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Milestone demonstrates motor's reliability to enhance astronaut safety by Staff Writers Elkton MD (SPX) Aug 27, 2019
Northrop Grumman, along with NASA and Lockheed Martin, have completed the second qualification test of its Attitude Control Motor (ACM) for NASA's Orion spacecraft Launch Abort System (LAS). Preliminary results indicate all eight high pressure valves on the motor performed as expected under hot temperature conditions. The qualification test is a critical step toward Artemis 2, the first crewed mission of NASA's Deep Space Exploration Systems. "This successful test emphasizes Northrop Grumman's commitment to delivering innovative and reliable technology that will keep our astronauts safe during launch," said Pat Nolan, vice president, missile products, Northrop Grumman. In an emergency, the LAS's three motors - the launch abort, attitude control and jettison motors - would work together to pull Orion away from a problem on the launch pad or during SLS first stage ascent, steering and re-orienting for LAS jettison, and pulling the LAS away from the crew module. The ACM orients the capsule for parachute deployment once the module is away from hazards. The ACM consists of a solid propellant gas generator and eight equally-spaced valves capable of providing 7,000 lbs. of thrust in any direction, which significantly enhances spaceflight safety for astronauts. The completion of this milestone brings Orion one step closer to its first flight atop NASA's Space Launch System (SLS) and to enabling humans to explore the moon, Mars and other deep-space destinations beyond low-Earth orbit. Northrop Grumman is responsible for the launch abort motor through a contract with Lockheed Martin, prime contractor for Orion. The Orion LAS program is managed out of NASA's Langley Research Center in Virginia. Northrop Grumman produces the attitude control motor at its Elkton, Maryland, facility and the abort motor at its Magna, Utah, facility. The company also manufactures the composite case for the abort motor at its facility in Clearfield, Utah.
WPI mathematician is helping NASA spacecraft travel faster and farther Worcester MA (SPX) Aug 23, 2019 By combining cutting-edge machine learning with 19th-century mathematics, a Worcester Polytechnic Institute (WPI) mathematician is working to make NASA spacecraft lighter and more damage tolerant by developing methods to detect imperfections in carbon nanomaterials used to make composite rocket fuel tanks and other spacecraft structures. Randy Paffenroth, associate professor of mathematical sciences, computer science, and data science, has a multi-part mission in this research project. Using machi ... read more
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