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By NASA
Jon Carabello has spent his entire career at TURBOCAM, which produces 10 core stage main engine turbomachinery components for the RS-25 main engine on NASA’s SLS (Space Launch System) heavy lift exploration rocket.Photo: TURBOCAM Jon Carabello did not begin his career journey with an eye on space, but when NASA’s Artemis lunar exploration campaign came calling, he was all in.
Born, raised, and college-educated in New Hampshire, Carabello has spent his entire professional career at TURBOCAM – a turbomachinery development and manufacturing company – in the southeast corner of the Granite State.
That’s a long way from the southern and western states commonly associated with U.S. human spaceflight activities.
Asked about his early memories of America’s space program, Carabello mentions movies like Apollo 13, and notes that Christa McAulliffe, the teacher-astronaut who died in the 1986 Space Shuttle Challenger accident, taught high school in New Hampshire.
Little did he know that his future employer, a maker of complex machined hardware for a variety of industrial applications, has long been a component supplier to programs including the Space Shuttle and the International Space Station.
There was never much question that Carabello, who started tinkering with engines and other machinery at a young age, would make a career of mechanical engineering. “I like to solve problems – that’s my big thing,” he says.
He learned about TURBOCAM when company representatives made a presentation to his University of New Hampshire engineering class. “That’s how I figured out I knew wanted to work at TURBOCAM and work with 5-axis machining,” he says. “Machining amazes me.”
Five axis machine tools can machine metal blanks from multiple angles to create geometrically complex parts for industrial hardware. TURBOCAM produces 10 core stage main engine turbomachinery components for the RS-25 main engine on NASA’s SLS (Space Launch System) heavy lift exploration rocket. L3Harris Technologies is the prime contractor for the RS-25 engines.
It was his fascination with machining rather than the opportunity to work on rocket engines that drew Carabello to TURBOCAM, where he initially worked on machinery for the oil and gas industry, heating and air conditioning systems, and aerospace.
But then one day, a supervisor asked him to take over the company’s RS-25 portfolio. He remembers the conversion quite clearly.
“It was a Thursday afternoon,” he says. “I was sitting in my office and my manager came in and said, ‘we have somebody leaving and need someone to take over project management and ownership of the RS-25.’ I said, ‘yes’ and he said, ‘you have a call with the program tomorrow.’ That was about five years ago.”
It was a significant change, but Carabello knew the company needed his problem-solving skills on the RS-25 program. “I know how to bring a team together to deliver a quality product. It’s rewarding to know I’m helping return humans to the Moon and paving the way to Mars with the Artemis campaign.”
Self-confidence notwithstanding, Carabello admits to being a bit nervous given that NASA astronauts will be relying on his work. That point was driven home when NASA and L3Harris representatives visited TURBOCAM in the spring of 2024 for a series of presentations on Artemis. The remark that resonated with him the most was by NASA astronaut Dr. Lee Morin, who said the most important part of any human spaceflight mission is bringing astronauts safely home.
“That meant a lot to me,” says Carabello, whose team is responsible for all aspects of TURBOCAM’S RS-25 effort, including quality control, inspection, and resource allocation. He is constantly reminding his team of what’s really at stake for astronauts bound for space: “We’re helping them to return home,” he says.
Read other I am Artemis features.
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By Space Force
NMM introduces the Total Force to a series of panels, events and interactive discussions on mentoring as an enterprise imperative, ensuring greater awareness of the mentoring opportunities available to all Airman and Guardians.
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By NASA
Credit: NASA With Finland’s signing of the Artemis Accords on Tuesday, NASA celebrates the 53rd nation committing to the safe and responsible exploration of space that benefits humanity. The signing ceremony took place on the margins of the Aalto University’s Winter Satellite Workshop 2025 in Espoo, Finland.
“Today, Finland is joining a community of nations that want to share scientific data freely, operate safely, and preserve the space environment for the Artemis Generation,” said NASA Associate Administrator Jim Free, who provided pre-recorded virtual remarks for the ceremony. “By signing the Artemis Accords, Finland builds on its rich history in space, excelling in science, navigation, and Earth observation. Forging strong partnerships between our nations and among the international community is critical for advancing our shared space exploration goals.”
Wille Rydman, Finland’s minister of economic affairs, signed the Artemis Accords in front of an audience of Finnish space officials and workshop attendees.
“Finland has been part of the space exploration community for decades with innovations and technology produced by Finnish companies and research institutions,” said Rydman. “The signing of the Artemis Accords is in line with Finland’s newly updated space strategy that highlights the importance of international cooperation and of strengthening partnerships with the Unites States and other allies. We aim for this cooperation to open great opportunities for the Finnish space sector in the new era of space exploration and in the Artemis program.”
NASA and Finland have a long history of collaboration, and most recently, Finland is contributing to the upcoming Intuitive Machines-2 delivery to the Moon under NASA’s Artemis campaign and CLPS (Commercial Lunar Payload Services) initiative. Intuitive Machines will deliver a lunar LTE/4G communications system developed by Finnish company, Nokia. Its U.S. subsidiary, Nokia of America, was selected as part of NASA’s Tipping Point opportunity through the agency’s Space Technology Mission Directorate, to advance a lunar surface communications system that could help humans and robots explore more of the Moon than ever before.
The Finnish Meteorological Institute also provided the pressure and humidity measurement instruments for the Environmental Monitoring Station instrument suite aboard the Curiosity Rover, operating on Mars now.
In 2020, the United States, led by NASA and the U.S. Department of State, and seven other initial signatory nations established the Artemis Accords, a set of principles promoting the beneficial use of space for humanity.
The Artemis Accords are grounded in the Outer Space Treaty and other agreements including the Registration Convention, the Rescue and Return Agreement, as well as best practices for responsible behavior that NASA and its partners have supported, including the public release of scientific data.
Learn more about the Artemis Accords at:
https://www.nasa.gov/artemis-accords
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Kathryn Hambleton / Elizabeth Shaw
Headquarters, Washington
202-358-1600
kathryn.a.hambleton@nasa.gov / elizabeth.a.shaw@nasa.gov
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Last Updated Jan 21, 2025 LocationNASA Headquarters Related Terms
artemis accords NASA Headquarters Office of International and Interagency Relations (OIIR) View the full article
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By NASA
Teams with NASA are gaining momentum as work progresses toward future lunar missions for the benefit of humanity as numerous flight hardware shipments from across the world arrived at the agency’s Kennedy Space Center in Florida for the first crewed Artemis flight test and follow-on lunar missions. The skyline at Kennedy will soon see added structures as teams build up the ground systems needed to support them.
Crews are well underway with parallel preparations for the Artemis II flight, as well as buildup of NASA’s mobile launcher 2 tower for use during the launch of the SLS (Space Launch System) Block 1B rocket, beginning with the Artemis IV mission. This version of NASA’s rocket will use a more powerful upper stage to launch with crew and more cargo on lunar missions. Technicians have begun upper stage umbilical connections testing that will help supply fuel and other commodities to the rocket while at the launch pad.
In summer 2024, technicians from NASA and contractor Bechtel National, Inc. completed a milestone called jack and set, where the center’s mega-mover, the crawler transporter, repositioned the initial steel base assembly for mobile launcher 2 from temporary construction shoring to its six permanent pedestals near the Kennedy’s Vehicle Assembly Building.
Teams at Bechtel National, Inc. use a crane to lift Module 4 into place atop the mobile launcher 2 tower chair at its park site on Jan. 3, 2025, at Kennedy Space Center in Florida. Module 4 is the first of seven modules that will be stacked vertically to make up the almost 400-foot launch tower that will be used beginning with the Artemis IV mission.Betchel National Inc./Allison Sijgers “The NASA Bechtel mobile launcher 2 team is ahead of schedule and gaining momentum by the day,” stated Darrell Foster, ground systems integration manager, NASA’s Exploration Ground Systems Program at NASA Kennedy. “In parallel to all of the progress at our main build site, the remaining tower modules are assembled and outfitted at a second construction site on center.”
As construction of the mobile launcher 2’s base continues, the assembly operations shift into integration of the modules that will make up the tower. In mid-October 2024, crews completed installation of the chair, named for its resemblance to a giant seat. The chair serves as the interface between the base deck and the vertical modules which are the components that will make up the tower, and stands at 80-feet-tall.
In December 2024, teams completed the rig and set Module 4 operation where the first of a total of seven 40-foot-tall modules was stacked on top of the chair. Becthel crews rigged the module to a heavy lift crane, raised the module more than 150-feet, and secured the four corners to the tower chair. Once complete, the entire mobile launcher structure will reach a height of nearly 400 feet – approximately the length of four Olympic-sized swimming pools placed end-to-end.
On the opposite side of the center, test teams at the Launch Equipment Test Facility are testing the new umbilical interfaces, which will be located on mobile launcher 2, that will be needed to support the new SLS Block 1B Exploration Upper Stage. The umbilicals are connecting lines that provide fuel, oxidizer, pneumatic pressure, instrumentation, and electrical connections from the mobile launcher to the upper stage and other elements of SLS and NASA’s Orion spacecraft.
“All ambient temperature testing has been successfully completed and the team is now beginning cryogenic testing, where liquid nitrogen and liquid hydrogen will flow through the umbilicals to verify acceptable performance,” stated Kevin Jumper, lab manager, NASA Launch Equipment Test Facility at Kennedy. “The Exploration Upper Stage umbilical team has made significant progress on check-out and verification testing of the mobile launcher 2 umbilicals.”
https://www.nasa.gov/wp-content/uploads/2025/01/eusu-test-3-5b-run-1.mp4 Exploration Upper Stage Umbilical retract testing is underway at the Launch Equipment Test Facility at Kennedy Space Center in Florida on Oct. 22, 2024. The new umbilical interface will be used beginning with the Artemis IV mission. Credit: LASSO Contract LETF Video Group The testing includes extension and retraction of the Exploration Upper Stage umbilical arms that will be installed on mobile launcher 2. The test team remotely triggers the umbilical arms to retract, ensuring the ground and flight umbilical plates separate as expected, simulating the operation that will be performed at lift off.
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By Space Force
Space Launch Delta 45 supported the maiden flight for Blue Origin’s New Glenn from Space Launch Complex 36 at Cape Canaveral Space Force Station.
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