Washington, D.C. – NASA has taken the next steps toward building Space Launch System (SLS) rocket core stages to support as many as 10 Artemis missions, including the mission that will carry the first woman and next man to the Moon by 2024.
The agency intends to work with Boeing, the current lead contractor for the core stages of the rockets that will fly on the first two Artemis missions, for the production of SLS rockets through the next decade.
The core stage is the center part of the rocket that contains the two giant liquid fuel tanks. Towering 212 feet with a diameter of 27.6 feet, it will store cryogenic liquid hydrogen and liquid oxygen and all the systems that will feed the stage’s four RS-25 engines.
It also houses the flight computers and much of the avionics needed to control the rocket’s flight.
NASA has provided initial funding and authorization to Boeing to begin work toward the production of the third core stage and to order targeted long-lead materials and cost-efficient bulk purchases to support future builds of core stages.
This action allows Boeing to manufacture the third core stage in time for the 2024 mission, Artemis III, while NASA and Boeing work on negotiations to finalize the details of the full contract within the next year. The full contract is expected to support up to 10 core stages and up to eight Exploration Upper Stages (EUS).
“It is urgent that we meet the President’s goal to land astronauts on the Moon by 2024, and SLS is the only rocket that can help us meet that challenge,” said NASA Administrator Jim Bridenstine. “These initial steps allow NASA to start building the core stage that will launch the next astronauts to set foot on the lunar surface and build the powerful exploration upper stage that will expand the possibilities for Artemis missions by sending hardware and cargo along with humans or even heavier cargo needed to explore the Moon or Mars.”
Boeing’s current contract includes the SLS core stages for the Artemis I and Artemis II missions and the first EUS, as well as structural test articles and the core stage pathfinder. The new contract is expected to realize substantial savings compared to the production costs of core stages built during the design, development, test and evaluation phase by applying lessons learned during first-time builds and gaining efficiencies through bulk purchases.
“SLS is the only rocket powerful enough to send Orion, astronauts and supplies to the Moon on a single mission, and no other rocket in production today can send as much cargo to deep space as the Space Launch System rocket,” Honeycutt stated.
For the first three Artemis missions, the SLS rocket uses an interim cryogenic propulsion stage to send the Orion spacecraft to the Moon. The SLS rocket is designed to meet a variety of mission needs by evolving to carry greater mass and volume with a more powerful EUS.
The EUS is an important part of Artemis infrastructure needed to send astronauts and large cargo together, or larger cargo-only shipments, to the Moon, Mars and deep space. NASA aims to use the first EUS on the Artemis IV mission, and additional core stages and upper stages will support either crewed Artemis missions, science missions or cargo missions.
“The exploration upper stage will truly open up the universe by providing even more lift capability to deep space,” said Julie Bassler, the SLS Stages manager at Marshall. “The exploration upper stage will provide the power to send more than 45 metric tons, or 99 thousand pounds, to lunar orbit.”
Soon, the stage will be shipped to NASA’s Stennis Space Center near Bay St. Louis, Mississippi, where it will undergo Green Run testing, an integrated test of the entire new stage that culminates with the firing of all four RS-25 engines. Upon completion of the test, NASA’s Pegasus barge will take the core stage to NASA’s Kennedy Space Center in Florida where it will be integrated with other parts of the rocket and Orion for Artemis I.
Boeing also has completed manufacturing most of the main core stage structures for Artemis II.
The Artemis program is the next step in human space exploration. It’s part of NASA’s broader Moon to Mars exploration approach, in which we will quickly and sustainably explore the Moon and use what we learn there to enable humanity’s next giant leap, sending astronauts to Mars.
For more information about SLS visit: https://www.nasa.gov/sls