Today’s test firing of the Northrop Grumman-manufactured launch abort motor in Promontory, Utah, confirmed the motor can activate within milliseconds and will perform as designed under cold temperatures.
“Our astronauts’ safety is our top priority,” said Steve Sara, director, launch abort motor program, Northrop Grumman. “We never expect the launch abort motor to be used, but just like an ejection seat in a fighter pilot's aircraft, if they need it, it needs to work every time.”
The mission for Orion’s LAS is to safely jettison the spacecraft and crew out of harm’s way in the event of an emergency on the launch pad or during initial launch ascent. Today’s abort motor test, Qualification Motor-2, was the culmination of a series of component tests conducted over the past few years in preparation for qualification. Data from the test will confirm the motor can activate within milliseconds and will perform as designed under cold temperatures.
The abort motor, which stands over 17 feet tall and spans three feet in diameter, has a manifold with four exhaust nozzles. With its nozzles pointing skyward, it fired for five seconds; the exhaust plume flames reached approximately 100 feet in height. The high-impulse motor burns three times faster than a typical motor of this size, delivering the thrust needed to pull the crew module to safety. The motor achieved approximately 350,000 pounds of thrust in one eighth of a second, as expected. More analysis will be performed in the coming weeks, but all initial results indicate a successful test.
Northrop Grumman’s next major abort motor milestones include the Ascent Abort-2 Flight Test (AA-2) set to take place at Cape Canaveral Air Force Station, Florida, in 2019. Previous large-scale tests of the launch abort motor included a development motor test in 2008, a pad abort test of the complete launch abort system in 2010 and the Qualification Motor-1 static test in 2017.
For the AA-2 flight test, in addition to the launch abort motor Northrop Grumman will also provide the Abort Test Booster (ATB), which will launch NASA’s Orion spacecraft and LAS to on a preplanned trajectory to obtain data to be used for LAS performance assessment. The ATB uses the same rocket motor as the first stage of a Minotaur IV rocket.
Northrop Grumman is responsible for the launch abort motor through a contract to Lockheed Martin, Orion’s prime contractor. The Orion LAS program is managed out of NASA’s Langley Research Center in Virginia. Northrop Grumman produces the abort motor at its Magna, Utah facility and the attitude control motor at its Elkton, Maryland facility. The company also manufactures the composite case for the abort motor at its facility in Clearfield, Utah.