NASA announces winners of competition to design 3D-printed habitat for Mars
The On-Site Habitat Competition invited groups to design a sustainable shelter for a crew of four astronauts on a mission to Mars, using construction techniques enabled by 3D printing technology.
Teams had to come up with a solution that tackles the issues of transporting materials from Earth to Mars, as well as the differences in atmosphere and landscape on the new planet.
NASA and partner Bradley University of Peoria, Illinois, have selected the top five teams to share a $100,000 prize in the latest stage of the agency’s 3D-Printed Habitat Centennial Challenge competition. Winning teams successfully created digital representations of the physical and functional characteristics of a house on Mars using specialized software tools. The teams earned prize money based on scores assigned by a panel of subject matter experts from NASA, academia and industry. The judges interviewed and evaluated submissions from 18 teams from all over the world and selected these teams:
- Team Zopherus of Rogers, Arkansas – $20,957.95
- AI. SpaceFactory of New York – $20,957.24
- Kahn-Yates of Jackson, Mississippi – $20,622.74
- SEArch+/Apis Cor of New York – $19,580.97
- Northwestern University of Evanston, Illinois – $17,881.10
“We are thrilled to see the success of this diverse group of teams that have approached this competition in their own unique styles,” said Monsi Roman, program manager for NASA’s Centennial Challenges. “They are not just designing structures, they are designing habitats that will allow our space explorers to live and work on other planets. We are excited to see their designs come to life as the competition moves forward.
As NASA advances deep space exploration, reliable life-supporting habitats will be essential. But creating a structure on the surface of Mars is an extraordinary challenge considering the extensive limits on transporting materials and the differences in atmosphere and landscape. The 3D-Printed Habitat Challenge aims to further the progression of sustainable shelters that will someday occupy the Moon, Mars or beyond by pushing citizen inventors to develop new technologies capable of additively manufacturing a habitat using indigenous resources with, or without, recyclable materials.
The challenge, which began in 2014, is structured in phases:
- Phase 1, the Design Competition, required teams to submit architectural renderings and was completed in 2015. ($50,000 prize purse)
- Phase 2, the Structural Member Competition, focused on material technologies, requiring teams to create structural components. It was completed in 2017.
($1.1 million prize purse)
- Phase 3 (current), the On-Site Habitat Competition, challenges competitors to fabricate sub-scale habitats, and has five levels of competition – three construction levels and two virtual levels. For the virtual levels, teams must use Building Information Modeling software to design a habitat that combines allowances for both the structure and systems it must contain. The construction levels challenge the teams to autonomously 3D-print elements of the habitat, culminating with a one-third-scale printed habitat for the final level. ($2 million prize purse)
“We are encouraging a wide range of people to come up with innovative designs for how they envision a habitat on Mars,” said Lex Akers, dean of the Caterpillar College of Engineering and Technology at Bradley University, NASA’s partner in this challenge. “The virtual levels allow teams from high schools, universities and businesses that might not have access to large 3D printers to still be a part of the competition because they can team up with those who do have access to such machinery for the final level of the competition.”
The 3D-Printed Habitat Challenge is managed through a partnership with NASA’s Centennial Challenges program and Bradley University. Bradley has partnered with sponsors Caterpillar, Bechtel and Brick & Mortar Ventures to administer the competition. NASA’s Centennial Challenges program is part of the agency’s Space Technology Mission Directorate, and is managed at NASA’s Marshall Space Flight Center in Huntsville, Alabama.