NASA’s Marshall Space Flight Center celebrated the 65th anniversary of its founding on July 19, 2025, with a free, public celebration at The Orion Amphitheater in Huntsville, Alabama. Thousands of team members, families, and “Rocket City” residents took part, enjoying live music, games, food, and exhibits commemorating Marshall’s legacy of ingenuity and service to the U.S. space program. During a program for the celebration, guests heard remarks from Joseph Pelfrey, director of NASA Marshall, Huntsville Mayor Tommy Battle, and Kamerra Liles, assistant general manager of The Orion Amphitheater, followed by Pelfrey sharing a new video overview about Marshall. The program continued with a video presentation from NASA astronauts from the Expedition 72 crew – which contributed more than 1,000 total hours of scientific studies on plant growth, stem cell growth for treating diseases, the resilience of microorganisms to the harsh space environment, and more on the International Space Station. NASA astronauts Suni Williams and Don Pettit, who served as space station commander and flight engineer, respectively, shared their experiences in space with the community and told the audience how vital Marshall’s on the ground support was to their mission success. Marshall has shaped and expanded human space exploration every decade since the NASA center opened its doors on July 1, 1960. The center’s civil service and contract workers built the nation’s flagship rockets, from the Saturn V to the SLS (Space Launch System), managed the space shuttle propulsion program, delivered the Chandra X-ray Observatory and critical elements of the International Space Station to orbit, and continue to spearhead numerous advances in science and engineering.

NASA’s Marshall Space Flight Center celebrated the 65th anniversary of its founding on July 19, 2025, with a free, public celebration at The Orion Amphitheater in Huntsville, Alabama. Thousands of team members, families, and “Rocket City” residents took part, enjoying live music, games, food, and exhibits commemorating Marshall’s legacy of ingenuity and service to the U.S. space program. During a program for the celebration, guests heard remarks from Joseph Pelfrey, director of NASA Marshall, Huntsville Mayor Tommy Battle, and Kamerra Liles, assistant general manager of The Orion Amphitheater, followed by Pelfrey sharing a new video overview about Marshall. The program continued with a video presentation from NASA astronauts from the Expedition 72 crew – which contributed more than 1,000 total hours of scientific studies on plant growth, stem cell growth for treating diseases, the resilience of microorganisms to the harsh space environment, and more on the International Space Station. NASA astronauts Suni Williams and Don Pettit, who served as space station commander and flight engineer, respectively, shared their experiences in space with the community and told the audience how vital Marshall’s on the ground support was to their mission success. Marshall has shaped and expanded human space exploration every decade since the NASA center opened its doors on July 1, 1960. The center’s civil service and contract workers built the nation’s flagship rockets, from the Saturn V to the SLS (Space Launch System), managed the space shuttle propulsion program, delivered the Chandra X-ray Observatory and critical elements of the International Space Station to orbit, and continue to spearhead numerous advances in science and engineering.

NASA’s Marshall Space Flight Center celebrated the 65th anniversary of its founding on July 19, 2025, with a free, public celebration at The Orion Amphitheater in Huntsville, Alabama. Thousands of team members, families, and “Rocket City” residents took part, enjoying live music, games, food, and exhibits commemorating Marshall’s legacy of ingenuity and service to the U.S. space program. During a program for the celebration, guests heard remarks from Joseph Pelfrey, director of NASA Marshall, Huntsville Mayor Tommy Battle, and Kamerra Liles, assistant general manager of The Orion Amphitheater, followed by Pelfrey sharing a new video overview about Marshall. The program continued with a video presentation from NASA astronauts from the Expedition 72 crew – which contributed more than 1,000 total hours of scientific studies on plant growth, stem cell growth for treating diseases, the resilience of microorganisms to the harsh space environment, and more on the International Space Station. NASA astronauts Suni Williams and Don Pettit, who served as space station commander and flight engineer, respectively, shared their experiences in space with the community and told the audience how vital Marshall’s on the ground support was to their mission success. Marshall has shaped and expanded human space exploration every decade since the NASA center opened its doors on July 1, 1960. The center’s civil service and contract workers built the nation’s flagship rockets, from the Saturn V to the SLS (Space Launch System), managed the space shuttle propulsion program, delivered the Chandra X-ray Observatory and critical elements of the International Space Station to orbit, and continue to spearhead numerous advances in science and engineering.

NASA’s Marshall Space Flight Center celebrated the 65th anniversary of its founding on July 19, 2025, with a free, public celebration at The Orion Amphitheater in Huntsville, Alabama. Thousands of team members, families, and “Rocket City” residents took part, enjoying live music, games, food, and exhibits commemorating Marshall’s legacy of ingenuity and service to the U.S. space program. During a program for the celebration, guests heard remarks from Joseph Pelfrey, director of NASA Marshall, Huntsville Mayor Tommy Battle, and Kamerra Liles, assistant general manager of The Orion Amphitheater, followed by Pelfrey sharing a new video overview about Marshall. The program continued with a video presentation from NASA astronauts from the Expedition 72 crew – which contributed more than 1,000 total hours of scientific studies on plant growth, stem cell growth for treating diseases, the resilience of microorganisms to the harsh space environment, and more on the International Space Station. NASA astronauts Suni Williams and Don Pettit, who served as space station commander and flight engineer, respectively, shared their experiences in space with the community and told the audience how vital Marshall’s on the ground support was to their mission success. Marshall has shaped and expanded human space exploration every decade since the NASA center opened its doors on July 1, 1960. The center’s civil service and contract workers built the nation’s flagship rockets, from the Saturn V to the SLS (Space Launch System), managed the space shuttle propulsion program, delivered the Chandra X-ray Observatory and critical elements of the International Space Station to orbit, and continue to spearhead numerous advances in science and engineering.

NASA’s Marshall Space Flight Center celebrated the 65th anniversary of its founding on July 19, 2025, with a free, public celebration at The Orion Amphitheater in Huntsville, Alabama. Thousands of team members, families, and “Rocket City” residents took part, enjoying live music, games, food, and exhibits commemorating Marshall’s legacy of ingenuity and service to the U.S. space program. During a program for the celebration, guests heard remarks from Joseph Pelfrey, director of NASA Marshall, Huntsville Mayor Tommy Battle, and Kamerra Liles, assistant general manager of The Orion Amphitheater, followed by Pelfrey sharing a new video overview about Marshall. The program continued with a video presentation from NASA astronauts from the Expedition 72 crew – which contributed more than 1,000 total hours of scientific studies on plant growth, stem cell growth for treating diseases, the resilience of microorganisms to the harsh space environment, and more on the International Space Station. NASA astronauts Suni Williams and Don Pettit, who served as space station commander and flight engineer, respectively, shared their experiences in space with the community and told the audience how vital Marshall’s on the ground support was to their mission success. Marshall has shaped and expanded human space exploration every decade since the NASA center opened its doors on July 1, 1960. The center’s civil service and contract workers built the nation’s flagship rockets, from the Saturn V to the SLS (Space Launch System), managed the space shuttle propulsion program, delivered the Chandra X-ray Observatory and critical elements of the International Space Station to orbit, and continue to spearhead numerous advances in science and engineering.

NASA’s Marshall Space Flight Center celebrated the 65th anniversary of its founding on July 19, 2025, with a free, public celebration at The Orion Amphitheater in Huntsville, Alabama. Thousands of team members, families, and “Rocket City” residents took part, enjoying live music, games, food, and exhibits commemorating Marshall’s legacy of ingenuity and service to the U.S. space program. During a program for the celebration, guests heard remarks from Joseph Pelfrey, director of NASA Marshall, Huntsville Mayor Tommy Battle, and Kamerra Liles, assistant general manager of The Orion Amphitheater, followed by Pelfrey sharing a new video overview about Marshall. The program continued with a video presentation from NASA astronauts from the Expedition 72 crew – which contributed more than 1,000 total hours of scientific studies on plant growth, stem cell growth for treating diseases, the resilience of microorganisms to the harsh space environment, and more on the International Space Station. NASA astronauts Suni Williams and Don Pettit, who served as space station commander and flight engineer, respectively, shared their experiences in space with the community and told the audience how vital Marshall’s on the ground support was to their mission success. Marshall has shaped and expanded human space exploration every decade since the NASA center opened its doors on July 1, 1960. The center’s civil service and contract workers built the nation’s flagship rockets, from the Saturn V to the SLS (Space Launch System), managed the space shuttle propulsion program, delivered the Chandra X-ray Observatory and critical elements of the International Space Station to orbit, and continue to spearhead numerous advances in science and engineering.

NASA’s Marshall Space Flight Center celebrated the 65th anniversary of its founding on July 19, 2025, with a free, public celebration at The Orion Amphitheater in Huntsville, Alabama. Thousands of team members, families, and “Rocket City” residents took part, enjoying live music, games, food, and exhibits commemorating Marshall’s legacy of ingenuity and service to the U.S. space program. During a program for the celebration, guests heard remarks from Joseph Pelfrey, director of NASA Marshall, Huntsville Mayor Tommy Battle, and Kamerra Liles, assistant general manager of The Orion Amphitheater, followed by Pelfrey sharing a new video overview about Marshall. The program continued with a video presentation from NASA astronauts from the Expedition 72 crew – which contributed more than 1,000 total hours of scientific studies on plant growth, stem cell growth for treating diseases, the resilience of microorganisms to the harsh space environment, and more on the International Space Station. NASA astronauts Suni Williams and Don Pettit, who served as space station commander and flight engineer, respectively, shared their experiences in space with the community and told the audience how vital Marshall’s on the ground support was to their mission success. Marshall has shaped and expanded human space exploration every decade since the NASA center opened its doors on July 1, 1960. The center’s civil service and contract workers built the nation’s flagship rockets, from the Saturn V to the SLS (Space Launch System), managed the space shuttle propulsion program, delivered the Chandra X-ray Observatory and critical elements of the International Space Station to orbit, and continue to spearhead numerous advances in science and engineering.

President Dwight D. Eisenhower and Mrs. George C. Marshall unveil the bronze bust of General George C. Marshall during the dedication of the Marshall Space Flight Center. Eisenhower signed an Executive Order on October 21, 1959 directing the transfer of persornel from the Redstone Arsenal's Army Ballistic Missile Agency Development Operations Division to NASA. On March 15, 1960, another Executive Order announced that the space complex formed within the boundaries of Redstone Arsenal would become the George C. Marshall Space Flight Center. The Center was activated on July 1, 1960, with dedication ceremonies taking place September 8, 1960.

These images and videos show technicians at NASA’s Marshall Space Flight Center in Huntsville, Alabama, March 17, 2025, moving the completed launch vehicle stage adapter for Artemis III from Building 4649 to Building 4708 where it will remain until it is time to ship the hardware to NASA’s Kennedy Space Center in Florida. The cone-shaped hardware connects the SLS (Space Launch System) rocket to the upper stage, the interim cryogenic propulsion stage, and protects the rocket’s flight computers, avionics, and electrical devices during launch and ascent during the Artemis missions.

These images and videos show technicians at NASA’s Marshall Space Flight Center in Huntsville, Alabama, March 17, 2025, moving the completed launch vehicle stage adapter for Artemis III from Building 4649 to Building 4708 where it will remain until it is time to ship the hardware to NASA’s Kennedy Space Center in Florida. The cone-shaped hardware connects the SLS (Space Launch System) rocket to the upper stage, the interim cryogenic propulsion stage, and protects the rocket’s flight computers, avionics, and electrical devices during launch and ascent during the Artemis missions.

These images and videos show technicians at NASA’s Marshall Space Flight Center in Huntsville, Alabama, March 17, 2025, moving the completed launch vehicle stage adapter for Artemis III from Building 4649 to Building 4708 where it will remain until it is time to ship the hardware to NASA’s Kennedy Space Center in Florida. The cone-shaped hardware connects the SLS (Space Launch System) rocket to the upper stage, the interim cryogenic propulsion stage, and protects the rocket’s flight computers, avionics, and electrical devices during launch and ascent during the Artemis missions.

These images and videos show technicians at NASA’s Marshall Space Flight Center in Huntsville, Alabama, March 17, 2025, moving the completed launch vehicle stage adapter for Artemis III from Building 4649 to Building 4708, where it will remain until it is time to ship the hardware to NASA’s Kennedy Space Center in Florida. The cone-shaped hardware connects the SLS (Space Launch System) rocket to the upper stage, the interim cryogenic propulsion stage, and protects the rocket’s flight computers, avionics, and electrical devices during launch and ascent during the Artemis missions.

These images and videos show technicians at NASA’s Marshall Space Flight Center in Huntsville, Alabama, March 17, 2025, moving the completed launch vehicle stage adapter for Artemis III from Building 4649 to Building 4708 where it will remain until it is time to ship the hardware to NASA’s Kennedy Space Center in Florida. The cone-shaped hardware connects the SLS (Space Launch System) rocket to the upper stage, the interim cryogenic propulsion stage, and protects the rocket’s flight computers, avionics, and electrical devices during launch and ascent during the Artemis missions.

Vice President Dan Quayle holds up an inscribed plaque presented by Marshall Space Flight Center Director T. J. Lee (right) during Quayle's August 31, 1992 visit. While at Marshall, Quayle participated in a roundtable discussion with aerospace managers and addressed Center employees in Building 4755.

President John Kennedy and Dr. von Braun tour one of the laboratories at Marshall Space Flight Center, September 11, 1962.

These images show NASA employees attending an event August 14, 2025, at Marshall Space Flight Center in Huntsville, Alabama, to view the Orion stage adapter for Artemis II before it is transported to NASA’s Kennedy Space Center in Florida. Manufactured entirely at NASA Marshall, the adapter plays a crucial role in connecting the SLS (Space Launch System) rocket’s interim cryogenic propulsion stage to the Orion spacecraft. This adapter is the final piece of SLS hardware to be delivered to Kennedy Space Center in preparation for the Artemis II mission.

These images show NASA employees attending an event August 14, 2025, at Marshall Space Flight Center in Huntsville, Alabama, to view the Orion stage adapter for Artemis II before it is transported to NASA’s Kennedy Space Center in Florida. Manufactured entirely at NASA Marshall, the adapter plays a crucial role in connecting the SLS (Space Launch System) rocket’s interim cryogenic propulsion stage to the Orion spacecraft. This adapter is the final piece of SLS hardware to be delivered to Kennedy Space Center in preparation for the Artemis II mission.

These images show NASA employees attending an event August 14, 2025, at Marshall Space Flight Center in Huntsville, Alabama, to view the Orion stage adapter for Artemis II before it is transported to NASA’s Kennedy Space Center in Florida. Manufactured entirely at NASA Marshall, the adapter plays a crucial role in connecting the SLS (Space Launch System) rocket’s interim cryogenic propulsion stage to the Orion spacecraft. This adapter is the final piece of SLS hardware to be delivered to Kennedy Space Center in preparation for the Artemis II mission.

These images show NASA employees attending an event August 14, 2025, at Marshall Space Flight Center in Huntsville, Alabama, to view the Orion stage adapter for Artemis II before it is transported to NASA’s Kennedy Space Center in Florida. Manufactured entirely at NASA Marshall, the adapter plays a crucial role in connecting the SLS (Space Launch System) rocket’s interim cryogenic propulsion stage to the Orion spacecraft. This adapter is the final piece of SLS hardware to be delivered to Kennedy Space Center in preparation for the Artemis II mission.

These images show NASA employees attending an event August 14, 2025, at Marshall Space Flight Center in Huntsville, Alabama, to view the Orion stage adapter for Artemis II before it is transported to NASA’s Kennedy Space Center in Florida. Manufactured entirely at NASA Marshall, the adapter plays a crucial role in connecting the SLS (Space Launch System) rocket’s interim cryogenic propulsion stage to the Orion spacecraft. This adapter is the final piece of SLS hardware to be delivered to Kennedy Space Center in preparation for the Artemis II mission.

These images show NASA employees attending an event August 14, 2025, at Marshall Space Flight Center in Huntsville, Alabama, to view the Orion stage adapter for Artemis II before it is transported to NASA’s Kennedy Space Center in Florida. Manufactured entirely at NASA Marshall, the adapter plays a crucial role in connecting the SLS (Space Launch System) rocket’s interim cryogenic propulsion stage to the Orion spacecraft. This adapter is the final piece of SLS hardware to be delivered to Kennedy Space Center in preparation for the Artemis II mission.

These images show NASA employees attending an event August 14, 2025, at Marshall Space Flight Center in Huntsville, Alabama, to view the Orion stage adapter for Artemis II before it is transported to NASA’s Kennedy Space Center in Florida. Manufactured entirely at NASA Marshall, the adapter plays a crucial role in connecting the SLS (Space Launch System) rocket’s interim cryogenic propulsion stage to the Orion spacecraft. This adapter is the final piece of SLS hardware to be delivered to Kennedy Space Center in preparation for the Artemis II mission.

These photos and timelapse show NASA’s IMAP mission being loaded into the thermal vacuum chamber of NASA Marshall Space Flight Center’s X-Ray and Cryogenic Facility (XRCF) in Huntsville, Alabama. IMAP arrived at Marshall March 18 and was loaded into the chamber March 19. IMAP will undergo testing such as dramatic temperature changes to simulate the harsh environment of space. The XRCF’s vacuum chamber is is 20 feet in diameter and 60 feet long making it one of the largest across NASA. The IMAP mission is a modern-day celestial cartographer that will map the solar system by studying the heliosphere, a giant bubble created by the Sun’s solar wind that surrounds our solar system and protects it from harmful interstellar radiation. Photos and video courtesy of Ed Whitman from Johns Hopkins University’s Applied Physics Laboratory. For more information, contact NASA Marshall’s Office of Communications at 256-544-0034.

These photos and timelapse show NASA’s IMAP mission being loaded into the thermal vacuum chamber of NASA Marshall Space Flight Center’s X-Ray and Cryogenic Facility (XRCF) in Huntsville, Alabama. IMAP arrived at Marshall March 18 and was loaded into the chamber March 19. IMAP will undergo testing such as dramatic temperature changes to simulate the harsh environment of space. The XRCF’s vacuum chamber is is 20 feet in diameter and 60 feet long making it one of the largest across NASA. The IMAP mission is a modern-day celestial cartographer that will map the solar system by studying the heliosphere, a giant bubble created by the Sun’s solar wind that surrounds our solar system and protects it from harmful interstellar radiation. Photos and video courtesy of Ed Whitman from Johns Hopkins University’s Applied Physics Laboratory. For more information, contact NASA Marshall’s Office of Communications at 256-544-0034.

These photos and timelapse show NASA’s IMAP mission being loaded into the thermal vacuum chamber of NASA Marshall Space Flight Center’s X-Ray and Cryogenic Facility (XRCF) in Huntsville, Alabama. IMAP arrived at Marshall March 18 and was loaded into the chamber March 19. IMAP will undergo testing such as dramatic temperature changes to simulate the harsh environment of space. The XRCF’s vacuum chamber is is 20 feet in diameter and 60 feet long making it one of the largest across NASA. The IMAP mission is a modern-day celestial cartographer that will map the solar system by studying the heliosphere, a giant bubble created by the Sun’s solar wind that surrounds our solar system and protects it from harmful interstellar radiation. Photos and video courtesy of Ed Whitman from Johns Hopkins University’s Applied Physics Laboratory. For more information, contact NASA Marshall’s Office of Communications at 256-544-0034.

Marshall’s Ruth Jones, a mishap investigation specialist, told her NASA story and spoke about minority statistics in science, technology, engineering and mathematics (STEM). Jones also led a panel discussing how to engage, encourage and draw more minority students in to STEM fields and careers.

Air Force Two lands with Vice President Mike Pence along with Congressman Robert Aderholt at the Redstone Army Airfield in Huntsville, Alabama, on Monday, Sept. 25. They were greeted by NASA’s Marshall Space Flight Center Director Todd May and Redstone Arsenal’s Lt. Gen. Edward Daly. The Vice President is visiting NASA’s Marshall Center to meet with employees, view test hardware for NASA’s Space Launch System — America’s new deep-space rocket, and tour the Payload Operations Integration Center, “science central” for the International Space Station. Photo Credit: (NASA/Emmett Given)

Air Force Two lands with Vice President Mike Pence along with Congressman Robert Aderholt at the Redstone Army Airfield in Huntsville, Alabama, on Monday, Sept. 25. The Vice President is visiting NASA’s Marshall Space Flight Center, located on Redstone Arsenal, to meet with employees, view test hardware for NASA’s Space Launch System — America’s new deep-space rocket, and tour the Payload Operations Integration Center, “science central” for the International Space Station. Photo Credit: (NASA/Emmett Given)

The Marshall Space Flight Center, a NASA field installation, was established at Huntsville, Alabama, in 1960. The Center was named in honor of General George C. Marshall, the Army Chief of Staff during World War II, Secretary of State, and Nobel Prize Wirner for his world-renowned Marshall Plan.

The Marshall Space Flight Center, a NASA field installation, was established at Huntsville, Alabama, in 1960. The Center was named in honor of General George C. Marshall, the Army Chief of Staff during World War II, Secretary of State, and Nobel Prize Wirner for his world-renowned Marshall Plan.

Technicians at NASA’s Marshall Space Flight Center in Huntsville, Alabama, are seen in these images taken April 17, 2025, moving the payload adapter test article from Building 4697 to Building 4705 for storage. This move marks the end of structural testing for the test article. Next, engineers will complete the qualification article and conduct additional for further testing before building the final flight hardware. Manufactured at Marshall, the test article underwent extensive and rigorous testing to validate the design before engineers finalized the configuration for the flight article. The newly completed composite payload adapter is an evolution from the Orion stage adapter to be used in the upgraded Block 1B configuration of the SLS (Space Launch System) rocket, debuting with Artemis IV.

Technicians at NASA’s Marshall Space Flight Center in Huntsville, Alabama, are seen in these images taken April 17, 2025, moving the payload adapter test article from Building 4697 to Building 4705 for storage. This move marks the end of structural testing for the test article. Next, engineers will complete the qualification article and conduct additional for further testing before building the final flight hardware. Manufactured at Marshall, the test article underwent extensive and rigorous testing to validate the design before engineers finalized the configuration for the flight article. The newly completed composite payload adapter is an evolution from the Orion stage adapter to be used in the upgraded Block 1B configuration of the SLS (Space Launch System) rocket, debuting with Artemis IV.

Technicians at NASA’s Marshall Space Flight Center in Huntsville, Alabama, are seen in these images taken April 17, 2025, moving the payload adapter test article from Building 4697 to Building 4705 for storage. This move marks the end of structural testing for the test article. Next, engineers will complete the qualification article and conduct additional for further testing before building the final flight hardware. Manufactured at Marshall, the test article underwent extensive and rigorous testing to validate the design before engineers finalized the configuration for the flight article. The newly completed composite payload adapter is an evolution from the Orion stage adapter to be used in the upgraded Block 1B configuration of the SLS (Space Launch System) rocket, debuting with Artemis IV.

Technicians at NASA’s Marshall Space Flight Center in Huntsville, Alabama, are seen in these images taken April 17, 2025, moving the payload adapter test article from Building 4697 to Building 4705 for storage. This move marks the end of structural testing for the test article. Next, engineers will complete the qualification article and conduct additional for further testing before building the final flight hardware. Manufactured at Marshall, the test article underwent extensive and rigorous testing to validate the design before engineers finalized the configuration for the flight article. The newly completed composite payload adapter is an evolution from the Orion stage adapter to be used in the upgraded Block 1B configuration of the SLS (Space Launch System) rocket, debuting with Artemis IV.

Technicians at NASA’s Marshall Space Flight Center in Huntsville, Alabama, are seen in these images taken April 17, 2025, moving the payload adapter test article from Building 4697 to Building 4705 for storage. This move marks the end of structural testing for the test article. Next, engineers will complete the qualification article and conduct additional for further testing before building the final flight hardware. Manufactured at Marshall, the test article underwent extensive and rigorous testing to validate the design before engineers finalized the configuration for the flight article. The newly completed composite payload adapter is an evolution from the Orion stage adapter to be used in the upgraded Block 1B configuration of the SLS (Space Launch System) rocket, debuting with Artemis IV.

Technicians at NASA’s Marshall Space Flight Center in Huntsville, Alabama, are seen in these images taken April 17, 2025, moving the payload adapter test article from Building 4697 to Building 4705 for storage. This move marks the end of structural testing for the test article. Next, engineers will complete the qualification article and conduct additional for further testing before building the final flight hardware. Manufactured at Marshall, the test article underwent extensive and rigorous testing to validate the design before engineers finalized the configuration for the flight article. The newly completed composite payload adapter is an evolution from the Orion stage adapter to be used in the upgraded Block 1B configuration of the SLS (Space Launch System) rocket, debuting with Artemis IV.

Technicians at NASA’s Marshall Space Flight Center in Huntsville, Alabama, are seen in these images taken April 17, 2025, moving the payload adapter test article from Building 4697 to Building 4705 for storage. This move marks the end of structural testing for the test article. Next, engineers will complete the qualification article and conduct additional for further testing before building the final flight hardware. Manufactured at Marshall, the test article underwent extensive and rigorous testing to validate the design before engineers finalized the configuration for the flight article. The newly completed composite payload adapter is an evolution from the Orion stage adapter to be used in the upgraded Block 1B configuration of the SLS (Space Launch System) rocket, debuting with Artemis IV.

Air Force Two lands with Vice President Mike Pence along with Congressman Robert Aderholt at the Redstone Army Airfield in Huntsville, Alabama, on Monday, Sept. 25. The Vice President is visiting NASA’s Marshall Space Flight Center, located on Redstone Arsenal, to meet with employees, view test hardware for NASA’s Space Launch System — America’s new deep-space rocket, and tour the Payload Operations Integration Center, “science central” for the International Space Station. Photo Credit: (NASA/Emmett Given)

These photos and videos show how crews at NASA’s Marshall Space Flight Center in Huntsville, Alabama, moved and installed the payload adapter that will be used in the Block 1B configuration of the SLS (Space Launch System) rocket from Building 4708, where it was manufactured, into Structural Test Stand 4697 at NASA’s Marshall Space Flight Center on March 13. Teams at Marshall will begin structural testing the engineering development unit of the payload adapter – an exact replica of the flight version of the hardware – this spring. The cone-shaped payload adapter is about 8.5 feet tall and features two metal rings and eight composite panels. The adapter, which will debut on NASA’s Artemis IV mission, is an evolution from the Orion stage adapter used in the Block 1 configuration of the first three Artemis missions. It will be housed inside the universal stage adapter atop the rocket’s more powerful in-space stage, called the exploration upper stage. The payload adapter, like the launch vehicle stage adapter and the Orion stage adapter, is fully manufactured and tested at Marshall, which manages the SLS Program. NASA is working to land the first woman, first person of color, and its first international partner astronaut on the Moon under Artemis. SLS is part of NASA’s backbone for deep space exploration, along with the Orion spacecraft and Gateway in orbit around the Moon and commercial human landing systems, next-generational spacesuits, and rovers on the lunar surface. SLS is the only rocket that can send Orion, astronauts, and supplies to the Moon in a single launch.

Stewart Whaley and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Reid Ruggles and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Sean Kenny and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Paul Crawford and Teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Steve Gaddis and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Adam Butt andTeams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Steve Gaddis and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Miranda Holton and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Reid Ruggles and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Amanda Stein and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Jimmy Moore and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Paul Crawford andTeams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Paul Crawford and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Amanda Stein and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Patrick Mills and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Reid Ruggles and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Steve Gaddis and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Ken Schrock and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Miranda Holton and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Miranda Holton and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Deborah Crane andTeams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Steve Gaddis and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Deborah Crane and Teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Ken Schrock and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Ken Schrock and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Jimmy Moore and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Adam Butt andTeams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Ken Schrock and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Patrick Mills and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Stewart Whaley and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Steve Gaddis and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Stewart Whaley and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Sean Kenny and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Steve Gaddis and Teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Sean Kenny and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

NASA themed cookies for teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Reid Ruggles and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Adam Butt andTeams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Pictured is the north side of Building 4221 on the campus of Marshall Space Flight Center.

BUILDING 4200, FRONT VIEW, JUNE 16, 2013

Pictured is Building 4205, which serves as Marshall Space Flight Center’s Propulsion R&D Lab.

Pictured at sunset is Marshall Space Flight Center’s Propulsion R&D Lab, Building 4205.

At dusk, the northern side of Building 4221 on Marshall Space Flight Center’s campus is silhouetted against blue skies.

The first organizational chart for the George C. Marshall Space Flight Center (MSFC) with individual assignments, dated November 28, 1960.

Building 4220 on the campus of Marshall Space Flight Center is home to NASA’s Space Launch System Program.

The southward-facing side of Building 4220 on Marshall Space Flight Center’s campus is illuminated by the afternoon sun.

Keith Parrish, left, of the Space Systems Department at NASA’s Marshall Space Flight Center, discusses the process of the Environmental Control and Life Support System with Marshall Center Director Todd May, second from left, and members of the legendary rock band Styx during a tour of Marshall April 27. Inspired by NASA’s goal of sending humans to Mars in the 2030s, the band’s upcoming album, "The Mission," musically chronicles a futuristic, crewed mission to Mars. While Styx’s mission may be only realized through their iconic sound, NASA’s mission is well underway with the new Space Launch System

These photos and videos show how crews at NASA’s Marshall Space Flight Center in Huntsville, Alabama, moved and installed the payload adapter that will be used in the Block 1B configuration of the SLS (Space Launch System) rocket from Building 4708, where it was manufactured, into Structural Test Stand 4697 at NASA’s Marshall Space Flight Center on March 13. Teams at Marshall will begin structural testing the engineering development unit of the payload adapter – an exact replica of the flight version of the hardware – this spring. The cone-shaped payload adapter is about 8.5 feet tall and features two metal rings and eight composite panels. The adapter, which will debut on NASA’s Artemis IV mission, is an evolution from the Orion stage adapter used in the Block 1 configuration of the first three Artemis missions. It will be housed inside the universal stage adapter atop the rocket’s more powerful in-space stage, called the exploration upper stage. The payload adapter, like the launch vehicle stage adapter and the Orion stage adapter, is fully manufactured and tested at Marshall, which manages the SLS Program. NASA is working to land the first woman, first person of color, and its first international partner astronaut on the Moon under Artemis. SLS is part of NASA’s backbone for deep space exploration, along with the Orion spacecraft and Gateway in orbit around the Moon and commercial human landing systems, next-generational spacesuits, and rovers on the lunar surface. SLS is the only rocket that can send Orion, astronauts, and supplies to the Moon in a single launch.

Crews at NASA’s Marshall Space Flight Center in Huntsville, Alabama, moved and installed the payload adapter that will be used in the Block 1B configuration of the SLS (Space Launch System) rocket from Building 4708, where it was manufactured, into Structural Test Stand 4697 at NASA’s Marshall Space Flight Center on March 13.

Air Force Two lands with Vice President Mike Pence along with Congressman Robert Aderholt at the Redstone Army Airfield in Huntsville, Alabama, on Monday, Sept. 25. The Vice President is visiting NASA’s Marshall Space Flight Center, located on Redstone Arsenal, to meet with employees, view test hardware for NASA’s Space Launch System — America’s new deep-space rocket, and tour the Payload Operations Integration Center, “science central” for the International Space Station. Photo Credit: (NASA/Emmett Given)

Ken Schrock, Paul Crawford, Adam Butt, and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Stewart Whaley, Cameron Muelling, foreground, and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Preston Jones, Deborah Crane, and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Preston Jones, Deborah Crane, and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Patrick Mills, Stewart Whaley, Cameron Muelling and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Stewart Whaley, Cameron Muelling, foreground, and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Preston Jones, Deborah Crane, Adam Butt, and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Stewart Whaley, Cameron Muelling, foreground, and teamsat NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Janet Anderson, Paul Crawford, and teams at NASA’s Marshall Space Flight Center help monitor launch conditions for the Demo-2 mission from the Huntsville Operations Support Center, HOSC.

Engineers at NASA’s Marshall Space Flight Center in Huntsville, Alabama, conduct a successful, 251-second hot fire test of a full-scale Rotating Detonation Rocket Engine combustor in fall 2023, achieving more than 5,800 pounds of thrust.

NASA rolled out a key piece of space flight hardware for the SLS (Space Launch System) rocket for the first crewed mission of NASA’s Artemis campaign from Marshall Space Flight Center in Huntsville, Alabama, on Wednesday, Aug. 21 for shipment to the agency’s spaceport in Florida. The cone-shaped launch vehicle stage adapter connects the rocket’s core stage to the upper stage and helps protect the upper stage’s engine that will help propel the Artemis II test flight around the Moon, slated for 2025. Manufactured by prime contractor Teledyne Brown Engineering and the Jacobs Space Exploration Group’s ESSCA (Engineering Services and Science Capability Augmentation) contract using NASA Marshall’s self-reacting friction-stir robotic and vertical weld tools. Crews moved the adapter out of NASA Marshall’s Building 4708 to the agency’s Pegasus barge Aug. 21. The barge will ferry the adapter first to NASA’s Michoud Assembly Facility in New Orleans, where crews will pick up additional SLS hardware for future Artemis missions, before traveling to NASA Kennedy. Once in Florida, the adapter will join the recently delivered core stage. There, teams with NASA’s Exploration Ground Systems will prepare the adapter for stacking and launch.