A workshop where tools floated around would be difficult to work in. So, NASA has chosen two winning designs from K-12 students for a 3-D printed container to help astronauts on the International Space Station keep things in order.
The agency, in partnership with the American Society of Mechanical Engineers Foundation, which managed the competition, announced the winners of the Future Engineers 3-D Space Container Challenge Thursday. The winning designs focused on making life in space a little more comfortable for astronauts.
“The simplest tasks on Earth can be quite challenging, and even dangerous, in space,” said Niki Werkheiser, NASA’s In-Space Manufacturing project manager. “Being able to 3-D print technical parts, as well as the lifestyle items that we use every day will not only help enable deep space travel, but can make the trip more pleasant for astronauts.”
The 3-D Space Container Challenge asked students to design models of containers that could be used in space. They could range from simple containers that could be used to hold collected rocks on Mars or an astronaut’s food, to advanced containers for experiments that study fruit flies. Students across the United States spent part of their summer using 3-D modeling software to design containers that could be 3-D printed, with the ultimate goal of advancing human space exploration on the International Space Station, Mars and beyond.
Ryan Beam of Scotts Valley, California, designed the winning container in the Teen Group, ages 13-19. Beam’s ClipCatch design will allow astronauts on the space station to clip their fingernails without worrying about the clippings floating away and potentially becoming harmful debris.
Emily Takara from Cupertino, California, designed the winning container from the Junior Group, ages 5-12. Her design is a Flower Tea Cage, which uses the surface tension of liquids in a microgravity environment to allow astronauts to make tea. In space, liquids form spheres and adhere to things they touch.
The top 10 entries from each age group are:
- Ryan Beam, Scotts Valley, California – ClipCatch
- Heather Mercieca, Monrovia, California – ECOntainer
- Geoffrey Thomas, Westford, Massachusetts – Expandable Container
- Rajan Vivek, Scottsdale, Arizona – Hydroponic Plant Box
- Reid Barton, Los Gatos, California – InstaTube
- N’yoma Diamond, Croton on Hudson, New York – Store-All Container
- Treyton Bostick, North Street, Michigan – Grow Plants in Space
- Casey Johnson, Bedford, Pennsylvania – Paste Dispenser Tube
- Katherine Baney, Rohnert Park, California – Petri Tower
- Prasanna Krishnamoorthy, Hockessin, Delaware – Collapsible Container
- Sarah Daly, Columbia, Maryland – Fly Feeder 7.0
- Emily Takara, Cupertino, California – Flower Tea Cage
- William Van Dyke, Kingwood, Texas – Space Terrarium v.4
- Vera Zavadskaya, Verona, New Jersey – Aquarius
- Yosef ‘Joey’ Granillo, University City, Missouri – Laundroball
- Nagasai Sreyash Sola, Ashburn, Virginia – Centrivac Container
- Emma Drugge, Norwalk, California – Explorer Puzzle Box
- Joseph Quinn, Whitefish Bay, Wisconsin – Secret Container Cup
- Ansel Austin, Cupertino, California – Galaxy Box
- Ermis Theodoridis, Katy, Texas – EcoBOX
Demonstrating the use of a 3-D printer for on-demand manufacturing technology in space is the first step toward realizing a print-on-demand “machine shop” for future long-duration exploration missions where there is a limited resupply capability. The 3-D Space Container Challenge, which supports NASA’s In-space Manufacturing Initiative, is the second in a series of Future Engineers 3-D Printing challenges for students focused on designing solutions to real-world space exploration problems.
The In-space Manufacturing Initiative falls under NASA’s Human Exploration and Operations Mission Directorate and is managed by the agency’s Marshall Space Flight Center in Huntsville, Alabama.
For more information on NASA challenges, visit:
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