NASA Tests New Rocket Booster Connection to its Limits

June 23, 2014

A critical connection between NASA's new rocket and its twin solid rocket boosters that will help it get to space proved it could withstand millions of pounds of launch stress during a series of ground tests.

The booster forward skirt, which houses the electronics responsible for igniting, steering, and jettisoning the two five-segment boosters and carries most of the forces acting on the boosters during launch, is one of two places at the top and bottom of the booster where it is attached by struts to the Space Launch System (SLS) core stage. When completed, SLS will be capable of taking a crew and cargo on deep space missions, including to an asteroid and eventually Mars.

For the forward skirt test, conducted by ATK, engineers used increments of force — about 200,000 pounds per minute — to prove the design capabilities meet the strength requirements, with sufficient margin. The structure was also subjected to a combination of axial and lateral loads, which are critical at liftoff. The team intentionally took the hardware beyond required margins — not typical for structural loads testing on this scale.

Click here to watch a video of the test on Tech Briefs TV at www.techbriefs.com/tv/booster-test.

Source 

---

More From SAE Media Group

Tech Briefs

Engineers Test NASA's Space Launch System Booster Forward Skirt to the Limits

Aerospace & Defense Tech Briefs

Spyder Rocket’s First Hypersonic Flight

Aerospace INSIDER

Abort Motor for NASA’s Orion Spacecraft Successfully Tested

NASA Spinoff

Commercial Sales Flow from NASA Valves

More

Tech Briefs

Major Milestone: NASA's Space Launch System Booster Passes Ground Test

Tech Briefs

NASA’s Ruggedized Video Camera Ready for Earth

Tech Briefs

Charlotte Rocketry Team Breaks NASA Record

Aerospace & Defense Tech Briefs

3D Printed Spacecraft Parts

Tech Briefs

NASA's New High Dynamic Range Camera Records Rocket Test

Aerospace Manufacturing and Machining INSIDER

NASA Builds Welding Test Article for SLS Exploration Upper Stage

Motion Control and Automation Technology INSIDER

Researchers Help NASA Eliminate Vibration in Space System Joints

NASA Spinoff

Redefining the 'Rugged' Video Camera

Aerospace INSIDER

Mini Models Fire Up to Test Space Launch System

Aerospace INSIDER

NASA Tests Prepare Space Launch System for Liftoff

Aerospace INSIDER

Blue Origin Rocket Reaches Intended Orbit on First Launch

NASA Spinoff

Launch, Return, Repeat

Aerospace INSIDER

Firefly Alpha Rocket Loses Engine Nozzle During Launch

Aerospace & Defense Tech Briefs

Northrop Grumman Tests, Qualifies Orion Launch Abort Motor for Flight in Cold Conditions

Aerospace INSIDER

NASA Tests 3D-Printed Rocket Part

Tech Briefs

Cryogenic Seal for Space Launch System Handles Extreme Pressure Conditions

Tech Briefs

Historic Launch: NASA's SpaceX Demo-2 Misson Flight Day Highlights

Aerospace INSIDER

NASA Plane Simulates Rocket Maneuvers for New Launch System

Tech Briefs

Going Back to the Moon with Orion

Aerospace INSIDER

NASA Powers Up Avionics System for Newest Rocket

Tech Briefs

Additive Manufacturing Subtracts from Rocket Build Time

Aerospace & Defense Tech Briefs

RS-25 Rocket Engines

Tech Briefs

ARTEMIS I: Our Return to the Moon Begins

Aerospace INSIDER

NASA Experiment Flies with Virgin Galactic

Tech Briefs

Motion in Space: Astrobee Breakthrough

Tech Briefs

Top 5 Videos of 2025