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I am Artemis: Eric Bordelon


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Eric Bordelon, a multimedia specialist at Michoud Assembly Facility, stands in front of a weld confidence article that forms part of the liquid oxygen tank for the SLS (Space Launch System) rocket’s exploration upper stage.
Eric Bordelon, a multimedia specialist at NASA’s Michoud Assembly Facility in New Orleans, stands in front of a weld confidence article that forms part of the liquid oxygen tank for the SLS (Space Launch System) rocket’s future exploration upper stage.
NASA/Steven Seipel

As a child, Eric Bordelon had posters of the space shuttle in his room. Now, he takes photos and video for NASA as a multimedia specialist at NASA’s Michoud Assembly Facility in New Orleans. Known as NASA’s Rocket Factory, the site is where structures for NASA’s Apollo, shuttle, and now, NASA’s SLS (Space Launch System) rocket and Orion spacecraft are produced for Artemis missions.

Bordelon joined the NASA team in 2007 working with the external tank program for the space shuttle at Michoud. One of Bordelon’s favorite aspects of the job is being a part of the storytelling involving Michoud’s rich history, including documenting the facility transition from the Space Shuttle Program to the SLS Program.

“Many people don’t realize that Michoud has been around since the 40s and NASA has been here since the 60s,” Bordelon said. “A part of my job I really love is meeting and taking photos of the people working behind the scenes on the rocket. They’re turning bolts, welding, spraying foam, and are artists in their own way. One of my goals is to learn what each of these people do, so I can help tell their stories.”

Bordelon grew up in Destrehan, Louisiana, a suburb of New Orleans, and initially dreamed about being a sound recording engineer. He attended Loyola University New Orleans where he studied music business but soon after went to work for a print shop. During his time there, he met several photographers and soon picked up a new hobby: photography. He purchased his first digital camera in 2005 and started taking photos around New Orleans. When the job at NASA opened, he decided to see if that hobby could turn into a career.

Fast forward to 2022: That young boy with space posters on his wall grew up to be a part of the Artemis Generation. Though he had been capturing how rockets came together for years at Michoud, Bordelon had not seen a launch. That changed in 2022 with Artemis I. Not only did Bordelon watch his first launch at NASA’s Kennedy Space Center in Florida, but he also photographed and documented it for NASA.

“I watched this powerful rocket’s core stage be built at Michoud,” Bordelon said. “When I first saw the SLS rocket fully assembled with Orion atop, sitting on the launch pad ready for its inaugural flight for Artemis I, I had to pause, take a minute, and revel in just how amazing it was to be a small part of that.”

During Artemis I launch activities in 2022, he captured a stunning photo of the Sun behind the SLS rocket as a Florida storm rolled in. The photo – with its purple, pink, and orange hues – was selected for one of NASA’s “Picture of the Year” awards.

Read other I am Artemis features.

Corinne Beckinger
Marshall Space Flight Center, Huntsville, Ala.
256.544.0034
corinne.m.beckinger@nasa.gov

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NOTE: Right click on photo to open full image in new tab.NASA/Danny Nowlin The EUS unit, built by Boeing at NASA’s Michoud Assembly Facility in New Orleans, which will be the upper stage for the evolved Block 1B version of SLS and will enable NASA to launch its most ambitious deep space missions. The new stage will replace the current interim cryogenic propulsion stage on the Block 1 version of SLS, which features a single engine and is capable of lifting 27 tons of crew and cargo to lunar orbit.
      The new exploration upper stage will be powered by four RL10 engines, manufactured by SLS engines contractor L3Harris. It will increase payload capacity by 40%, enabling NASA to send 38 tons of cargo with a crew to the Moon or 42 tons of cargo without a crew.
      In the first two weeks of October 2024, crews at NASA’s Stennis Space Center completed a successful lift and installation of an interstage simulator unit on the B-2 side of the Thad Cochran test Stand. The interstage simulator is a key component for future testing of NASA’s new exploration upper stage that will fly on Artemis missions to the Moon and beyond. Before the first flight of the exploration upper stage on the Artemis IV mission, the stage will undergo a series of Green Run tests of its integrated systems at NASA Stennis. The test series will culminate with a hot fire of the stage’s four RL10 engines, just as during an actual mission.
      The simulator component installed on the Thad Cochran Test Stand (B-2) at NASA Stennis weighs 103 tons and measures 31 feet in diameter and 33 feet tall. It will function like the SLS interstage section to protect EUS electrical and propulsion systems during Green Run testing. The top portion of the simulator also will serve as a thrust takeout system to absorb the thrust of the EUS hot fire and transfer it back to the test stand. The four-engine EUS provides more than 97,000 pounds of thrust.
      Teams at NASA’s Stennis Space Center complete a safe lift and install of an interstage simulator unit needed for future testing of NASA’s exploration upper stage (EUS) in the B-2 position of the Thad Cochran Test Stand. The lift and install, completed over a two-week period that began Oct. 10, marks a milestone for testing the new SLS (Space Launch System) rocket stage that will fly on future Artemis missions to the Moon and beyond. The EUS will undergo a series of Green Run tests of its integrated systems prior to its first flight. During testing, the interstage simulator component will function like the SLS interstage section that helps protect the upper stage during Artemis launches. NOTE: Right click on photo to open full image in new tab.NASA/Danny Nowlin Teams at NASA’s Stennis Space Center complete a safe lift and install of an interstage simulator unit needed for future testing of NASA’s exploration upper stage (EUS) in the B-2 position of the Thad Cochran Test Stand. The lift and install, completed over a two-week period that began Oct. 10, marks a milestone for testing the new SLS (Space Launch System) rocket stage that will fly on future Artemis missions to the Moon and beyond. The EUS will undergo a series of Green Run tests of its integrated systems prior to its first flight. During testing, the interstage simulator component will function like the SLS interstage section that helps protect the upper stage during Artemis launches. NOTE: Right click on photo to open full image in new tab.NASA/Danny Nowlin Teams at NASA’s Stennis Space Center complete a safe lift and install of an interstage simulator unit needed for future testing of NASA’s exploration upper stage (EUS) in the B-2 position of the Thad Cochran Test Stand. The lift and install, completed over a two-week period that began Oct. 10, marks a milestone for testing the new SLS (Space Launch System) rocket stage that will fly on future Artemis missions to the Moon and beyond. The EUS will undergo a series of Green Run tests of its integrated systems prior to its first flight. During testing, the interstage simulator component will function like the SLS interstage section that helps protect the upper stage during Artemis launches. NOTE: Right click on photo to open full image in new tab.NASA/Danny Nowlin Teams at NASA’s Stennis Space Center complete a safe lift and install of an interstage simulator unit needed for future testing of NASA’s exploration upper stage (EUS) in the B-2 position of the Thad Cochran Test Stand. The lift and install, completed over a two-week period that began Oct. 10, marks a milestone for testing the new SLS (Space Launch System) rocket stage that will fly on future Artemis missions to the Moon and beyond. The EUS will undergo a series of Green Run tests of its integrated systems prior to its first flight. During testing, the interstage simulator component will function like the SLS interstage section that helps protect the upper stage during Artemis launches. NOTE: Right click on photo to open full image in new tab.NASA/Danny Nowlin Teams at NASA’s Stennis Space Center complete a safe lift and install of an interstage simulator unit needed for future testing of NASA’s exploration upper stage (EUS) in the B-2 position of the Thad Cochran Test Stand. The lift and install, completed over a two-week period that began Oct. 10, marks a milestone for testing the new SLS (Space Launch System) rocket stage that will fly on future Artemis missions to the Moon and beyond. The EUS will undergo a series of Green Run tests of its integrated systems prior to its first flight. During testing, the interstage simulator component will function like the SLS interstage section that helps protect the upper stage during Artemis launches. NOTE: Right click on photo to open full image in new tab.NASA/Danny Nowlin Teams at NASA’s Stennis Space Center complete a safe lift and install of an interstage simulator unit needed for future testing of NASA’s exploration upper stage (EUS) in the B-2 position of the Thad Cochran Test Stand. The lift and install, completed over a two-week period that began Oct. 10, marks a milestone for testing the new SLS (Space Launch System) rocket stage that will fly on future Artemis missions to the Moon and beyond. The EUS will undergo a series of Green Run tests of its integrated systems prior to its first flight. During testing, the interstage simulator component will function like the SLS interstage section that helps protect the upper stage during Artemis launches. NOTE: Right click on photo to open full image in new tab.NASA/Danny Nowlin Teams at NASA’s Stennis Space Center complete a safe lift and install of an interstage simulator unit needed for future testing of NASA’s exploration upper stage (EUS) in the B-2 position of the Thad Cochran Test Stand. The lift and install, completed over a two-week period that began Oct. 10, marks a milestone for testing the new SLS (Space Launch System) rocket stage that will fly on future Artemis missions to the Moon and beyond. The EUS will undergo a series of Green Run tests of its integrated systems prior to its first flight. During testing, the interstage simulator component will function like the SLS interstage section that helps protect the upper stage during Artemis launches. NOTE: Right click on photo to open full image in new tab.NASA/Danny Nowlin NASA Stennis crews previously lifted the interstage simulator to measure and align it relative to the test stand. It is now outfitted with all piping, tubing, and electrical systems necessary to support future Green Run testing.
      Installation onto the test stand enables NASA Stennis crews to begin fabricating the mechanical and electrical systems connecting the facility to the simulator. As fabrication of the systems are completed, crews will conduct activation flows to ensure the test stand can operate to meet test requirements.
      Through Artemis, NASA will establish the foundation for long-term scientific exploration at the Moon; land the first woman, first person of color and first international partner astronaut on the lunar surface; and prepare for human expeditions to Mars for the benefit of all.
      For information about NASA’s Stennis Space Center, visit:
      https://www.nasa.gov/stennis
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      Last Updated Oct 25, 2024 EditorNASA Stennis CommunicationsContactC. Lacy Thompsoncalvin.l.thompson@nasa.gov / (228) 688-3333LocationStennis Space Center Related Terms
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