Inflatable Habitat Burst Test Conducted by Lockheed Martin
Following a successful inflatable habitat burst test in December 2022, Lockheed Martin conducted another successful subscale burst test on June 14 in Colorado.
“These burst tests are crucial as they help ensure this technology is reliable and can operate effectively in the harsh environment of space.” Jonathan Markcity, Lockheed Martin
Jonathan Markcity, Lockheed Martin
Performed on an historic Titan rocket hot-fire test stand, the inflatable habitat burst test achieved validation by getting to 253 psi (nearly six times the max operating pressure), hitting the prediction and showing consistency in how the technology performs and repeatability of the first test findings.
Lockheed Martin manufactures the habitats in-house; providing faster build times than companies that rely on suppliers, more design flexibility and increased control over the critical manufacturing techniques that drive habitat safety performance. The softgoods portion of the inflatable habitat was built on campus in only eight weeks.
“These burst tests are crucial as they help ensure this technology is reliable and can operate effectively in the harsh environment of space,” said Jonathan Markcity, Senior Systems Engineer at Lockheed Martin. “Testing at the system level is one of the best methods to prove out our design and manufacturing techniques, while providing thousands of critical data points for improvements and updates as we develop the technology.”
Latest Inflatable Habitat Burst Test Damages Test Stand
With the performance results being similar to the last test, there was a surprising difference.
Unlike last time, the test stand that supports the habitat broke loose from its concrete attachment and was propelled into the air, demonstrating just how much energy this inflatable structure is able to contain, and why the test was safely conducted away from people at a rocket test stand.
Lockheed Martin’s next steps are to build off its robust margins to perform subscale system level creep testing – or life deformation testing – to validate the habitat’s operational life capability. Future testing will also include full-scale inflatable habitat burst tests to validate the scaling up of manufacturing techniques. The high margins demonstrated also allow the team to move forward with penetration development, or the incorporation of windows, hatches, and other hardpoints, into the softgoods structure.
With this inflatable softgoods technology, Lockheed Martin is continually advancing its technology to show the potential for many habitation applications, paving the way for a holistic economy from the Moon to Mars and beyond.
(Source: Lockheed Martin news release. Images provided)