NASA火星移住計画3DプリントHabitat Challenge勝者3チームを公開

NASAアメリカ航空宇宙局(National Aeronautics and Space Administration)の火星移住計画用の居住拠点地となる3D Printed Habitat Challengeのトップ3を公開。

Mars Incubator – Phase 3: Level 4 of NASA’s 3D-Printed Habitat Challenge NASA Marshall Space Flight Center

Team Mars Incubator of New Haven, Connecticut, won third place in Phase 3: Level 4 in NASA’s 3D-Printed Habitat Challenge. Their design consists of four spaces – a vestibule, a primary living space, a multi-use space and a bio-generation area for plant growth.
The competition for this stage challenged teams to use modeling software to create a full-scale habitat design. This level built upon an earlier stage that required 60 percent design completion; for this round, submissions were 100 percent complete. 
Entries were scored on architectural layout, programming, efficient use of interior space, and the 3D-printing scalability and constructability of the habitat. Teams also prepared short videos providing insight into their design as well as miniature 3D-printed models that came apart to showcase the interior design. Points were also awarded for aesthetic representation and realism.
NASA’s 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 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.

Team Zopherus – Phase 3: Level 4 of NASA’s 3D-Printed Habitat Challenge NASA Marshall Space Flight Center

Team Zopherus from Rogers, Arkansas, is the second-place winner of Phase 3: Level 4 of NASA’s 3D-Printed Habitat Challenge. The team’s design includes using a moving printer that deploys rovers to retrieve local materials. 
The competition for this stage challenged teams to use modeling software to create a full-scale habitat design. This level built upon an earlier stage that required 60 percent design completion; for this round, submissions were 100 percent complete. 
Entries were scored on architectural layout, programming, efficient use of interior space, and the 3D-printing scalability and constructability of the habitat. Teams also prepared short videos providing insight into their design as well as miniature 3D-printed models that came apart to showcase the interior design. Points were also awarded for aesthetic representation and realism.

SEArch+/Apis Cor – Phase 3: Level 4 of NASA’s 3D-Printed Habitat Challenge NASA Marshall Space Flight Center

SEArch+/Apis Cor of New York won first place in Phase 3: Level 4 in NASA’s 3D-Printed Habitat Challenge. This team focuses on regolith construction to provide radiation shielding and physical protection.
The competition for this stage challenged teams to use modeling software to create a full-scale habitat design. This level built upon an earlier stage that required 60 percent design completion; for this round, submissions were 100 percent complete. 
Entries were scored on architectural layout, programming, efficient use of interior space, and the 3D-printing scalability and constructability of the habitat. Teams also prepared short videos providing insight into their design as well as miniature 3D-printed models that came apart to showcase the interior design. Points were also awarded for aesthetic representation and realism.


NASA