posted 07-21-2022 02:52 PM               

Flight Support Booster-2 (FSB-2) Test Firing

Northrop Grumman will conduct a full-scale static test of NASA's Space Launch System (SLS) solid rocket motor at Northrop Grumman's Promontory, Utah test facility.

As critical technology for future Artemis missions, the SLS's twin, five-segment rocket motors, are the largest, most powerful boosters ever built for flight and contribute more than 75 percent of the SLS rocket's initial thrust at launch.

This hot fire test will demonstrate a newly qualified motor initiation system and qualify a new nozzle phenolic ablative solvent material. This test will also provide early learning for the next generation Booster Obsolescence and Life Extension booster that will support Artemis IX.

posted 07-21-2022 06:28 PM               

Northrop Grumman and NASA Successfully Test Space Launch System Booster

Full-scale static test supports upgrades and early learning for next-generation solid rocket boosters

Northrop Grumman and NASA successfully conducted a full-scale static fire of NASA's Space Launch System (SLS) rocket motor, known as Flight Support Booster-2. The five-segment solid rocket booster is the world's largest solid rocket motor and will provide more than 75 percent of the SLS rocket's initial thrust during launch.

Over 300 measurement channels assessed the 154-foot-long solid rocket booster as it fired for just over two minutes producing upwards of 3.6 million pounds of thrust. Today's (July 21) test evaluates new materials and demonstrates a new motor ignition system and an electronic thrust vector control system that steers the motors to provide data for the development of the next-generation Booster Obsolescence and Life Extension (BOLE) boosters.

Northrop Grumman was awarded a contract to develop the BOLE booster in December 2021. The award also included follow-on production and flight sets for Artemis IV through Artemis VIII, and a BOLE booster set for Artemis IX.

"Continuous product improvements and obsolescence mitigation helps NASA achieve its long-term mission to utilize SLS for its Artemis program," said Wendy Williams, vice president, propulsion systems, Northrop Grumman. "This opportunity for early learning on next-generation systems will help us develop an enhanced booster that is ready to support the greater payload demands of the SLS rocket through 2031."

Booster segments for Artemis II, the first crewed Artemis mission, and Artemis III, the mission that will land the first woman and first person of color on the lunar surface, are complete. Artemis IV segments are currently being cast with propellant and the first BOLE booster composite segment case to be used for development testing completed winding in October.