NASA Opens Third Phase of 3D Printed Habitat Challenge

The goal is to develop technologies needed for future missions to Mars or the moon.

  • Nov 09, 2017

NASA has launched Phase 3 of its 3D-Printed Habitat Challenge, which seeks ways to create or develop technologies needed to create off-world habitats for the agency's upcoming missions to Mars, the moon, and perhaps beyond. Those astronauts will have to construct habitats on site, and NASA, with its partner, Bradley University, is inviting teams to register and compete in this phase.

Phase 1 asked participants to develop state-of-the-art architectural concepts, and it was completed in 2015. Phase 2 concerned the manufacture of structural components and was completed in August 2017. Phase 3: On-Site Habitat Competition challenges competitors to fabricate sub-scale habitats using indigenous materials, with or without mission-generated recyclables, and offers a $2 million total prize purse.

Registration opened Nov. 7, and teams may register through Feb. 15, 2018. Submissions are due in 2018, and the on-site competition will take place April 29 through May 4, 2018, according to the timeline.

"The ideas and technologies this competition has already produced are encouraging, and we are excited to see what this next phase will bring," said Monsi Roman, program manager of NASA's Centennial Challenges. "The solutions we seek from our competitions are revolutionary, which by nature makes them extremely difficult. But this only fuels our teams to work harder to innovate and solve."

Bradley University President Gary Roberts said the school is honored to be the challenge partner again. "Bradley prides itself on experiential learning and student engagement," he said. "This challenge isn't something our students can learn about in a textbook or in a classroom. This is a forward-thinking concept coming to life, and they have a chance to see it firsthand. They will meet the people making it happen and learn about the ideas that are fueling innovation. This could change the way they imagine the future and push their creative limits."

In addition to NASA, Bradley University has partnered with sponsors Caterpillar Inc., Bechtel, and Brick & Mortar Ventures to run the competition.

For more information about the program, visit http://www.nasa.gov/winit. The rules are available here.

Product Showcase

  • SECUPRO MARTEGO

    FOR HIGHEST DEMANDS. A cutting tool in which function and design go hand in hand. Meet the SECUPRO MARTEGO, our prize-winning squeeze-grip safety knife with fully automatic retractable blade for safety. • Ergonomically friendly trigger mechanism to engage the blade • Durable body made of aluminum • Safer alternative to fixed blade utility knives for general cutting tasks • 9 mm Cutting depth • Easy, tool free blade change Dimensions: L 6.10" L x 0.71" W x 1.91" H Weight: 3.70 oz Cutting Depth: 9 mm Read More

  • The MGC Simple Plus

    The MGC Simple Plus is a simple-to-use, portable multi gas detector that runs continuously for three years without being recharged or routinely calibrated after its initial charge and calibration during manufacturing. The detector reliably tests a worksite’s atmosphere for hydrogen sulfide, carbon monoxide, oxygen and combustible gases (LEL). Its durability enables the detector to withstand the harshest treatment and environments, hence earning it an IP 68 rating. The MGC Simple Plus is also compatible with a variety of accessories, such as the GCT External Pump. Visit gascliptech.com for more information. Read More

  • Magid® D-ROC® GPD412 21G Ultra-Thin Polyurethane Palm Coated Work Gloves

    Magid’s 21G line is more than just a 21-gauge glove, it’s a revolutionary knitting technology paired with an advanced selection of innovative fibers to create the ultimate in lightweight cut protection. The latest offering in our 21G line provides ANSI A4 cut resistance with unparalleled dexterity and extreme comfort that no other 21-gauge glove on the market can offer! Read More

Featured

Most   Popular

Artificial Intelligence