ORION HEAT SHIELD
THE HEAT SHIELD ARRIVED MARCH 9 AT MARSHALL, WHERE EXPERTS FROM THE CENTER AND NASA’S AMES RESEARCH CENTER WILL EXTRACT SAMPLES OF THE ABLATIVE MATERIAL, OR AVCOAT
THE ORION HEAT SHIELD, WHICH WAS AT NASA’S MARSHALL SPACE FLIGHT CENTER FROM MARCH-MAY 2015 FOR ENGINEERING AND ANALYSIS, IS READIED FOR DEPARTURE AT THE END OF ITS STAY. THE HEAT SHIELD’S ABLATED SURFACE MATERIAL WAS REMOVED AT MARSHALL FOR ANALYSIS, USING THE CENTER’S STATE-OF-THE-ART SEVEN-AXIS MILLING MACHINE. IT NEXT WILL GO TO NASA’S LANGLEY RESEARCH CENTER FOR WATER-IMPACT TESTING. NASA’S JOHNSON SPACE CENTER LEADS THE ORION PROGRAM FOR NASA.
THE ORION HEAT SHIELD, WHICH WAS AT NASA’S MARSHALL SPACE FLIGHT CENTER FROM MARCH-MAY 2015 FOR ENGINEERING AND ANALYSIS, IS READIED FOR DEPARTURE AT THE END OF ITS STAY. THE HEAT SHIELD’S ABLATED SURFACE MATERIAL WAS REMOVED AT MARSHALL FOR ANALYSIS, USING THE CENTER’S STATE-OF-THE-ART SEVEN-AXIS MILLING MACHINE. IT NEXT WILL GO TO NASA’S LANGLEY RESEARCH CENTER FOR WATER-IMPACT TESTING. NASA’S JOHNSON SPACE CENTER LEADS THE ORION PROGRAM FOR NASA.
THE ORION HEAT SHIELD, WHICH WAS AT NASA’S MARSHALL SPACE FLIGHT CENTER FROM MARCH-MAY 2015 FOR ENGINEERING AND ANALYSIS, IS READIED FOR DEPARTURE AT THE END OF ITS STAY. THE HEAT SHIELD’S ABLATED SURFACE MATERIAL WAS REMOVED AT MARSHALL FOR ANALYSIS, USING THE CENTER’S STATE-OF-THE-ART SEVEN-AXIS MILLING MACHINE. IT NEXT WILL GO TO NASA’S LANGLEY RESEARCH CENTER FOR WATER-IMPACT TESTING. NASA’S JOHNSON SPACE CENTER LEADS THE ORION PROGRAM FOR NASA.
THE ORION HEAT SHIELD, WHICH WAS AT NASA’S MARSHALL SPACE FLIGHT CENTER FROM MARCH-MAY 2015 FOR ENGINEERING AND ANALYSIS, IS READIED FOR DEPARTURE AT THE END OF ITS STAY. THE HEAT SHIELD’S ABLATED SURFACE MATERIAL WAS REMOVED AT MARSHALL FOR ANALYSIS, USING THE CENTER’S STATE-OF-THE-ART SEVEN-AXIS MILLING MACHINE. IT NEXT WILL GO TO NASA’S LANGLEY RESEARCH CENTER FOR WATER-IMPACT TESTING. NASA’S JOHNSON SPACE CENTER LEADS THE ORION PROGRAM FOR NASA.
THE ORION HEAT SHIELD, WHICH WAS AT NASA’S MARSHALL SPACE FLIGHT CENTER FROM MARCH-MAY 2015 FOR ENGINEERING AND ANALYSIS, IS READIED FOR DEPARTURE AT THE END OF ITS STAY. THE HEAT SHIELD’S ABLATED SURFACE MATERIAL WAS REMOVED AT MARSHALL FOR ANALYSIS, USING THE CENTER’S STATE-OF-THE-ART SEVEN-AXIS MILLING MACHINE. IT NEXT WILL GO TO NASA’S LANGLEY RESEARCH CENTER FOR WATER-IMPACT TESTING. NASA’S JOHNSON SPACE CENTER LEADS THE ORION PROGRAM FOR NASA.
THE ORION HEAT SHIELD, WHICH WAS AT NASA’S MARSHALL SPACE FLIGHT CENTER FROM MARCH-MAY 2015 FOR ENGINEERING AND ANALYSIS, IS READIED FOR DEPARTURE AT THE END OF ITS STAY. THE HEAT SHIELD’S ABLATED SURFACE MATERIAL WAS REMOVED AT MARSHALL FOR ANALYSIS, USING THE CENTER’S STATE-OF-THE-ART SEVEN-AXIS MILLING MACHINE. IT NEXT WILL GO TO NASA’S LANGLEY RESEARCH CENTER FOR WATER-IMPACT TESTING. NASA’S JOHNSON SPACE CENTER LEADS THE ORION PROGRAM FOR NASA.
THE ORION HEAT SHIELD, WHICH WAS AT NASA’S MARSHALL SPACE FLIGHT CENTER FROM MARCH-MAY 2015 FOR ENGINEERING AND ANALYSIS, IS READIED FOR DEPARTURE AT THE END OF ITS STAY. THE HEAT SHIELD’S ABLATED SURFACE MATERIAL WAS REMOVED AT MARSHALL FOR ANALYSIS, USING THE CENTER’S STATE-OF-THE-ART SEVEN-AXIS MILLING MACHINE. IT NEXT WILL GO TO NASA’S LANGLEY RESEARCH CENTER FOR WATER-IMPACT TESTING. NASA’S JOHNSON SPACE CENTER LEADS THE ORION PROGRAM FOR NASA.
THE ORION HEAT SHIELD, WHICH WAS AT NASA’S MARSHALL SPACE FLIGHT CENTER FROM MARCH-MAY 2015 FOR ENGINEERING AND ANALYSIS, IS READIED FOR DEPARTURE AT THE END OF ITS STAY. THE HEAT SHIELD’S ABLATED SURFACE MATERIAL WAS REMOVED AT MARSHALL FOR ANALYSIS, USING THE CENTER’S STATE-OF-THE-ART SEVEN-AXIS MILLING MACHINE. IT NEXT WILL GO TO NASA’S LANGLEY RESEARCH CENTER FOR WATER-IMPACT TESTING. NASA’S JOHNSON SPACE CENTER LEADS THE ORION PROGRAM FOR NASA.
THE ORION HEAT SHIELD, WHICH WAS AT NASA’S MARSHALL SPACE FLIGHT CENTER FROM MARCH-MAY 2015 FOR ENGINEERING AND ANALYSIS, IS READIED FOR DEPARTURE AT THE END OF ITS STAY. THE HEAT SHIELD’S ABLATED SURFACE MATERIAL WAS REMOVED AT MARSHALL FOR ANALYSIS, USING THE CENTER’S STATE-OF-THE-ART SEVEN-AXIS MILLING MACHINE. IT NEXT WILL GO TO NASA’S LANGLEY RESEARCH CENTER FOR WATER-IMPACT TESTING. NASA’S JOHNSON SPACE CENTER LEADS THE ORION PROGRAM FOR NASA.
THE ORION HEAT SHIELD, WHICH WAS AT NASA’S MARSHALL SPACE FLIGHT CENTER FROM MARCH-MAY 2015 FOR ENGINEERING AND ANALYSIS, IS READIED FOR DEPARTURE AT THE END OF ITS STAY. THE HEAT SHIELD’S ABLATED SURFACE MATERIAL WAS REMOVED AT MARSHALL FOR ANALYSIS, USING THE CENTER’S STATE-OF-THE-ART SEVEN-AXIS MILLING MACHINE. IT NEXT WILL GO TO NASA’S LANGLEY RESEARCH CENTER FOR WATER-IMPACT TESTING. NASA’S JOHNSON SPACE CENTER LEADS THE ORION PROGRAM FOR NASA.
THE ORION HEAT SHIELD, WHICH WAS AT NASA’S MARSHALL SPACE FLIGHT CENTER FROM MARCH-MAY 2015 FOR ENGINEERING AND ANALYSIS, IS READIED FOR DEPARTURE AT THE END OF ITS STAY. THE HEAT SHIELD’S ABLATED SURFACE MATERIAL WAS REMOVED AT MARSHALL FOR ANALYSIS, USING THE CENTER’S STATE-OF-THE-ART SEVEN-AXIS MILLING MACHINE. IT NEXT WILL GO TO NASA’S LANGLEY RESEARCH CENTER FOR WATER-IMPACT TESTING. NASA’S JOHNSON SPACE CENTER LEADS THE ORION PROGRAM FOR NASA.
THE ORION HEAT SHIELD, WHICH WAS AT NASA’S MARSHALL SPACE FLIGHT CENTER FROM MARCH-MAY 2015 FOR ENGINEERING AND ANALYSIS, IS READIED FOR DEPARTURE AT THE END OF ITS STAY. THE HEAT SHIELD’S ABLATED SURFACE MATERIAL WAS REMOVED AT MARSHALL FOR ANALYSIS, USING THE CENTER’S STATE-OF-THE-ART SEVEN-AXIS MILLING MACHINE. IT NEXT WILL GO TO NASA’S LANGLEY RESEARCH CENTER FOR WATER-IMPACT TESTING. NASA’S JOHNSON SPACE CENTER LEADS THE ORION PROGRAM FOR NASA.
THE ORION HEAT SHIELD, WHICH WAS AT NASA’S MARSHALL SPACE FLIGHT CENTER FROM MARCH-MAY 2015 FOR ENGINEERING AND ANALYSIS, IS READIED FOR DEPARTURE AT THE END OF ITS STAY. THE HEAT SHIELD’S ABLATED SURFACE MATERIAL WAS REMOVED AT MARSHALL FOR ANALYSIS, USING THE CENTER’S STATE-OF-THE-ART SEVEN-AXIS MILLING MACHINE. IT NEXT WILL GO TO NASA’S LANGLEY RESEARCH CENTER FOR WATER-IMPACT TESTING. NASA’S JOHNSON SPACE CENTER LEADS THE ORION PROGRAM FOR NASA.
ENGINEERS FROM AMES RESEARCH CENTER AND MARSHALL SPACE FLIGHT CENTER REMOVE AVCOAT SEGMENTS FROM THE SURFACE OF THE ORION HEAT SHIELD, THE PROTECTIVE SHELL DESIGNED TO HELP THE NEXT GENERATION CREW MODULE WITHSTAND THE HEAT OF ATMOSPHERIC REENTRY. THE HEAT SHIELD FLEW TO SPACE DURING THE EFT-1 FULL SCALL FLIGHT TEST OF ORION IN DECEMBER 2014
Studying the Heat Shield Seal
Heat Shield Impact Site
Heat Shield Main Piece
A Slice of the Heat Shield
Closing in on Heat Shield
Heat Shield Flank
Heat Shield in Pieces
Crumpled Heat Shield
Heat Shield Ahead
The NASA Super Guppy arrived at Moffett Field on Jan. 7, 2016, carrying the Artemis I Orion heat shield skin. The heat shield is being primarily built at Lockheed Martin’s Littleton, Colo. facility, and it was temporarily sent to Lockheed Martin’s Sunnyvale, Calif. facility for an autoclave cure (shown here). The heat shield is a stiffened skin design, and this cure process is the last step prior to attaching titanium stiffeners to the interior surface. Once the skin and stiffeners are attached, ablative material is applied to the exterior. Part of Batch image transfer from Flickr.
The NASA Super Guppy arrived at Moffett Field on Jan. 7, 2016, carrying the Artemis I Orion heat shield skin. The heat shield is being primarily built at Lockheed Martin’s Littleton, Colo. facility, and it was temporarily sent to Lockheed Martin’s Sunnyvale, Calif. facility for an autoclave cure (shown here). The heat shield is a stiffened skin design, and this cure process is the last step prior to attaching titanium stiffeners to the interior surface. Once the skin and stiffeners are attached, ablative material is applied to the exterior. Part of Batch image transfer from Flickr.
The NASA Super Guppy arrived at Moffett Field on Jan. 7, 2016, carrying the Artemis I Orion heat shield skin. The heat shield is being primarily built at Lockheed Martin’s Littleton, Colo. facility, and it was temporarily sent to Lockheed Martin’s Sunnyvale, Calif. facility for an autoclave cure (shown here). The heat shield is a stiffened skin design, and this cure process is the last step prior to attaching titanium stiffeners to the interior surface. Once the skin and stiffeners are attached, ablative material is applied to the exterior. Part of Batch image transfer from Flickr.
The NASA Super Guppy arrived at Moffett Field on Jan. 7, 2016, carrying the Artemis I Orion heat shield skin. The heat shield is being primarily built at Lockheed Martin’s Littleton, Colo. facility, and it was temporarily sent to Lockheed Martin’s Sunnyvale, Calif. facility for an autoclave cure (shown here). The heat shield is a stiffened skin design, and this cure process is the last step prior to attaching titanium stiffeners to the interior surface. Once the skin and stiffeners are attached, ablative material is applied to the exterior. Part of Batch image transfer from Flickr.
The NASA Super Guppy arrived at Moffett Field on Jan. 7, 2016, carrying the Artemis I Orion heat shield skin. The heat shield is being primarily built at Lockheed Martin’s Littleton, Colo. facility, and it was temporarily sent to Lockheed Martin’s Sunnyvale, Calif. facility for an autoclave cure (shown here). The heat shield is a stiffened skin design, and this cure process is the last step prior to attaching titanium stiffeners to the interior surface. Once the skin and stiffeners are attached, ablative material is applied to the exterior. Part of Batch image transfer from Flickr.
The Orion heat shield for Artemis I is being prepared for its move to the thermal chamber in the Neil Armstrong Operations and Checkout Building high bay at NASA's Kennedy Space Center in Florida on Oct. 23, 2017. Protective pads are being attached to the heat shield surface. The heat shield will undergo a thermal cycle test to verify acceptable workmanship and material quality. The test also serves to verify the heat shield's thermal protection systems have been manufactured and assembled correctly. The Orion spacecraft will launch atop NASA's Space Launch System rocket on its first uncrewed integrated flight.
Technicians move the Orion heat shield for Artemis I toward the thermal chamber in the Neil Armstrong Operations and Checkout Building high bay at NASA's Kennedy Space Center in Florida on Oct. 23, 2017. Protective pads were attached to the heat shield surface. The heat shield will undergo a thermal cycle test to verify acceptable workmanship and material quality. The test also serves to verify the heat shield's thermal protection systems have been manufactured and assembled correctly. The Orion spacecraft will launch atop NASA's Space Launch System rocket on it first uncrewed integrated flight.
A crane attached to the Orion heat shield for Artemis I moves it toward the thermal chamber in the Neil Armstrong Operations and Checkout Building high bay at NASA's Kennedy Space Center in Florida on Oct. 23, 2017. Protective pads were attached to the heat shield surface. The heat shield will undergo a thermal cycle test to verify acceptable workmanship and material quality. The test also serves to verify the heat shield's thermal protection systems have been manufactured and assembled correctly. The Orion spacecraft will launch atop NASA's Space Launch System rocket on it first uncrewed integrated flight.
A technician checks the Orion heat shield for Artemis I before it is moved into the thermal chamber in the Neil Armstrong Operations and Checkout Building high bay at NASA's Kennedy Space Center in Florida on Oct. 23, 2017. Protective pads were attached to the heat shield surface. The heat shield will undergo a thermal cycle test to verify acceptable workmanship and material quality. The test also serves to verify the heat shield's thermal protection systems have been manufactured and assembled correctly. The Orion spacecraft will launch atop NASA's Space Launch System rocket on it first uncrewed integrated flight.
Technicians move the Orion heat shield for Artemis I toward the thermal chamber in the Neil Armstrong Operations and Checkout Building high bay at NASA's Kennedy Space Center in Florida on Oct. 23, 2017. Protective pads were attached to the heat shield surface. The heat shield will undergo a thermal cycle test to verify acceptable workmanship and material quality. The test also serves to verify the heat shield's thermal protection systems have been manufactured and assembled correctly. The Orion spacecraft will launch atop NASA's Space Launch System rocket on it first uncrewed integrated flight.
Technicians move the Orion heat shield for Exploration Mission-1 toward the thermal chamber in the Neil Armstrong Operations and Checkout Building high bay at NASA's Kennedy Space Center in Florida. Protective pads are being attached to the heat shield surface. The heat shield will undergo a thermal cycle test to verify acceptable workmanship and material quality. The test also serves to verify the heat shield's thermal protection systems have been manufactured and assembled correctly. The Orion spacecraft will launch atop NASA's Space Launch System rocket on its first uncrewed integrated flight.
Lockheed Martin engineers and technicians prepare the Orion heat shield for Artemis I for its move to the thermal chamber in the Neil Armstrong Operations and Checkout Building high bay at NASA's Kennedy Space Center in Florida on Oct. 23, 2017. The heat shield will undergo a thermal cycle test to verify acceptable workmanship and material quality. The test serves to verify the heat shield's thermal protection systems have been manufactured and assembled correctly. The Orion spacecraft will launch atop NASA's Space Launch System rocket on its first uncrewed integrated flight.
Lockheed Martin engineers and technicians prepare the Orion heat shield for Exploration Mission-1 for its move to the thermal chamber in the Neil Armstrong Operations and Checkout Building high bay at NASA's Kennedy Space Center in Florida. The heat shield will undergo a thermal cycle test to verify acceptable workmanship and material quality. The test serves to verify the heat shield's thermal protection systems have been manufactured and assembled correctly. The Orion spacecraft will launch atop NASA's Space Launch System rocket on its first uncrewed integrated flight.
Heat Shield Flank Close Up
OVERSEEING ORION HEAT SHIELD WORK IN MARSHALL'S SEVEN-AXIS MILLING AND MACHINING FACILITY ARE, FROM LEFT, JOHN KOWAL, MANAGER OF ORION'S THERMAL PROTECTION SYSTEM AT JOHNSON SPACE CENTER; NICHOLAS CROWLEY, AN AMES ENGINEERING TECHNICIAN; AND ROB KORNIENKO, AMES ENGINEERING BRANCH CHIEF. THE HEAT SHIELD FLEW TO SPACE DURING THE EFT-1 FULL SCALE FLIGHT TEST OF ORION IN DECEMBER, 2014
Color Image of Phoenix Heat Shield and Bounce Mark
Opportunity Heat Shield in Color, Sol 325
Opportunity Heat Shield in Color, Sol 335
Exterior of Opportunity Heat Shield, Sol 344
Connecting the Dots: Lander, Heat Shield, Parachute
This color full-resolution image showing the heat shield of NASA Curiosity rover was obtained during descent to the surface of Mars. This image shows the inside surface of the heat shield, with its protective multi-layered insulation.
Lockheed Martin engineers and technicians are installing the heat shield to the Orion crew module July 25, 2018, inside the Neil Armstrong Operations and Checkout Building high bay at NASA's Kennedy Space Center in Florida. Orion is being prepared for Exploration Mission-1 (EM-1). The Orion spacecraft will launch atop NASA's Space Launch System rocket on its first uncrewed integrated flight. The heat shield will need to withstand temperatures of up to 5,000 degrees Fahrenheit during Orion's descent and re-entry through the Earth's atmosphere before it splashes down in the Pacific Ocean.
Lockheed Martin engineers and technicians are installing the heat shield to the Orion crew module July 25, 2018, inside the Neil Armstrong Operations and Checkout Building high bay at NASA's Kennedy Space Center in Florida. Orion is being prepared for Exploration Mission-1 (EM-1). The Orion spacecraft will launch atop NASA's Space Launch System rocket on its first uncrewed integrated flight. The heat shield will need to withstand temperatures of up to 5,000 degrees Fahrenheit during Orion's descent and re-entry through the Earth's atmosphere before it splashes down in the Pacific Ocean.
Lockheed Martin engineers and technicians are installing the heat shield to the Orion crew module July 25, 2018, inside the Neil Armstrong Operations and Checkout Building high bay at NASA's Kennedy Space Center in Florida. Orion is being prepared for Exploration Mission-1 (EM-1). The Orion spacecraft will launch atop NASA's Space Launch System rocket on its first uncrewed integrated flight. The heat shield will need to withstand temperatures of up to 5,000 degrees Fahrenheit during Orion's descent and re-entry through the Earth's atmosphere before it splashes down in the Pacific Ocean.
Lockheed Martin engineers and technicians are installing the heat shield to the Orion crew module July 25, 2018, inside the Neil Armstrong Operations and Checkout Building high bay at NASA's Kennedy Space Center in Florida. Orion is being prepared for Exploration Mission-1 (EM-1), the first unscrewed integrated flight test atop NASA's Space Launch System rocket. The heat shield will need to withstand temperatures of up to 5,000 degrees Fahrenheit during Orion's descent and re-entry through the Earth's atmosphere before it splashes down in the Pacific Ocean.
Inside High Bay 2 in the Vehicle Assembly Building (VAB) at NASA's Kennedy Space Center in Florida, workers help prepare the Orion heat shield from Exploration Flight Test-1 for unloading off its transporter. The heat shield is being transferred from the Orion Program to the Ground Systems Development and Operations Program, Landing and Recovery Operations. In the VAB, the heat shield will be integrated with the Orion ground test article and used for future underway recovery testing.
Inside High Bay 2 in the Vehicle Assembly Building (VAB) at NASA's Kennedy Space Center in Florida, a worker monitors the progress as a crane lowers the Orion heat shield from Exploration Flight Test-1 onto foam blocks. The heat shield is being transferred from the Orion Program to the Ground Systems Development and Operations Program, Landing and Recovery Operations. In the VAB, the heat shield will be integrated with the Orion ground test article and used for future underway recovery testing.
Inside High Bay 2 in the Vehicle Assembly Building (VAB) at NASA's Kennedy Space Center in Florida, a crane is attached to the Orion heat shield from Exploration Flight Test-1 for unloading off its transporter. The heat shield is being transferred from the Orion Program to the Ground Systems Development and Operations Program, Landing and Recovery Operations. In the VAB, the heat shield will be integrated with the Orion ground test article and used for future underway recovery testing.
Inside High Bay 2 in the Vehicle Assembly Building (VAB) at NASA's Kennedy Space Center in Florida, workers help prepare the Orion heat shield from Exploration Flight Test-1 for unloading off its transporter. The heat shield is being transferred from the Orion Program to the Ground Systems Development and Operations Program, Landing and Recovery Operations. In the VAB, the heat shield will be integrated with the Orion ground test article and used for future underway recovery testing.
Inside High Bay 2 in the Vehicle Assembly Building (VAB) at NASA's Kennedy Space Center in Florida, a crane is attached to the Orion heat shield from Exploration Flight Test-1 for unloading off its transporter. The heat shield is being transferred from the Orion Program to the Ground Systems Development and Operations Program, Landing and Recovery Operations. In the VAB, the heat shield will be integrated with the Orion ground test article and used for future underway recovery testing.
Inside High Bay 2 in the Vehicle Assembly Building (VAB) at NASA's Kennedy Space Center in Florida, a crane lifts the Orion heat shield from Exploration Flight Test-1 up off its transporter. It will be lowered onto foam blocks. The heat shield is being transferred from the Orion Program to the Ground Systems Development and Operations Program, Landing and Recovery Operations. In the VAB, the heat shield will be integrated with the Orion ground test article and used for future underway recovery testing.
The Orion heat shield from Exploration Flight Test-1 has arrived in High Bay 2 of the Vehicle Assembly Building (VAB) at NASA's Kennedy Space Center in Florida. The heat shield is being transferred from the Orion Program to the Ground Systems Development and Operations Program, Landing and Recovery Operations. In the VAB, the heat shield will be integrated with the Orion ground test article and used for future underway recovery testing.
Inside High Bay 2 in the Vehicle Assembly Building (VAB) at NASA's Kennedy Space Center in Florida, workers monitor the progress as a crane lowers the Orion heat shield from Exploration Flight Test-1 onto foam blocks. The heat shield is being transferred from the Orion Program to the Ground Systems Development and Operations Program, Landing and Recovery Operations. In the VAB, the heat shield will be integrated with the Orion ground test article and used for future underway recovery testing.
Inside High Bay 2 in the Vehicle Assembly Building (VAB) at NASA's Kennedy Space Center in Florida, a worker helps prepare the Orion heat shield from Exploration Flight Test-1 for unloading off its transporter. The heat shield is being transferred from the Orion Program to the Ground Systems Development and Operations Program, Landing and Recovery Operations. In the VAB, the heat shield will be integrated with the Orion ground test article and used for future underway recovery testing.
Inside High Bay 2 in the Vehicle Assembly Building (VAB) at NASA's Kennedy Space Center in Florida, the Orion heat shield from Exploration Flight Test-1 is secured on foam blocks. The heat shield is being transferred from the Orion Program to the Ground Systems Development and Operations Program, Landing and Recovery Operations. In the VAB, the heat shield will be integrated with the Orion ground test article and used for future underway recovery testing.
shows the 15-foot 4.5-meter diameter heat shield when it was about 50 feet 16 meters from the spacecraft.
The heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, arrives in its shipping container aboard NASA’s Super Guppy aircraft at the agency’s Kennedy Space Center Shuttle Landing Facility in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver. It will be offloaded and delivered to the Neil Armstrong Operations and Checkout facility high bay. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
The heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, is uncrated from its shipping container inside the Neil Armstrong Operations and Checkout Building high bay at the agency’s Kennedy Space Center in Florida on July 10, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver aboard NASA’s Super Guppy Aircraft. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
A flatbed truck with the shipping container carrying the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, moves into the Neil Armstrong Operations and Checkout Building high bay at the agency’s Kennedy Space Center in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver aboard NASA’s Super Guppy Aircraft. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
A flatbed truck with the shipping container carrying the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, moves into the Neil Armstrong Operations and Checkout Building high bay at the agency’s Kennedy Space Center in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver aboard NASA’s Super Guppy Aircraft. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
The shipping container carrying the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, is unloaded from NASA’s Super Guppy aircraft at the agency’s Kennedy Space Center Shuttle Landing Facility in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver. It will be delivered to the Neil Armstrong Operations and Checkout facility high bay. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
A flatbed truck with the shipping container carrying the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, arrives at the Neil Armstrong Operations and Checkout Building high bay entrance at the agency’s Kennedy Space Center in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver aboard NASA’s Super Guppy Aircraft. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
The heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, is now uncrated from its shipping container inside the Neil Armstrong Operations and Checkout Building high bay at the agency’s Kennedy Space Center in Florida on July 10, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver aboard NASA’s Super Guppy Aircraft. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
In this view from inside NASA’s Super Guppy aircraft, the shipping container carrying the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, is unloaded from NASA’s Super Guppy aircraft at the agency’s Kennedy Space Center Shuttle Landing Facility in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver. It will be delivered to the Neil Armstrong Operations and Checkout facility high bay. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
The heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, is uncrated from its shipping container inside the Neil Armstrong Operations and Checkout Building high bay at the agency’s Kennedy Space Center in Florida on July 10, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver aboard NASA’s Super Guppy Aircraft. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
In this view from inside NASA’s Super Guppy aircraft, the shipping container carrying the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, is unloaded from NASA’s Super Guppy aircraft at the agency’s Kennedy Space Center Shuttle Landing Facility in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver. It will be delivered to the Neil Armstrong Operations and Checkout facility high bay. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
The shipping container carrying the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, is unloaded from NASA’s Super Guppy aircraft at the agency’s Kennedy Space Center Shuttle Landing Facility in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver. It will be delivered to the Neil Armstrong Operations and Checkout facility high bay. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
The cover of the shipping container carrying the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, is lifted up inside the Neil Armstrong Operations and Checkout Building high bay at the agency’s Kennedy Space Center in Florida on July 10, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver aboard NASA’s Super Guppy Aircraft. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
Preparations are underway to unload the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, in its shipping container from NASA’s Super Guppy aircraft at the agency’s Kennedy Space Center Shuttle Landing Facility in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver. It will be delivered to the Neil Armstrong Operations and Checkout facility high bay. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
The shipping container carrying the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, is secured onto a transporter at the agency’s Kennedy Space Center Shuttle Landing Facility in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver aboard NASA’s Super Guppy Aircraft. It will be delivered to the Neil Armstrong Operations and Checkout facility high bay. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
A flatbed truck with the shipping container carrying the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, departs the agency’s Kennedy Space Center Shuttle Landing Facility in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver aboard NASA’s Super Guppy Aircraft. It will be delivered to the Neil Armstrong Operations and Checkout facility high bay. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
Preparations are underway to unload the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, in its shipping container from NASA’s Super Guppy aircraft at the agency’s Kennedy Space Center Shuttle Landing Facility in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver. It will be delivered to the Neil Armstrong Operations and Checkout facility high bay. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
The heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, arrives in its shipping container aboard NASA’s Super Guppy aircraft at the agency’s Kennedy Space Center Shuttle Landing Facility in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver. It will be offloaded and delivered to the Neil Armstrong Operations and Checkout facility high bay. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
The heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, is uncrated in the Neil Armstrong Operations and Checkout Building high bay at the agency’s Kennedy Space Center in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver aboard NASA’s Super Guppy Aircraft. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
The shipping container carrying the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, has been unloaded from NASA’s Super Guppy aircraft at the agency’s Kennedy Space Center Shuttle Landing Facility in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver. It will be delivered to the Neil Armstrong Operations and Checkout facility high bay. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
The shipping container carrying the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, is secured on a flatbed truck at the agency’s Kennedy Space Center Shuttle Landing Facility in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver aboard NASA’s Super Guppy Aircraft. It will be delivered to the Neil Armstrong Operations and Checkout facility high bay. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
Technicians help secure the shipping container carrying the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, onto a transporter at the agency’s Kennedy Space Center Shuttle Landing Facility in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver aboard NASA’s Super Guppy Aircraft. It will be delivered to the Neil Armstrong Operations and Checkout facility high bay. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
Technicians help secure the shipping container carrying the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, onto a transporter at the agency’s Kennedy Space Center Shuttle Landing Facility in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver aboard NASA’s Super Guppy Aircraft. It will be delivered to the Neil Armstrong Operations and Checkout facility high bay. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
The cover of the shipping container carrying the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, is lifted up inside the Neil Armstrong Operations and Checkout Building high bay at the agency’s Kennedy Space Center in Florida on July 10, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver aboard NASA’s Super Guppy Aircraft. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
The cover of the shipping container carrying the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, is lifted up inside the Neil Armstrong Operations and Checkout Building high bay at the agency’s Kennedy Space Center in Florida on July 10, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver aboard NASA’s Super Guppy Aircraft. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
Technicians help secure the shipping container carrying the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, onto a transporter at the agency’s Kennedy Space Center Shuttle Landing Facility in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver aboard NASA’s Super Guppy Aircraft. It will be delivered to the Neil Armstrong Operations and Checkout facility high bay. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
A Lockheed Martin technician works to remove a bolt that holds the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, on its shipping platform inside the Neil Armstrong Operations and Checkout Building high bay at the agency’s Kennedy Space Center in Florida on July 10, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver aboard NASA’s Super Guppy Aircraft. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
The heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, arrives in its shipping container aboard NASA’s Super Guppy aircraft at the agency’s Kennedy Space Center Shuttle Landing Facility in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver. It will be offloaded and delivered to the Neil Armstrong Operations and Checkout facility high bay. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
The heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, is uncrated in the Neil Armstrong Operations and Checkout Building high bay at the agency’s Kennedy Space Center in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver aboard NASA’s Super Guppy Aircraft. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
The shipping container carrying the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, is unloaded from NASA’s Super Guppy aircraft at the agency’s Kennedy Space Center Shuttle Landing Facility in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver. It will be delivered to the Neil Armstrong Operations and Checkout facility high bay. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
The heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, arrives in its shipping container aboard NASA’s Super Guppy aircraft at the agency’s Kennedy Space Center Shuttle Landing Facility in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver. It will be offloaded and delivered to the Neil Armstrong Operations and Checkout facility high bay. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
The shipping container carrying the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, is unloaded from NASA’s Super Guppy aircraft at the agency’s Kennedy Space Center Shuttle Landing Facility in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver. It will be delivered to the Neil Armstrong Operations and Checkout facility high bay. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
The shipping container carrying the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, is unloaded from NASA’s Super Guppy aircraft at the agency’s Kennedy Space Center Shuttle Landing Facility in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver. It will be delivered to the Neil Armstrong Operations and Checkout facility high bay. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
The heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, is uncrated from its shipping container inside the Neil Armstrong Operations and Checkout Building high bay at the agency’s Kennedy Space Center in Florida on July 10, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver aboard NASA’s Super Guppy Aircraft. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
A flatbed truck with the shipping container carrying the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, arrives at the Neil Armstrong Operations and Checkout Building high bay entrance at the agency’s Kennedy Space Center in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver aboard NASA’s Super Guppy Aircraft. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
The shipping container carrying the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, is unloaded from NASA’s Super Guppy aircraft at the agency’s Kennedy Space Center Shuttle Landing Facility in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver. It will be delivered to the Neil Armstrong Operations and Checkout facility high bay. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
Technicians help secure the shipping container carrying the heat shield for Orion’s Artemis 2 mission, NASA’s first crewed mission, onto a transporter at the agency’s Kennedy Space Center Shuttle Landing Facility in Florida on July 9, 2019. The heat shield, measuring roughly 16 feet in diameter, will protect astronauts upon re-entry on the second mission of Artemis. The heat shield arrived from Lockheed Martin’s manufacturing facility near Denver aboard NASA’s Super Guppy Aircraft. It will be delivered to the Neil Armstrong Operations and Checkout facility high bay. The heat shield is a base titanium truss structure. Over the next several months, technicians will apply Avcoat, an ablative material that will provide the thermal protection. Artemis 2 will confirm all of the spacecraft’s systems operate as designed in the actual environment of deep space with astronauts aboard.
Teams install the heat shield on the Artemis II Orion spacecraft inside the high bay of the Neil Armstrong Operations and Checkout Building at NASA’s Kennedy Space Center in Florida on June 22, 2023. The 16.5-foot-wide shield will ensure the safe return of the astronauts on board as the spacecraft travels at speeds of about 25,000 miles per hour and experiences outside temperatures of nearly 5,000 degrees Fahrenheit. Artemis II will be the first mission with astronauts under Artemis that will test and check out all of Orion’s systems needed for future crewed missions.
Teams install the heat shield on the Artemis II Orion spacecraft inside the high bay of the Neil Armstrong Operations and Checkout Building at NASA’s Kennedy Space Center in Florida on June 22, 2023. The 16.5-foot-wide shield will ensure the safe return of the astronauts on board as the spacecraft travels at speeds of about 25,000 miles per hour and experiences outside temperatures of nearly 5,000 degrees Fahrenheit. Artemis II will be the first mission with astronauts under Artemis that will test and check out all of Orion’s systems needed for future crewed missions.
The heat shield for NASA Mars Science Laboratory is the largest ever built for a planetary mission. This image shows the heat shield being prepared at Lockheed Martin Space Systems, Denver, in April 2011.