BLDG. 4755 HIGH BAY OVERVIEW SHOWING LVSA FORWARD CONE (RIGHT) AND AFT CONE (LEFT) SECTIONS.

LVSA AFT CONE MOVE FROM FRAME TO FLOOR PRIOR TO BEING MATED TO FORWARD CONE. FEBRUARY 17, 2016.

LVSA AFT CONE MOVE FROM FRAME TO FLOOR PRIOR TO BEING MATED TO FORWARD CONE. FEBRUARY 17, 2016.

LVSA AFT CONE MOVE FROM FRAME TO FLOOR PRIOR TO BEING MATED TO FORWARD CONE. FEBRUARY 17, 2016.

The left hand aft skirt for NASA’s Space Launch System (SLS) rocket is transported across the Roy D. Bridges Bridge from the Hangar AF facility at Cape Canaveral Air Force Station in Florida, on its way to the Booster Fabrication Facility at the agency’s Kennedy Space Center. The space shuttle-era aft skirt, was inspected, resurfaced, primed and painted for use on the left hand booster of the SLS rocket for Exploration Mission 1 (EM-1). NASA is preparing for EM-1, deep-space missions, and the journey to Mars.

LVSA AFT CONE SECTION POST WELD #8 WELD SEAM DETAILS

Launch Vehicle Stage Adapter (LVSA) Aft Cone Post Weld #7

Launch Vehicle Stage Adapter (LVSA) Aft Cone Post Weld #7

Launch Vehicle Stage Adapter (LVSA) Aft Cone Post Weld #7

Launch Vehicle Stage Adapter (LVSA) Aft Cone Post Weld #7

Launch Vehicle Stage Adapter (LVSA) Aft Cone Post Weld #7

Launch Vehicle Stage Adapter (LVSA) Aft Cone Post Weld #7

Launch Vehicle Stage Adapter (LVSA) Aft Cone Post Weld #7

Launch Vehicle Stage Adapter (LVSA) Aft Cone Post Weld #7

Launch Vehicle Stage Adapter (LVSA) Aft Cone Post Weld #7

Launch Vehicle Stage Adapter (LVSA) Aft Cone Post Weld #7

Launch Vehicle Stage Adapter (LVSA) Aft Cone Post Weld #7

Launch Vehicle Stage Adapter (LVSA) Aft Cone Post Weld #7

Launch Vehicle Stage Adapter (LVSA) Aft Cone Post Weld #7

Launch Vehicle Stage Adapter (LVSA) Aft Cone Post Weld #7

Launch Vehicle Stage Adapter (LVSA) Aft Cone Post Weld #7

Launch Vehicle Stage Adapter (LVSA) Aft Cone Post Weld #7

Launch Vehicle Stage Adapter (LVSA) Aft Cone Post Weld #7

Launch Vehicle Stage Adapter (LVSA) Aft Cone Post Weld #7

Launch Vehicle Stage Adapter (LVSA) Aft Cone Post Weld #7

Launch Vehicle Stage Adapter (LVSA) Aft Cone Post Weld #7

Launch Vehicle Stage Adapter (LVSA) Aft Cone Post Weld #7

Launch Vehicle Stage Adapter (LVSA) Aft Cone Post Weld #7

Launch Vehicle Stage Adapter (LVSA) Aft Cone Post Weld #7

Both of the Northrop Grumman-manufactured aft exit cones for the Space Launch System’s solid rocket boosters are in view inside the Rotation, Processing and Surge Facility at NASA’s Kennedy Space Center in Florida on Dec. 9, 2019. Both arrived from Promontory, Utah. The right aft exit cone is in the foreground, and the left aft exit cone is in the background. They will be checked out and prepared for the Artemis I uncrewed test flight. The aft exit cones sit at the bottommost part of the twin boosters. The cones help provide added thrust for the boosters, while protecting the aft skirts from the thermal environment during launch.

The first Northrop Grumman aft exit cone to arrive for the Space Launch System’s solid rocket boosters is moved by crane inside the Rotation, Processing and Surge Facility at NASA’s Kennedy Space Center in Florida on Nov. 4, 2019. The aft exit cone was shipped from Promontory, Utah. It will be checked out and prepared for the Artemis I uncrewed test flight. The aft exit cones sit at the bottommost part of the twin boosters. They are attached to the aft skirts, which contain the booster separation motors. The exit cones help to protect the aft skirts during launch.

The first of two Northrop Grumman aft exit cones for the Space Launch System’s solid rocket boosters arrives by truck in its shipping container at the Rotation, Processing and Surge Facility at NASA's Kennedy Space Center in Florida on Nov. 4, 2019. The aft exit cone was shipped from Promontory, Utah. It will be checked out and prepared for the Artemis I uncrewed test flight. The aft exit cones sit at the bottommost part of the twin boosters. They are attached to the aft skirts, which contain the booster separation motors. The exit cones help to protect the aft skirts during launch.

A crane is used to lift the first Northrop Grumman aft exit cone to arrive for the Space Launch System’s solid rocket boosters away from its shipping base inside the Rotation, Processing and Surge Facility at NASA’s Kennedy Space Center in Florida on Nov. 4, 2019. The aft exit cone was shipped from Promontory, Utah. It will be checked out and prepared for the Artemis I uncrewed test flight. The aft exit cones sit at the bottommost part of the twin boosters. They are attached to the aft skirts, which contain the booster separation motors. The exit cones help to protect the aft skirts during launch.

Workers attach a crane to the first Northrop Grumman aft exit cone to arrive for the Space Launch System’s solid rocket boosters inside the Rotation, Processing and Surge Facility at NASA’s Kennedy Space Center in Florida on Nov. 4, 2019. The aft exit cone was shipped from Promontory, Utah. It will be checked out and prepared for the Artemis I uncrewed test flight. The aft exit cones sit at the bottommost part of the twin boosters. They are attached to the aft skirts, which contain the booster separation motors. The exit cones help to protect the aft skirts during launch.

Workers assist with removal of the shipping container cover from the first Northrop Grumman aft exit cone to arrive for the Space Launch System’s solid rocket boosters inside the Rotation, Processing and Surge Facility at NASA’s Kennedy Space Center in Florida on Nov. 4, 2019. The aft exit cone was shipped from Promontory, Utah. It will be checked out and prepared for the Artemis I uncrewed test flight. The aft exit cones sit at the bottommost part of the twin boosters. They are attached to the aft skirts, which contain the booster separation motors. The exit cones help to protect the aft skirts during launch.

Workers remove the protective cover from the first Northrop Grumman aft exit cone to arrive for the Space Launch System’s solid rocket boosters inside the Rotation, Processing and Surge Facility at NASA’s Kennedy Space Center in Florida on Nov. 4, 2019. The aft exit cone was shipped from Promontory, Utah. It will be checked out and prepared for the Artemis I uncrewed test flight. The aft exit cones sit at the bottommost part of the twin boosters. They are attached to the aft skirts, which contain the booster separation motors. The exit cones help to protect the aft skirts during launch.

The shipping container cover has been removed from the first Northrop Grumman aft exit cone to arrive for the Space Launch System’s solid rocket boosters inside the Rotation, Processing and Surge Facility at NASA’s Kennedy Space Center in Florida on Nov. 4, 2019. The aft exit cone was shipped from Promontory, Utah. It will be checked out and prepared for the Artemis I uncrewed test flight. The aft exit cones sit at the bottommost part of the twin boosters. They are attached to the aft skirts, which contain the booster separation motors. The exit cones help to protect the aft skirts during launch.

The first Northrop Grumman aft exit cone to arrive for the Space Launch System’s solid rocket boosters is moved by crane inside the Rotation, Processing and Surge Facility at NASA’s Kennedy Space Center in Florida on Nov. 4, 2019. The aft exit cone was shipped from Promontory, Utah. It will be checked out and prepared for the Artemis I uncrewed test flight. The aft exit cones sit at the bottommost part of the twin boosters. They are attached to the aft skirts, which contain the booster separation motors. The exit cones help to protect the aft skirts during launch.

Workers assist as a crane is used to lift up the shipping container cover from the first Northrop Grumman aft exit cone to arrive for the Space Launch System’s solid rocket boosters inside the Rotation, Processing and Surge Facility at NASA’s Kennedy Space Center in Florida on Nov. 4, 2019. The aft exit cone was shipped from Promontory, Utah. It will be checked out and prepared for the Artemis I uncrewed test flight. The aft exit cones sit at the bottommost part of the twin boosters. They are attached to the aft skirts, which contain the booster separation motors. The exit cones help to protect the aft skirts during launch.

Workers attach a crane to the first Northrop Grumman aft exit cone to arrive for the Space Launch System’s solid rocket boosters inside the Rotation, Processing and Surge Facility at NASA’s Kennedy Space Center in Florida on Nov. 4, 2019. The aft exit cone was shipped from Promontory, Utah. It will be checked out and prepared for the Artemis I uncrewed test flight. The aft exit cones sit at the bottommost part of the twin boosters. They are attached to the aft skirts, which contain the booster separation motors. The exit cones help to protect the aft skirts during launch.

A worker removes one of the securing straps from the first Northrop Grumman aft exit cone to arrive for the Space Launch System’s solid rocket boosters inside the Rotation, Processing and Surge Facility at NASA’s Kennedy Space Center in Florida on Nov. 4, 2019. The aft exit cone was shipped from Promontory, Utah. It will be checked out and prepared for the Artemis I uncrewed test flight. The aft exit cones sit at the bottommost part of the twin boosters. They are attached to the aft skirts, which contain the booster separation motors. The exit cones help to protect the aft skirts during launch.

The second of two Northrop Grumman-manufactured aft exit cones to arrive for the Space Launch System’s solid rocket boosters is moved by crane inside the Rotation, Processing and Surge Facility at NASA’s Kennedy Space Center in Florida on Dec. 9, 2019. Both aft exit cone were shipped from Promontory, Utah. The left aft exit cone is in view in the background. They will be checked out and prepared for the Artemis I uncrewed test flight. The aft exit cones sit at the bottommost part of the twin boosters. The cones help provide added thrust for the boosters, while protecting the aft skirts from the thermal environment during launch.

Workers assist with removal of the shipping container cover from the first Northrop Grumman aft exit cone to arrive for the Space Launch System’s solid rocket boosters inside the Rotation, Processing and Surge Facility at NASA’s Kennedy Space Center in Florida on Nov. 4, 2019. The aft exit cone was shipped from Promontory, Utah. It will be checked out and prepared for the Artemis I uncrewed test flight. The aft exit cones sit at the bottommost part of the twin boosters. They are attached to the aft skirts, which contain the booster separation motors. The exit cones help to protect the aft skirts during launch.

The right hand aft skirt for NASA's Space Launch System (SLS) rocket has been refurbished and painted and is ready for the assembly process in the Booster Fabrication Facility at the agency's Kennedy Space Center in Florida. The aft skirt was refurbished and painted in support facilities at the Hangar AF facility at Cape Canaveral Air Force Station in Florida. The space shuttle-era aft skirt will be used on the right hand booster of the SLS for Exploration Mission 1 (EM-1). NASA is preparing for EM-1, deep space missions, and the Journey to Mars.

The right hand aft skirt for NASA's Space Launch System (SLS) rocket has been refurbished and painted and is ready for the assembly process in the Booster Fabrication Facility at the agency's Kennedy Space Center in Florida. The aft skirt was refurbished and painted in support facilities at the Hangar AF facility at Cape Canaveral Air Force Station in Florida. The space shuttle-era aft skirt will be used on the right hand booster of the SLS for Exploration Mission 1 (EM-1). NASA is preparing for EM-1, deep space missions, and the Journey to Mars.

The right hand aft skirt for NASA's Space Launch System (SLS) rocket has been refurbished and painted and is ready for the assembly process in the Booster Fabrication Facility at the agency's Kennedy Space Center in Florida. The aft skirt was refurbished and painted in support facilities at the Hangar AF facility at Cape Canaveral Air Force Station in Florida. The space shuttle-era aft skirt will be used on the right hand booster of the SLS for Exploration Mission 1 (EM-1). NASA is preparing for EM-1, deep space missions, and the Journey to Mars.

The Northrop Grumman-manufactured right aft exit cone, the second of two for the Space Launch System’s solid rocket boosters, is in view inside the Rotation, Processing and Surge Facility at NASA’s Kennedy Space Center in Florida on Dec. 9, 2019. The aft exit cone was shipped from Promontory, Utah. It will be checked out and prepared for the Artemis I uncrewed test flight. The aft exit cones sit at the bottommost part of the twin boosters. The cones help provide added thrust for the boosters, while protecting the aft skirts from the thermal environment during launch.

The Northrop Grumman-manufactured right aft exit cone, the second of two for the Space Launch System’s solid rocket boosters, is in view inside the Rotation, Processing and Surge Facility at NASA’s Kennedy Space Center in Florida on Dec. 9, 2019. Both aft exit cones were shipped from Promontory, Utah. They will be checked out and prepared for the Artemis I uncrewed test flight. The aft exit cones sit at the bottommost part of the twin boosters. The cones help provide added thrust for the boosters, while protecting the aft skirts from the thermal environment during launch.

A worker removes one of the securing straps from the second of two Northrop Grumman-manufactured aft exit cones to arrive for the Space Launch System’s solid rocket boosters inside the Rotation, Processing and Surge Facility at NASA’s Kennedy Space Center in Florida on Dec. 9, 2019. The right aft exit cone was shipped from Promontory, Utah. It will be checked out and prepared for the Artemis I uncrewed test flight. The aft exit cones sit at the bottommost part of the twin boosters. The cones help provide added thrust for the boosters, while protecting the aft skirts from the thermal environment during launch.

The shipping container has been removed from the second of two Northrop Grumman-manufactured aft exit cones to arrive for the Space Launch System’s solid rocket boosters inside the Rotation, Processing and Surge Facility at NASA’s Kennedy Space Center in Florida on Dec. 9, 2019. The right aft exit cone was shipped from Promontory, Utah. It will be checked out and prepared for the Artemis I uncrewed test flight. The aft exit cones sit at the bottommost part of the twin boosters. The cones help provide added thrust for the boosters, while protecting the aft skirts from the thermal environment during launch.

Workers assist with removal of the shipping container cover from the second Northrop Grumman-manufactured aft exit cone to arrive for the Space Launch System’s solid rocket boosters inside the Rotation, Processing and Surge Facility at NASA’s Kennedy Space Center in Florida on Dec. 9, 2019. The right aft exit cone was shipped from Promontory, Utah. It will be checked out and prepared for the Artemis I uncrewed test flight. The aft exit cones sit at the bottommost part of the twin boosters. The cones help provide added thrust for the boosters, while protecting the aft skirts from the thermal environment during launch.

The shipping container has been removed from the second of two Northrop Grumman-manufactured aft exit cones to arrive for the Space Launch System’s solid rocket boosters inside the Rotation, Processing and Surge Facility at NASA’s Kennedy Space Center in Florida on Dec. 9, 2019. The right aft exit cone was shipped from Promontory, Utah. It will be checked out and prepared for the Artemis I uncrewed test flight. The aft exit cones sit at the bottommost part of the twin boosters. The cones help provide added thrust for the boosters, while protecting the aft skirts from the thermal environment during launch.

A crane is used to lift the Northrop Grumman-manufactured right aft exit cone for the Space Launch System’s solid rocket boosters away from its shipping base inside the Rotation, Processing and Surge Facility at NASA’s Kennedy Space Center in Florida on Dec. 9, 2019. The right and left aft exit cones were shipped from Promontory, Utah. They will be checked out and prepared for the Artemis I uncrewed test flight. The aft exit cones sit at the bottommost part of the twin boosters. The cones help provide added thrust for the boosters, while protecting the aft skirts from the thermal environment during launch.

A crane is used to lift the Northrop Grumman right-manufactured aft exit cone for the Space Launch System’s solid rocket boosters away from its shipping base for securing on a processing stand inside the Rotation, Processing and Surge Facility at NASA’s Kennedy Space Center in Florida on Dec. 9, 2019. The right and left aft exit cones were shipped from Promontory, Utah. They will be checked out and prepared for the Artemis I uncrewed test flight. The aft exit cones sit at the bottommost part of the twin boosters. The cones help provide added thrust for the boosters, while protecting the aft skirts from the thermal environment during launch.

Workers remove the securing straps from the second of two Northrop Grumman-manufactured aft exit cones to arrive for the Space Launch System’s solid rocket boosters inside the Rotation, Processing and Surge Facility at NASA’s Kennedy Space Center in Florida on Dec. 9, 2019. The right aft exit cone was shipped from Promontory, Utah. It will be checked out and prepared for the Artemis I uncrewed test flight. The aft exit cones sit at the bottommost part of the twin boosters. The cones help provide added thrust for the boosters, while protecting the aft skirts from the thermal environment during launch.

The Northrop Grumman-manufactured right aft exit cone, the second of two for the Space Launch System’s solid rocket boosters, is in view inside the Rotation, Processing and Surge Facility at NASA’s Kennedy Space Center in Florida on Dec. 9, 2019. The aft exit cone was shipped from Promontory, Utah. It will be checked out and prepared for the Artemis I uncrewed test flight. The aft exit cones sit at the bottommost part of the twin boosters. The cones help provide added thrust for the boosters, while protecting the aft skirts from the thermal environment during launch.

The second of two Northrop Grumman-manufactured aft exit cones for the Space Launch System’s solid rocket boosters arrives by truck in its shipping container at the Rotation, Processing and Surge Facility at NASA's Kennedy Space Center in Florida on Dec. 9, 2019. The right aft exit cone was shipped from Promontory, Utah. It will be checked out and prepared for the Artemis I uncrewed test flight. The aft exit cones sit at the bottommost part of the twin boosters. The cones help provide added thrust for the boosters, while protecting the aft skirts from the thermal environment during launch.

The left hand aft skirt for NASA’s Space Launch System (SLS) rocket is moved inside the Booster Fabrication Facility at the agency’s Kennedy Space Center in Florida. The aft skirt arrived from the Hangar AF facility at Cape Canaveral Air Force Station. The space shuttle-era aft skirt, was inspected, resurfaced, primed and painted for use on the left hand booster of the SLS rocket for Exploration Mission 1 (EM-1). NASA is preparing for EM-1, deep-space missions, and the journey to Mars.

The left hand aft skirt for NASA’s Space Launch System (SLS) rocket arrives at the agency’s Kennedy Space Center in Florida, from the Hangar AF facility at Cape Canaveral Air Force Station. The aft skirt will be transported to the Booster Fabrication Facility. The space shuttle-era aft skirt, was inspected, resurfaced, primed and painted for use on the left hand booster of the SLS rocket for Exploration Mission 1 (EM-1). NASA is preparing for EM-1, deep-space missions, and the journey to Mars.

The left hand aft skirt for NASA’s Space Launch System (SLS) rocket is moved inside the Booster Fabrication Facility at the agency’s Kennedy Space Center in Florida. The aft skirt arrived from the Hangar AF facility at Cape Canaveral Air Force Station. The space shuttle-era aft skirt, was inspected, resurfaced, primed and painted for use on the left hand booster of the SLS rocket for Exploration Mission 1 (EM-1). NASA is preparing for EM-1, deep-space missions, and the journey to Mars.

Inside the Booster Fabrication Facility at NASA's Kennedy Space Center in Florida, the left hand aft skirt for the agency's Space Launch System (SLS) rocket is ready for the assembly process. From left, are Chad Goetz, quality technician with Orbital ATK, and Robbie Blaue, quality assurance specialist with the Defense Contract Management Agency. The aft skirt was refurbished and painted in support facilities at the Hangar AF facility at Cape Canaveral Air Force Station in Florida. The space shuttle-era aft skirt will be used on the left hand booster of the SLS for Exploration Mission 1 (EM-1). NASA is preparing for EM-1, deep space missions, and the Journey to Mars.

The left hand aft skirt for NASA’s Space Launch System (SLS) rocket is prepared for the move from the Hangar AF facility at Cape Canaveral Air Force Station in Florida, to the Booster Fabrication Facility at the agency’s Kennedy Space Center. The space shuttle-era aft skirt, was inspected, resurfaced, primed and painted for use on the left hand booster of the SLS rocket for Exploration Mission 1 (EM-1). NASA is preparing for EM-1, deep-space missions, and the journey to Mars.

The left hand aft skirt for NASA’s Space Launch System (SLS) rocket is prepared for the move from the Hangar AF facility at Cape Canaveral Air Force Station in Florida, to the Booster Fabrication Facility at the agency’s Kennedy Space Center. The space shuttle-era aft skirt, was inspected, resurfaced, primed and painted for use on the left hand booster of the SLS rocket for Exploration Mission 1 (EM-1). NASA is preparing for EM-1, deep-space missions, and the journey to Mars

The left hand aft skirt for NASA’s Space Launch System (SLS) rocket arrives at the Booster Fabrication Facility at the agency’s Kennedy Space Center in Florida, from the Hangar AF facility at Cape Canaveral Air Force Station. The space shuttle-era aft skirt, was inspected, resurfaced, primed and painted for use on the left hand booster of the SLS rocket for Exploration Mission 1 (EM-1). NASA is preparing for EM-1, deep-space missions, and the journey to Mars.

A paint technician with Orbital ATK, prime contractor for the Space Launch System (SLS) Booster, uses an air gun to apply paint to the right hand aft skirt for NASA’s SLS rocket inside a support building at the Hangar AF facility at Cape Canaveral Air Force Station. The space shuttle-era aft skirt, was inspected and resurfaced to prepare it for primer and paint. The aft skirt will be used on the right hand booster of the SLS rocket for Exploration Mission 1 (EM-1). NASA is preparing for EM-1, deep-space missions, and the journey to Mars.

A paint technician with Orbital ATK, prime contractor for the Space Launch System (SLS) Booster, uses an air gun to apply paint to the right hand aft skirt for NASA’s SLS rocket inside a support building at the Hangar AF facility at Cape Canaveral Air Force Station. The space shuttle-era aft skirt, was inspected and resurfaced to prepare it for primer and paint. The aft skirt will be used on the right hand booster of the SLS rocket for Exploration Mission 1 (EM-1). NASA is preparing for EM-1, deep-space missions, and the journey to Mars.

Inside the Booster Fabrication Facility at NASA's Kennedy Space Center in Florida, the Artemis I aft skirts for the agency's Space Launch System (SLS) rocket’s twin solid rocket boosters are being readied for their move to the Rotation, Processing and Surge Facility (RPSF) on June 9, 2020. In view at left is the left aft skirt assembly, and at far right is the right aft skirt assembly. The aft skirts were refurbished by Northrop Grumman. They house the thrust vector control system, which controls 70 percent of the steering during initial ascent of the SLS rocket. The segments will remain in the RPSF until ready for stacking with the forward and aft parts of the boosters on the mobile launcher in High Bay 3 of the Vehicle Assembly Building. Through the Artemis Program, NASA is working to land the first woman and next man on the Moon by 2024.

Inside the Booster Fabrication Facility at NASA's Kennedy Space Center in Florida, the Artemis I aft skirts for the agency's Space Launch System (SLS) rocket’s twin solid rocket boosters are being readied for their move to the Rotation, Processing and Surge Facility (RPSF) on June 9, 2020. In view at left is the left aft skirt assembly. Behind it to the right is the right aft skirt assembly. Also in view at far right, are the Artemis I forward assemblies, with the left assembly in front and the right assembly behind it. The aft skirts were refurbished by Northrop Grumman. They house the thrust vector control system, which controls 70 percent of the steering during initial ascent of the SLS rocket. The segments will remain in the RPSF until ready for stacking with the forward and aft parts of the boosters on the mobile launcher in High Bay 3 of the Vehicle Assembly Building. Through the Artemis Program, NASA is working to land the first woman and next man on the Moon by 2024.

Inside the Booster Fabrication Facility at NASA's Kennedy Space Center in Florida, the Artemis I aft skirts for the agency's Space Launch System (SLS) rocket’s twin solid rocket boosters are being readied for their move to the Rotation, Processing and Surge Facility (RPSF) on June 9, 2020. In view, the left aft skirt assembly is attached to a move vehicle and moved out of a test cell. The Artemis II aft skirt structures are in view at left. The aft skirts were refurbished by Northrop Grumman. They house the thrust vector control system, which controls 70 percent of the steering during initial ascent of the SLS rocket. The segments will remain in the RPSF until ready for stacking with the forward and aft parts of the boosters on the mobile launcher in High Bay 3 of the Vehicle Assembly Building. Through the Artemis Program, NASA is working to land the first woman and next man on the Moon by 2024.

Inside the Booster Fabrication Facility at NASA's Kennedy Space Center in Florida, the Artemis I aft skirts for the agency's Space Launch System (SLS) rocket’s twin solid rocket boosters are being readied for their move to the Rotation, Processing and Surge Facility (RPSF) on June 9, 2020. In view at left is the left aft skirt assembly, and at right is the right aft skirt assembly. The aft skirts were refurbished by Northrop Grumman. They house the thrust vector control system, which controls 70 percent of the steering during initial ascent of the SLS rocket. The segments will remain in the RPSF until ready for stacking with the forward and aft parts of the boosters on the mobile launcher in High Bay 3 of the Vehicle Assembly Building. Through the Artemis Program, NASA is working to land the first woman and next man on the Moon by 2024.

Inside the Booster Fabrication Facility (BFF) at NASA's Kennedy Space Center in Florida, the Artemis II aft skirt structures for the agency's Space Launch System (SLS) rocket’s twin solid rocket boosters are in view at left. Behind them are the two Artemis I forward assemblies. At far right, in the distance, is the right aft skirt assembly. In the BFF, the two aft skirt assemblies are being readied for their move to the Rotation, Processing and Surge Facility (RPSF) on June 9, 2020. The aft skirts were refurbished by Northrop Grumman. They house the thrust vector control system, which controls 70 percent of the steering during initial ascent of the SLS rocket. The segments will remain in the RPSF until ready for stacking with the forward and aft parts of the boosters on the mobile launcher in High Bay 3 of the Vehicle Assembly Building. Through the Artemis Program, NASA is working to land the first woman and next man on the Moon by 2024.

The right hand aft skirt for NASA's Space Launch System (SLS) rocket has been refurbished and painted and is in a drying cell in a support building at the Hangar AF facility at Cape Canaveral Air Force Station in Florida. The space shuttle-era aft skirt will be used on the right hand booster of the SLS for Exploration Mission 1 (EM-1). NASA is preparing for EM-1, deep space missions, and the Journey to Mars.

The right hand aft skirt for NASA's Space Launch System (SLS) rocket has been refurbished and painted and is in a drying cell in a support building at the Hangar AF facility at Cape Canaveral Air Force Station in Florida. The space shuttle-era aft skirt will be used on the right hand booster of the SLS for Exploration Mission 1 (EM-1). NASA is preparing for EM-1, deep space missions, and the Journey to Mars.

The right hand aft skirt for NASA's Space Launch System (SLS) rocket has been refurbished and painted and is in a drying cell in a support building at the Hangar AF facility at Cape Canaveral Air Force Station in Florida. The space shuttle-era aft skirt will be used on the right hand booster of the SLS for Exploration Mission 1 (EM-1). NASA is preparing for EM-1, deep space missions, and the Journey to Mars.

The right hand aft skirt for NASA's Space Launch System (SLS) rocket has been painted and is in a drying cell in a support building at the Hangar AF facility at Cape Canaveral Air Force Station in Florida. The space shuttle-era aft skirt will be used on the right hand booster of NASA's Space Launch System rocket for Exploration Mission 1 (EM-1). NASA is preparing for EM-1, deep space missions, and the Journey to Mars.

Technicians with Orbital ATK, prime contractor for the Space Launch System (SLS) Booster, prepare a paint mixture for the right hand aft skirt for NASA’s SLS in a support building at the Hangar AF facility at Cape Canaveral Air Force Station in Florida. The space shuttle-era aft skirt, was inspected and resurfaced, and will be primed and painted for use on the right hand booster of the SLS rocket for Exploration Mission 1 (EM-1). NASA is preparing for EM-1, deep-space missions, and the Journey to Mars.

The right hand aft skirt for NASA's Space Launch System (SLS) rocket has been refurbished and painted and is in a drying cell in a support building at the Hangar AF facility at Cape Canaveral Air Force Station in Florida. The space shuttle-era aft skirt will be used on the right hand booster of the SLS for Exploration Mission 1 (EM-1). NASA is preparing for EM-1, deep space missions, and the Journey to Mars.

The right hand aft skirt for NASA's Space Launch System (SLS) rocket has been painted and is in a drying cell in a support building at the Hangar AF facility at Cape Canaveral Air Force Station in Florida. The space shuttle-era aft skirt will be used on the right hand booster of NASA's Space Launch System rocket for Exploration Mission 1 (EM-1). NASA is preparing for EM-1, deep space missions, and the Journey to Mars.

A technician with Orbital ATK, prime contractor for the Space Launch System (SLS) Booster, preps a section of the right hand aft skirt for primer and paint in a support building at the Hangar AF facility at Cape Canaveral Air Force Station in Florida. The space shuttle-era aft skirt will be used on the right hand booster of NASA's SLS rocket for Exploration Mission 1 (EM-1). NASA is preparing for EM-1, deep space missions, and the Journey to Mars.

Technicians with Orbital ATK, prime contractor for the Space Launch System (SLS) Booster, prepare the right hand aft skirt for NASA’s SLS rocket for primer and painting inside a support building at the Hangar AF facility at Cape Canaveral Air Force Station in Florida. The space shuttle-era aft skirt, was inspected and resurfaced and will be primed and painted for use on the right hand booster of the SLS rocket for Exploration Mission 1 (EM-1). NASA is preparing for EM-1, deep-space missions, and the journey to Mars.

Inside the Booster Fabrication Facility at NASA's Kennedy Space Center in Florida, the Artemis I aft skirts for the agency's Space Launch System (SLS) rocket’s twin solid rocket boosters are being readied for their move to the Rotation, Processing and Surge Facility (RPSF) on June 9, 2020. In view, the left aft skirt assembly is attached to a move vehicle and moved out of a test cell. The aft skirts were refurbished by Northrop Grumman. They house the thrust vector control system, which controls 70 percent of the steering during initial ascent of the SLS rocket. The segments will remain in the RPSF until ready for stacking with the forward and aft parts of the boosters on the mobile launcher in High Bay 3 of the Vehicle Assembly Building. Through the Artemis Program, NASA is working to land the first woman and next man on the Moon by 2024.

Inside the Booster Fabrication Facility at NASA's Kennedy Space Center in Florida, the Artemis I aft skirts for the agency's Space Launch System (SLS) rocket’s twin solid rocket boosters are moved out of their test cells and are being readied for their move to the Rotation, Processing and Surge Facility (RPSF) on June 9, 2020. In view at right is the right aft skirt. In view at left are the two Artemis I forward assemblies. The aft skirts were refurbished by Northrop Grumman. They house the thrust vector control system, which controls 70 percent of the steering during initial ascent of the SLS rocket. The segments will remain in the RPSF until ready for stacking with the forward and aft parts of the boosters on the mobile launcher in High Bay 3 of the Vehicle Assembly Building. Through the Artemis Program, NASA is working to land the first woman and next man on the Moon by 2024.

Inside the Booster Fabrication Facility at NASA's Kennedy Space Center in Florida, the Artemis I aft skirts for the agency's Space Launch System (SLS) rocket’s twin solid rocket boosters are being readied for their move to the Rotation, Processing and Surge Facility (RPSF) on June 9, 2020. In view, the left aft skirt assembly is attached to a move vehicle in a test cell. The aft skirts were refurbished by Northrop Grumman. They house the thrust vector control system, which controls 70 percent of the steering during initial ascent of the SLS rocket. The segments will remain in the RPSF until ready for stacking with the forward and aft parts of the boosters on the mobile launcher in High Bay 3 of the Vehicle Assembly Building. Through the Artemis Program, NASA is working to land the first woman and next man on the Moon by 2024.

Inside the Booster Fabrication Facility at NASA's Kennedy Space Center in Florida, the Artemis I aft skirts for the agency's Space Launch System (SLS) rocket’s twin solid rocket boosters are being readied for their move to the Rotation, Processing and Surge Facility (RPSF) on June 9, 2020. In view, the left aft skirt assembly is attached to a move vehicle and moved out of a test cell. The aft skirts were refurbished by Northrop Grumman. They house the thrust vector control system, which controls 70 percent of the steering during initial ascent of the SLS rocket. The segments will remain in the RPSF until ready for stacking with the forward and aft parts of the boosters on the mobile launcher in High Bay 3 of the Vehicle Assembly Building. Through the Artemis Program, NASA is working to land the first woman and next man on the Moon by 2024.

LVSA AFT CONE SECTION POST WELD #8 EXTERIOR VIEWS OF LVSA AFT CONE

LVSA AFT CONE SECTION POST WELD #8 EXTERIOR VIEWS OF LVSA AFT CONE

LVSA AFT CONE SECTION POST WELD #8 EXTERIOR VIEWS OF LVSA AFT CONE

LVSA AFT CONE SECTION POST WELD #8 EXTERIOR VIEWS OF LVSA AFT CONE

LVSA AFT CONE SECTION POST WELD #8 EXTERIOR VIEWS OF LVSA AFT CONE

CAPE CANAVERAL, Fla. – The Ares I-X aft skirt is moved from the Assembly and Refurbishment Facility at NASA's Kennedy Space Center to the Rotation, Processing and Surge Facility. The aft skirt underwent modifications in the ARF. In the RSPF, it will be stacked with the aft motor to form the aft assembly. The complete Ares I-X will be assembled in the Vehicle Assembly Building. The launch of Ares I-X is targeted for August 2009. Photo credit: NASA/Jim Grossmann

CAPE CANAVERAL, Fla. – The Ares I-X aft skirt moves toward the Rotation, Processing and Surge Facility at NASA's Kennedy Space Center in Florida. In the RPSF, the aft skirt will be stacked with the aft motor to form the aft assembly. The complete Ares I-X will be assembled in the Vehicle Assembly Building. The launch of Ares I-X is targeted for August 2009. Photo credit: NASA/Jim Grossmann

CAPE CANAVERAL, Fla. – Center Director Bob Cabana speaks to employees about the significance of moving the Ares I-X aft skirt from the Assembly and Refurbishment Facility at NASA's Kennedy Space Center to the Rotation, Processing and Surge Facility. The aft skirt underwent modifications in the ARF. In the RSPF, it will be stacked with the aft motor to form the aft assembly. The complete Ares I-X will be assembled in the Vehicle Assembly Building. The launch of Ares I-X is targeted for August 2009. Photo credit: NASA/Jim Grossmann

CAPE CANAVERAL, Fla. – Bob ESS, with NASA, speaks to employees before the move of the Ares I-X aft skirt from the Assembly and Refurbishment Facility at NASA's Kennedy Space Center to the Rotation, Processing and Surge Facility. The aft skirt underwent modifications in the ARF. In the RSPF, it will be stacked with the aft motor to form the aft assembly. The complete Ares I-X will be assembled in the Vehicle Assembly Building. The launch of Ares I-X is targeted for August 2009. Photo credit: NASA/Jim Grossmann

CAPE CANAVERAL, Fla. – Roger Elliot, with United Space Alliance, speaks to employees before the move of the Ares I-X aft skirt from the Assembly and Refurbishment Facility at NASA's Kennedy Space Center to the Rotation, Processing and Surge Facility. The aft skirt underwent modifications in the ARF. In the RSPF, it will be stacked with the aft motor to form the aft assembly. The complete Ares I-X will be assembled in the Vehicle Assembly Building. The launch of Ares I-X is targeted for August 2009. Photo credit: NASA/Jim Grossmann

CAPE CANAVERAL, Fla. – Joe Oliva, with ATK, speaks to employees before the move of the Ares I-X aft skirt from the Assembly and Refurbishment Facility at NASA's Kennedy Space Center to the Rotation, Processing and Surge Facility. The aft skirt underwent modifications in the ARF. In the RSPF, it will be stacked with the aft motor to form the aft assembly. The complete Ares I-X will be assembled in the Vehicle Assembly Building. The launch of Ares I-X is targeted for August 2009. Photo credit: NASA/Jim Grossmann

CAPE CANAVERAL, Fla. – The Ares I-X aft skirt moves inside the Rotation, Processing and Surge Facility at NASA's Kennedy Space Center in Florida. In the RPSF, the aft skirt will be stacked with the aft motor to form the aft assembly. The complete Ares I-X will be assembled in the Vehicle Assembly Building. The launch of Ares I-X is targeted for August 2009. Photo credit: NASA/Jim Grossmann

CAPE CANAVERAL, Fla. – Employees gather to witness the move of the Ares I-X aft skirt from the Assembly and Refurbishment Facility at NASA's Kennedy Space Center to the Rotation, Processing and Surge Facility. The aft skirt underwent modifications in the ARF. In the RSPF, it will be stacked with the aft motor to form the aft assembly. The complete Ares I-X will be assembled in the Vehicle Assembly Building. The launch of Ares I-X is targeted for August 2009. Photo credit: NASA/Jim Grossmann

CAPE CANAVERAL, Fla. – The Ares I-X aft skirt is ready to be moved from the Assembly and Refurbishment Facility at NASA's Kennedy Space Center to the Rotation, Processing and Surge Facility. The aft skirt underwent modifications in the ARF. In the RSPF, it will be stacked with the aft motor to form the aft assembly. The complete Ares I-X will be assembled in the Vehicle Assembly Building. The launch of Ares I-X is targeted for August 2009. Photo credit: NASA/Jim Grossmann

The right-hand aft skirt, one part of the aft booster assembly for NASA’s Space Launch System solid rocket boosters, is in view in a processing cell inside the Booster Fabrication Facility (BFF) at NASA’s Kennedy Space Center in Florida. Orbital ATK is a contractor for NASA’s Marshall Space Flight Center in Alabama, and operates the BFF to prepare aft booster segments and hardware for the SLS rocket boosters. The SLS rocket and Orion spacecraft will launch on Exploration Mission-1 in 2018. The Ground Systems Development and Operations Program is preparing the infrastructure to process and launch spacecraft for deep-space missions and the journey to Mars.

The Artemis I aft skirts for NASA’s Space Launch System (SLS) rocket’s twin solid rocket boosters are moved along the road to the Rotation, Processing and Surge Facility (RPSF) at the agency’s Kennedy Space Center in Florida on June 10, 2020. The aft skirts were refurbished by Northrop Grumman. They house the thrust vector control system, which controls 70 percent of the steering during initial ascent of the SLS rocket. The aft skirts will remain in the RPSF until ready for stacking with the forward and aft parts of the boosters on the mobile launcher in High Bay 3 of the Vehicle Assembly Building. Through the Artemis Program, NASA is working to land the first woman and next man on the Moon by 2024.