NGC Ships Orion Spacecraft's Launch Abort Motor To Kennedy Space Center | Aero-News Network
Aero-News Network
RSS icon RSS feed
podcast icon MP3 podcast
Subscribe Aero-News e-mail Newsletter Subscribe

Airborne Unlimited -- Most Recent Daily Episodes

Episode Date

Airborne-Monday

Airborne-Tuesday

Airborne-Wednesday Airborne-Thursday

Airborne-Friday

Airborne On YouTube

Airborne-Unlimited-11.04.24

Airborne-NextGen-11.05.24

Airborne-Unlimited-11.06.24

Airborne-FlightTraining-11.07.24

Airborne-Unlimited-11.08.24

Mon, Jun 10, 2019

NGC Ships Orion Spacecraft's Launch Abort Motor To Kennedy Space Center

Will Be Integrated With The LSAS And Orion Spacecraft

The inert abort motor for NASA’s Orion spacecraft Launch Abort System (LAS) has been shipped from the Northrop Grumman facility in Magna, Utah, to Kennedy Space Center, Florida. It will be integrated with the LAS and Orion spacecraft destined for the first flight of NASA’s Space Launch System, designated Artemis 1.

The abort motor is a key component of the LAS, which provides an enhancement in spaceflight safety for astronauts. The shipment of the abort motor brings Orion one step closer to Artemis 1 and to enabling humans to explore the moon, Mars and other deep-space destinations beyond low-Earth orbit.

“Crew safety is always a top priority, and Orion’s Launch Abort System is state-of-the-art,” said Charlie Precourt, vice president, propulsion systems, Northrop Grumman, and former four-time shuttle astronaut. “The solid propulsion we use in the abort motor is high-performing and reliable; it should inspire confidence in any future Orion crew members and their families.”

The purpose of Orion’s LAS is to safely pull the spacecraft and crew out of harm’s way in the event of an emergency on the launch pad or during initial launch ascent. The abort motor underwent a series of component tests culminating in a successful static test in December 2018 at the Northrop Grumman facility in Promontory, Utah. Data from these tests confirmed motor activation within milliseconds and under both extreme cold and hot temperatures, ensuring crew safety.

The abort motor, which stands over 17 feet tall and spans three feet in diameter, is unique in that it has a manifold with four exhaust nozzles. The motor, shipped via thoroughfare in a transporter, will be unloaded at Kennedy Space Center. Integrating the abort motor is the first step in Orion’s LAS integration process.

Northrop Grumman’s next major abort motor milestone is the Ascent Abort-2 Flight Test (AA-2) set to take place at Cape Canaveral Air Force Station, Florida, in early July. In addition to the launch abort motor, Northrop Grumman is providing the launch vehicle designed to simulate an SLS launch for AA-2. The abort will take place during Max-Q, when the dynamic pressure on the spacecraft is greatest.

(Image provided with Northrop Grumman news release)

FMI: www.northropgrumman.com

Advertisement

More News

ANN's Daily Aero-Linx (11.04.24)

Aero Linx: The Aviation Museum of Kentucky, Inc. Since its founding in 1978, members of the Kentucky Aviation History Roundtable have dreamed of an aviation museum. To this end, th>[...]

Classic Aero-TV: Composite-FX Sets Elevates the Personal Helicopter Market

From Oshkosh 2023 (YouTube Edition): The Mosquito Evolves Formerly known as Mosquito, Trenton, Florida-based Composite FX is a designer and manufacturer of personal kit and factory>[...]

ANN FAQ: Contributing To Aero-TV

How To Get A Story On Aero-TV News/Feature Programming How do I submit a story idea or lead to Aero-TV? If you would like to submit a story idea or lead, please contact Jim Campbel>[...]

NTSB Final Report: Airborne Windsports Edge X

The Non-Certificated Pilot’s Loss Of Control For Undetermined Reasons... Analysis: The airplane was observed flying around the area at an unknown time on the day of the accid>[...]

ANN's Daily Aero-Term (11.04.24): LORAN

LORAN An electronic navigational system by which hyperbolic lines of position are determined by measuring the difference in the time of reception of synchronized pulse signals from>[...]

blog comments powered by Disqus



Advertisement

Advertisement

Podcasts

Advertisement

© 2007 - 2024 Web Development & Design by Pauli Systems, LC