iss071e522127 (Aug. 21, 2024) --- NASA astronaut and Expedition 71 Flight Engineer Jeanette Epps configures the Metal 3D printer that manufactures experimental samples printed with stainless steel aboard the International Space Station's Columbus laboratory module. Researchers are exploring how the Metal 3D printer operates in the microgravity conditions of weightlessness and radiation as well as its ability to manufacture tools and parts on demand during space missions.

iss071e523326 (Aug. 21, 2024) --- NASA astronauts (from left) Suni Williams, Pilot for Boeing's Crew Flight Test, and Jeanette Epps, Expedition 71 Flight Engineer, configure the Metal 3D printer inside the Columbus laboratory module. They retrieved an experimental sample printed with stainless steel, replaced a substrate in the advanced manufacturing hardware, then reinstalled the 3D printer back in Columbus' European Drawer Rack-2. Researchers are exploring how the Metal 3D printer operates in the microgravity conditions of weightlessness and radiation as well as its ability to manufacture tools and parts on demand during space missions.

iss042e031282 (12/09/2014) ---US Astronaut Barry (Butch) Wilmore holding a 3D coupon works with the new 3D printer aboard the International Space Station. The 3D Printing experiment in zero gravity demonstrates that a 3D printer works normally in space. In general, a 3D printer extrudes streams of heated plastic, metal or other material, building layer on top of layer to create 3 dimensional objects. Testing a 3D printer using relatively low-temperature plastic feedstock on the International Space Station is the first step towards establishing an on-demand machine shop in space, a critical enabling component for deep-space crewed missions and in-space manufacturing.

Packing light is the idea behind the Zero Launch Mass 3-D Printer. Instead of loading up on heavy building supplies, a large scale 3-D printer capable of using recycled plastic waste and dirt at the destination as construction material would save mass and money when launching robotic precursor missions to build infrastructure on the Moon or Mars in preparation for human habitation. To make this a reality, Nathan Gelino, a researcher engineer with NASA’s Swamp Works at Kennedy Space Center, measured the temperature of a test specimen from the 3-D printer Tuesday as an early step in characterizing printed material strength properties. Material temperature plays a large role in the strength of bonds between layers.

Nathan Gelino, a research engineer, manually loads materials into the Zero Launch Mass 3-D Printer at Kennedy Space Center’s Swamp Works Tuesday. The 3-D printer heated the pellets to about 600 degrees F and extruded them to produce specimens for material strength properties testing. Automated pellet delivery system will be added to the printer soon.

MADE IN SPACE” 3D PRINTER PRINTING TEST SAMPLES WHILE PRINTER IS IN MICROGRAVITY GLOVE BOX

MADE IN SPACE” 3D PRINTER PRINTING TEST SAMPLES WHILE PRINTER IS IN MICROGRAVITY GLOVE BOX

MADE IN SPACE” 3D PRINTER PRINTING TEST SAMPLES WHILE PRINTER IS IN MICROGRAVITY GLOVE BOX

MADE IN SPACE” 3D PRINTER PRINTING TEST SAMPLES WHILE PRINTER IS IN MICROGRAVITY GLOVE BOX

MADE IN SPACE” 3D PRINTER PRINTING TEST SAMPLES WHILE PRINTER IS IN MICROGRAVITY GLOVE BOX

MICHAEL SNYDER, DIRECTOR OF R&D AND LEAD ENGINEER FOR MADE IN SPACE, SHOWS A CAD RENDERING OF A VITAL COMPONENT OF THE 3D PRINTER HEADED FOR THE ISS DURING TESTING AT MARSHALL SPACE FLIGHT CENTER.-

CINDY AZZARITA AND CHARLIE SCOTT, 3D PRINT OPERATIONS LEAD, WRITE THE CREW PROCEDURES FOR ON ORBIT INSTALL AND STOW OF 3D PRINTER

Phillip Steele (EM42/ESSSA) examines composite material gears printed with Marshall’s MarkForged® 3D Printer (background).

“MADE IS SPACE” 3D PRINTER IN FOREGROUND WITH MICROGRAVITY GLOVEBOX IN BACKGROUND, COVER PHOTO FOR NASA TECH BRIEFS MAGAZINE, JUNE 2014 ISSUE

A prototype model of the Made In Space 3D printer is on display during the first ever White House Maker Faire which brings together students, entrepreneurs, and everyday citizens who are using new tools and techniques to launch new businesses, learn vital skills in science, technology, engineering, and math (STEM), and fuel the renaissance in American manufacturing, at the White House, Wednesday, June 18, 2014 in Washington. The Made In Space 3D printer was just approved by NASA to be tested onboard the International Space Station (ISS), and NASA announced a challenge for students to design items that would be printed by this first 3D printer to fly in space. Photo Credit: (NASA/Bill Ingalls)

A visitor watches as a rocket is printed by a Makerbot 3D printer at a pop-up makerspace held by Future Engineers, with support from NASA and The American Society of Mechanical Engineers (ASME), at the Steven F. Udvar-Hazy Center, Thursday, September 21, 2017 in Chantilly, Virginia. Participants created digital 3D models using Autodesk Tinkercad and watched objects being printed with Makerbot 3D printers. Photo Credit: (NASA/Aubrey Gemignani)

Visitors watch as a rocket is printed by a Makerbot 3D printer at a pop-up makerspace held by Future Engineers, with support from NASA and The American Society of Mechanical Engineers (ASME), at the Steven F. Udvar-Hazy Center, Thursday, September 21, 2017 in Chantilly, Virginia. Participants created digital 3D models using Autodesk Tinkercad and watched objects being printed with Makerbot 3D printers. Photo Credit: (NASA/Aubrey Gemignani)

A visitor plays with a robot printed by a 3D printer at a pop-up makerspace held by Future Engineers with support from NASA and The American Society of Mechanical Engineers (ASME), at the Steven F. Udvar-Hazy Center, Thursday, September 21, 2017 in Chantilly, Virginia. Participants created digital 3D models using Autodesk Tinkercad and watched objects being printed with Makerbot 3D printers. Photo Credit: (NASA/Aubrey Gemignani)

Visitors learn about 3D printing at a pop-up makerspace held by Future Engineers with support from NASA and The American Society of Mechanical Engineers (ASME), at the Steven F. Udvar-Hazy Center, Thursday, September 21, 2017 in Chantilly, Virginia. Participants created digital 3D models using Autodesk Tinkercad and watched objects being printed with Makerbot 3D printers. Photo Credit: (NASA/Aubrey Gemignani)

This video clip shows a 3D printing technique where a printer head scans over each layer of a part, blowing metal powder that is melted by a laser. It's one of several ways parts are 3D printed at NASA's Jet Propulsion Laboratory, but was not used to create the parts aboard the Perseverance rover. Movie available at https://photojournal.jpl.nasa.gov/catalog/PIA23972

NIKI WERKHEISER - 3D PRINTING ZERO-G PROJECT MANAGER, DISCUSSES 3D PRINTING TECHNOLOGY WITH DR. ELLEN OCHOA.1401414 THE ISS NOW HAS A 3D PRINTER, WHICH THE TECHNOLOGY WAS TESTED AT THE MARSHALL SPACE FLIGHT CENTER

The Made In Space company displays some of the tools that can be made by their 3D printer during the first ever White House Maker Faire which brings together students, entrepreneurs, and everyday citizens who are using new tools and techniques to launch new businesses, learn vital skills in science, technology, engineering, and math (STEM), and fuel the renaissance in American manufacturing, at the White House, Wednesday, June 18, 2014 in Washington. The Made In Space 3D printer was just approved by NASA to be tested onboard the International Space Station (ISS), and NASA announced a challenge for students to design items that would be printed by this first 3D printer to fly in space. Photo Credit: (NASA/Bill Ingalls)

Shown is a Zero Launch Mass 3D printer on July 28, 2022, at NASA’s Kennedy Space Center’s Swamp Works. A team at the Florida spaceport tested the printer as part of the Relevant Environment Additive Construction Technology (REACT) project. Among the key objectives of the project is developing an architectural and structural design for a shelter that provides protection to habitable assets on the lunar surface. Testing REACT derives from NASA’s 2020 Announcement of Collaboration Opportunity with AI SpaceFactory – an architectural and construction technology company and winner of NASA’s 3D Printed Habitat Challenge.

iss071e522120 (8/21/2024) ---A view the Metal 3D printer that manufactures experimental samples printed with stainless steel aboard the International Space Station's Columbus laboratory module. Researchers are exploring how the Metal 3D printer operates in the microgravity conditions of weightlessness and radiation as well as its ability to manufacture tools and parts on demand during space missions.

jsc2024e005971 (3/21/2023) --- A preflight image for Metal 3D printer shows one of the stainless steel specimens after printing on the ground. A team member holds the sample at the ESA (European Space Agency) materials laboratory. Metal 3D printer evaluates in-space additive manufacturing for potential use in maintenance and long-duration missions to the Moon or Mars. Image courtesy of ESA/Airbus.

jsc2024e005970 (3/21/2023) --- A preflight image for Metal 3D printer shows one of the specimens after printing on the ground. The specimen was made from stainless steel at the ESA (European Space Agency) materials laboratory. Metal 3D printer evaluates in-space additive manufacturing for potential use in maintenance and long-duration missions to the Moon or Mars. Image courtesy of ESA/Airbus.

NIKI WERKHEISER, NASA'S 3D PRINTING IN ZERO-G PROJECT MANAGER, HOLDS A 3D PRINTED CUBESAT STRUCTURE WHICH IS JUST ONE OF THE MANY POTENTIAL APPLICATIONS THAT AN IN-SPACE MANUFACTURING CAPABILITY WILL PROVIDE

iss060e043926 (Aug. 23, 2019) --- Expedition 60 Flight Engineer Christina Koch of NASA conducts science operations for the BioFabrication Facility experiment researching the effectiveness of using 3D biological printers to produce usable human organs in microgravity.

iss069e038872 (July 28, 2023) -- NASA astronaut Stephen Bowen works with the BioFabrication Facility which uses 3D printers to investigate the feasibility of printing organ-like tissues in microgravity.

A participant creates digital 3D models using Autodesk Tinkercad in the Two for the Crew Challenge at a pop-up makerspace held by Future Engineers, with support from NASA and The American Society of Mechanical Engineers (ASME), at the Steven F. Udvar-Hazy Center, Thursday, September 21, 2017 in Chantilly, Virginia. Participants had the opportunity to create digital 3D models and watch objects being printed with Makerbot 3D printers. Photo Credit: (NASA/Aubrey Gemignani)

A visitor learns about 3D printing at a pop-up makerspace held by Future Engineers with support from NASA and The American Society of Mechanical Engineers (ASME), at the Steven F. Udvar-Hazy Center, Thursday, September 21, 2017 in Chantilly, Virginia. Participants created digital 3D models using Autodesk Tinkercad and watched objects being printed with Makerbot 3D printers. Photo Credit: (NASA/Aubrey Gemignani)

iss071e522123 (8/21/2024) --- A metal specimen 3D printed in space for ESA’s Metal 3D Printer investigation. Researchers successfully produced the first metal parts printed in space and found their quality in line with expectations and now plan to print additional specimens in space. Resupply becomes challenging as mission duration and distance from Earth increase, and 3D printing could provide a way to make parts for repairs and dedicated tools on demand, increasing mission autonomy.

A participant creates digital 3D models using Autodesk Tinkercad in the Two for the Crew Challenge at a pop-up makerspace held by Future Engineers, with support from NASA and The American Society of Mechanical Engineers (ASME), at the Steven F. Udvar-Hazy Center, Thursday, September 21, 2017 in Chantilly, Virginia. Participants had the opportunity to create digital 3D models and watch objects being printed with Makerbot 3D printers. Photo Credit: (NASA/Aubrey Gemignani)

A participant creates digital 3D models using Autodesk Tinkercad in the Two for the Crew Challenge at a pop-up makerspace held by Future Engineers, with support from NASA and The American Society of Mechanical Engineers (ASME), at the Steven F. Udvar-Hazy Center, Thursday, September 21, 2017 in Chantilly, Virginia. Participants had the opportunity to create digital 3D models and watch objects being printed with Makerbot 3D printers. Photo Credit: (NASA/Aubrey Gemignani)

A participant creates digital 3D models using Autodesk Tinkercad in the Two for the Crew Challenge at a pop-up makerspace held by Future Engineers, with support from NASA and The American Society of Mechanical Engineers (ASME), at the Steven F. Udvar-Hazy Center, Thursday, September 21, 2017 in Chantilly, Virginia. Participants had the opportunity to create digital 3D models and watch objects being printed with Makerbot 3D printers. Photo Credit: (NASA/Aubrey Gemignani)

A participant examines a 3D printed object at a pop-up makerspace held by Future Engineers with support from NASA and The American Society of Mechanical Engineers (ASME), at the Steven F. Udvar-Hazy Center, Thursday, September 21, 2017 in Chantilly, Virginia. Participants created digital 3D models using Autodesk Tinkercad and watched objects being printed with Makerbot 3D printers. Photo Credit: (NASA/Aubrey Gemignani)

iss060e035050 (Aug. 12, 2019) --- Expedition 60 Flight Engineer Nick Hague of NASA conducts science operations inside Europe's Columbus Laboratory module for the BioFabrication Facility experiment. The study is investigating the effectiveness of using 3D biological printers to produce usable human organs in microgravity.

Michael Painter, senior program officer, Robert Wood Johnson Foundation, speaks on a panel on improving air quality for health in space and on Earth, at a pop-up makerspace hosted by Future Engineers with support from NASA and The American Society of Mechanical Engineers (ASME), at the Steven F. Udvar-Hazy Center, Thursday, September 21, 2017 in Chantilly, Virginia. Participants were able to create digital 3D models using Autodesk Tinkercad and watch objects being printed with Makerbot 3D printers. Photo Credit: (NASA/Aubrey Gemignani)

Paul Scott, interim executive director, The American Society of Mechanical Engineers (ASME), speaks on a panel on "igniting NOVA K-12 engineering and maker education", at a pop-up makerspace hosted by Future Engineers with support from NASA and ASME, at the Steven F. Udvar-Hazy Center, Thursday, September 21, 2017 in Chantilly, Virginia. Participants were able to create digital 3D models using Autodesk Tinkercad and watch objects being printed with Makerbot 3D printers. Photo Credit: (NASA/Aubrey Gemignani)

A young audience member asks the panel a question during a discussion on improving air quality for health in space and on Earth, at a pop-up makerspace hosted by Future Engineers with support from NASA and The American Society of Mechanical Engineers (ASME), at the Steven F. Udvar-Hazy Center, Thursday, September 21, 2017 in Chantilly, Virginia. Participants were able to create digital 3D models using Autodesk Tinkercad and watch objects being printed with Makerbot 3D printers. Photo Credit: (NASA/Aubrey Gemignani)

Materials engineer Thomas Lipscomb tests a 3D printer on July 28, 2022, at Swamp Works at NASA’s Kennedy Space Center in Florida, as part of the Relevant Environment Additive Construction Technology (REACT) project. Among the key objectives of the project is developing an architectural and structural design for a shelter that provides protection to habitable assets on the lunar surface. Testing REACT derives from NASA’s 2020 Announcement of Collaboration Opportunity with AI SpaceFactory – an architectural and construction technology company and winner of NASA’s 3D Printed Habitat Challenge.

Chemist Tesia Irwin tests a 3D printer on July 28, 2022, at Swamp Works at NASA’s Kennedy Space Center in Florida, as part of the Relevant Environment Additive Construction Technology (REACT) project. Among the key objectives of the project is developing an architectural and structural design for a shelter that provides protection to habitable assets on the lunar surface. Testing REACT derives from NASA’s 2020 Announcement of Collaboration Opportunity with AI SpaceFactory – an architectural and construction technology company and winner of NASA’s 3D Printed Habitat Challenge.

A team at NASA’s Kennedy Space Center in Florida tests a 3D printer on July 28, 2022, at the Florida spaceport’s Swamp Works, as part of the Relevant Environment Additive Construction Technology (REACT) project. Among the key objectives of the project is developing an architectural and structural design for a shelter that provides protection to habitable assets on the lunar surface. Testing REACT derives from NASA’s 2020 Announcement of Collaboration Opportunity with AI SpaceFactory – an architectural and construction technology company and winner of NASA’s 3D Printed Habitat Challenge.

Founder and CEO of Future Engineers, Deanne Bell, speaks at a pop-up makerspace hosted by Future Engineers with support from NASA and The American Society of Mechanical Engineers (ASME), at the Steven F. Udvar-Hazy Center, Thursday, September 21, 2017 in Chantilly, Virginia. Participants were able to create digital 3D models using Autodesk Tinkercad and watch objects being printed with Makerbot 3D printers. Photo Credit: (NASA/Aubrey Gemignani)

Lynn Buquo, manager, NASA Center of Excellence for Collaborative Innovation, speaks on a panel on improving air quality for health in space and on Earth, at a pop-up makerspace hosted by Future Engineers with support from NASA and The American Society of Mechanical Engineers (ASME), at the Steven F. Udvar-Hazy Center, Thursday, September 21, 2017 in Chantilly, Virginia. Participants were able to create digital 3D models using Autodesk Tinkercad and watch objects being printed with Makerbot 3D printers. Photo Credit: (NASA/Aubrey Gemignani)

Ryan Heitz, co-founder and head of school, Ideaventions Academy, speaks on a panel on "igniting NOVA K-12 engineering and maker education", at a pop-up makerspace hosted by Future Engineers with support from NASA and The American Society of Mechanical Engineers (ASME), at the Steven F. Udvar-Hazy Center, Thursday, September 21, 2017 in Chantilly, Virginia. Participants were able to create digital 3D models using Autodesk Tinkercad and watch objects being printed with Makerbot 3D printers. Photo Credit: (NASA/Aubrey Gemignani)

Marit Meyer, research aerospace engineer, Aerosol Science and Instrumentation, NASA, speaks on a panel on improving air quality for health in space and on Earth, at a pop-up makerspace hosted by Future Engineers with support from NASA and The American Society of Mechanical Engineers (ASME), at the Steven F. Udvar-Hazy Center, Thursday, September 21, 2017 in Chantilly, Virginia. Participants were able to create digital 3D models using Autodesk Tinkercad and watch objects being printed with Makerbot 3D printers. Photo Credit: (NASA/Aubrey Gemignani)

A team at NASA’s Kennedy Space Center in Florida tests a 3D printer on July 28, 2022, at the Florida spaceport’s Swamp Works, as part of the Relevant Environment Additive Construction Technology (REACT) project. Among the key objectives of the project is developing an architectural and structural design for a shelter that provides protection to habitable assets on the lunar surface. Testing REACT derives from NASA’s 2020 Announcement of Collaboration Opportunity with AI SpaceFactory – an architectural and construction technology company and winner of NASA’s 3D Printed Habitat Challenge.

Chemist Tesia Irwin tests a 3D printer on July 28, 2022, at Swamp Works at NASA’s Kennedy Space Center in Florida, as part of the Relevant Environment Additive Construction Technology (REACT) project. Among the key objectives of the project is developing an architectural and structural design for a shelter that provides protection to habitable assets on the lunar surface. Testing REACT derives from NASA’s 2020 Announcement of Collaboration Opportunity with AI SpaceFactory – an architectural and construction technology company and winner of NASA’s 3D Printed Habitat Challenge.

Future Engineers with support from NASA and The American Society of Mechanical Engineers (ASME), hosted a future engineers pop-up makerspace where youth were able to create digital 3D models using Autodesk Tinkercad and watch objects being printed with Makerbot 3D printers, at the Steven F. Udvar-Hazy Center, Thursday, September 21, 2017 in Chantilly, Virginia. Photo Credit: (NASA/Aubrey Gemignani)

Marit Meyer, research aerospace engineer, Aerosol Science and Instrumentation, NASA, speaks on a panel on improving air quality for health in space and on Earth, at a pop-up makerspace hosted by Future Engineers with support from NASA and The American Society of Mechanical Engineers (ASME), at the Steven F. Udvar-Hazy Center, Thursday, September 21, 2017 in Chantilly, Virginia. Participants were able to create digital 3D models using Autodesk Tinkercad and watch objects being printed with Makerbot 3D printers. Photo Credit: (NASA/Aubrey Gemignani)

Jitendra Joshi, chief technology advisor, Advanced Exploration Systems, NASA, speaks on a panel on improving air quality for health in space and on Earth, at a pop-up makerspace hosted by Future Engineers with support from NASA and The American Society of Mechanical Engineers (ASME), at the Steven F. Udvar-Hazy Center, Thursday, September 21, 2017 in Chantilly, Virginia. Participants were able to create digital 3D models using Autodesk Tinkercad and watch objects being printed with Makerbot 3D printers. Photo Credit: (NASA/Aubrey Gemignani)

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team AI. SpaceFactory's printer autonomously inserts a window into their 3D-printed subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team AI. SpaceFactory's printer autonomously inserts a window into their 3D-printed subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team AI. SpaceFactory's printer autonomously inserts a window into their 3D-printed subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

A team at NASA’s Kennedy Space Center in Florida test a 3D printer inside a vacuum chamber at the Granular Mechanics and Regolith Operations (GMRO) lab inside the spaceport’s Swamp Works, as part of the Relevant Environment Additive Construction Technology (REACT) project on April 5, 2022. Testing REACT derives from NASA’s 2020 Announcement of Collaboration Opportunity, with AI SpaceFactory – an architectural and construction technology company and winner of NASA’s 3D Printed Habitat Challenge – collaborating with Kennedy teams to build 3D-printed test structures using a composite made from polymers and a regolith simulant in a vacuum chamber that mimics environmental conditions on the Moon.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team AI. SpaceFactory's printer autonomously inserts a window into their 3D-printed subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team AI. SpaceFactory's printer autonomously inserts a window into their 3D-printed subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team AI. SpaceFactory's printer autonomously inserts a window into their 3D-printed subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team AI. SpaceFactory's printer autonomously inserts a window into their 3D-printed subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team AI. SpaceFactory's printer autonomously inserts a window into their 3D-printed subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team AI. SpaceFactory's printer autonomously inserts a window into their 3D-printed subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Participants create digital 3D models using Autodesk Tinkercad in the Two for the Crew Challenge at a pop-up makerspace held by Future Engineers, with support from NASA and The American Society of Mechanical Engineers (ASME), at the Steven F. Udvar-Hazy Center, Thursday, September 21, 2017 in Chantilly, Virginia. Participants had the opportunity to create digital 3D models and watch objects being printed with Makerbot 3D printers. The winner of the Two for the Crew challenge will have their design printed on the International Space Station. Photo Credit: (NASA/Aubrey Gemignani)

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.

Team Penn State prepares their 3D-printer to begin printing a subscale habitat structure at NASA's 3D-Printed Habitat Challenge, held at the Caterpillar Edwards Demonstration & Learning Center in Edwards, Illinois, May 1-4, 2019. The habitat print is the final level of the multi-phase competition, which began in in 2015. The 3D-Printed Habitat Challenge is a competition to create sustainable shelters suitable for the Moon, Mars or beyond using resources available on-site in these locations. The challenge is managed by NASA's Centennial Challenges program, and partner Bradley University of Peoria, Illinois.