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NASA Spinoff: Space insulation upgrade to benefit many industries

Enhancements to a classic spinoff can benefit hydrogen energy, refrigeration, more.

One of NASA's most significant, widespread technologies in space and on Earth has gotten an upgrade, more than 60 years after its invention.

Traditional multi-layer insulation (MLI), also known as radiant barrier insulation, comprises layered sheets of Mylar coated with reflective metal and separated by netting. Nothing can beat it for thin, lightweight protection against radiated heat, a primary concern in the vacuum of space.

On Earth, MLI has found applications in winter gear, buildings, MRI machines, and cryogenic tanks, among others (NASA Spinoff 2022, 2020, 2018, and more).

However, Dave Plachta thought it could be better. "Traditional MLI can slip and slide together. It's not strong nor structural," said the retired NASA researcher, noting that its performance depends heavily on the quality of assembly and seam joining, adding uncertainty to missions.

Around 2006, as a senior researcher at NASA's Glenn Research Center in Cleveland, Plachta led the "zero boil-off" initiative, aiming to store liquid hydrogen indefinitely with no evaporation. Future crewed Mars missions may require hydrogen tanks to orbit Earth and Mars for hundreds of days, and the technology to enable this didn't exist.

With that in mind, NASA sought proposals for Small Business Innovation Research (SBIR) contracts focused on cryogenic technologies, including improved radiant barrier insulation. Among the companies selected was Quest Product Development Corp., which proposed novel improvements to MLI. This sparked a long, fruitful collaboration.

Quest's key innovation involved replacing the netting between Mylar layers with tiny polymer spacers shaped like tripods, preventing the layers from touching. Alan Kopelove explained, "Heat has to conduct through a long, thin part to get from one layer to the next." The new tripod arms are made of a particularly poor heat conductor.

Kopelove is CEO of Quest Thermal Group LLC of Arvada, Colorado, which spun off from the original company.

"The performance is better and much more consistent," Plachta said.

The company named its invention Integrated MLI, or IMLI. Subsequent NASA SBIR contracts supported the development of versions that could wrap around pipes, survive micrometeoroid strikes, or support a thermal shield for active cooling by a cryocooler.

It wasn't until 2019 that any of these flew on a NASA mission. Since its successful demonstration on the Green Propellant Infusion Mission and others, IMLI has been incorporated into NASA landers, rovers, satellites, space telescopes, and more. Artemis mission planners, aiming to land astronauts on the Moon, are considering IMLI for long-duration hydrogen propellant storage.

With governments around the world investing in technology to support hydrogen energy infrastructure, Quest's innovations are also poised to benefit that entire industry. The insulation will also decrease losses of other cryogenic fuels, such as liquid natural gas.

Quest is just finding its way to commercialization, however. IMLI is slated to fly on Blue Origin's Mark 1 and other private lunar landers NASA is supporting through the Commercial Lunar Payload Services program. The company has also been contracted for preliminary design work on an aircraft hydrogen tank, insulation for superconducting power lines, insulating telecommunications satellites, and micrometeoroid protection for new satellite platforms.

"What we're developing for NASA will find use in other places," Kopelove said. "We've only started exploring the many potential commercial applications."

Designfax Editor's Note: According to the IMLI product sheet, the new material "provides 60% less heat flux per layer compared to netting (traditional) MLI material." See this informative PDF download from the Quest Thermal Group website for more technical specs and application notes.

NASA Spinoff "highlights NASA technologies that benefit life on Earth in the form of commercial products." Read the latest issue at spinoff.nasa.gov to discover more exciting NASA Spinoff application stories. We are grateful to NASA to be able to share these articles with you.

Published April 2026

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