NASA’s Orion spacecraft–the crew module and European-built service module—is being lifted on Dec. 1, 2019 into a thermal cage and readied for its move into the vacuum chamber at NASA’s Neil A. Armstrong Test Facility in Ohio (formerly Plum Brook Station) for testing. Testing begins with a 60-day thermal test, where the spacecraft will be subjected to temperatures ranging from -250 to 300-degrees Fahrenheit to ensure it can withstand the harsh environment of space during Artemis missions. These extreme temperatures simulate flying in-and-out of sunlight and shadow in space using Heat Flux, a sp
NASA’s Orion spacecraft–the crew module and European-built service module—is being lifted on Dec. 1, 2019 into a thermal cage and readied for its move into the vacuum chamber at NASA’s Neil A. Armstrong Test Facility in Ohio (formerly Plum Brook Station) for testing. Testing begins with a 60-day thermal test, where the spacecraft will be subjected to temperatures ranging from -250 to 300-degrees Fahrenheit to ensure it can withstand the harsh environment of space during Artemis missions. These extreme temperatures simulate flying in-and-out of sunlight and shadow in space using Heat Flux, a specially-designed system that heats specific parts of the spacecraft at any given time. Orion will also be surrounded on all sides by a set of large panels, called a cryogenic-shroud, that will provide the cold background temperatures of space.
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