daily needs, as will the customizable lighting, temperature, and sound control – helping regulate the daily routine, circadian rhythm, and overall well being of the crew. NASA has begun its recruitment for the long-duration Mars mission analog study inside the 3D-printed habitat. Applications to participate as crew are being accepted through the mid-September 2021 for the one-year analog mission that starts in Fall 2022. To learn more or to apply, visit For more information visit .

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