NASA 4D prints new materials and mulls printing self-assembling space stations NASA 4D prints new materials and mulls printing self-assembling space stations
WHY THIS MATTERS IN BRIEF Transporting equipment into space is very, very expensive so NASA has turned to 4D printing to help it create... NASA 4D prints new materials and mulls printing self-assembling space stations


  • Transporting equipment into space is very, very expensive so NASA has turned to 4D printing to help it create new materials and types of space craft

Space is a harsh unforgiving environment and just getting into orbit is still, despite Elon Musk and SpaceX’s disruptive re-useable rockets, and new futuristic plasma engines, an expensive endeavour and as a result organisations, like NASA, often need to think long and hard about how they conquer the last frontier – whether it’s by creating genetically modified astronauts that photosynthesise, yes, you read that right, or futuristic materials.


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Today the average cost of transporting a pound of equipment into space is $10,000 and in the past to minimise the weight of their payloads NASA has been experimenting with inflatable habitats for the International Space Station (ISS) and shape shifting rods. Now though they’ve turned their attention to creating multi-purpose 4D printed materials.



Over the past two years the teams at NASA’s Jet Propulsion Laboratory (JPL) have been working on creating a metallic space fabric made of interlocking stainless steel squares that looks a lot like chain mail.

Unlike it’s ancient counterpart though the new fabric isn’t welded together, instead a 3D printer extrudes stainless steel as a continuous sheet of material with different properties on each side. On the front of the fabric, are rows of shiny, flat squares that reflect heat and light, while on the back, a series of interlocking loops help the fabric absorb heat, and together, the single piece of material acts like a super strong shield that can protect astronauts and space craft from the deadly ravages of space.


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The fabric isn’t special in its functionality, per se, NASA already uses materials on its spacecraft that reflect heat, absorb heat, and protect them from flying debris but until now, NASA didn’t have a single material that could do all three.

“We wanted to see if a structure could do something beyond being a static piece of material,” says Raul Polit Casillas, a systems engineer at JPL who worked on the new fabric.

I know what you’re all thinking now – I talked about a 4D printed material but so far I’ve only talked about 3D printing, so let’s add that extra dimension right now.

NASA was only able to bake multiple properties into the single material thanks to the wonders of 4D printing – an ascending manufacturing technique that uses a 3D printer to layer multiple textures and geometries into a single design.


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MIT researcher Skylar Tibbits, who’s appeared on my blog before, the last time when we discussed 4D printed space stations that could assemble themselves in space, coined the phrase several years ago to show how a 4D printed material could shape shift or self assemble. Using 4D printing, for instance, engineers could program a piece of metal to unfold at a certain heat or design a plastic to expand or contract under certain environmental conditions. Or, in the case of NASA’s space fabric, a fabric with flexible geometry that can both reflect and radiate heat.

Unlike traditional sheets of metal the chain mail can bend and fold with minimal effort while still remaining strong and this makes it valuable, and given how it’s manufactured it could be printed in situ on the space craft, or the ISS, and used to deflect heat on sensitive components like antennas and reflectors. It could just as easily be used on missions to Jupiter’s moon Europa, where the rough side would act like tire treads on the moon’s icy surface, or as armour for astronauts and vessels.


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“Of course, you could use this for fashion, too,” says Casillas.

NASA is still at the beginning of its 4D printing journey so naturally Casillas says there’s a lot more to come adding that in time he expects his team to develop materials with more advanced built in capabilities such as the ability to move electrons, transfer energy, and shape shift.

“[The point] is to increase the science we can do per kilogram,” he adds, and from the looks of it we should expect some more very cool science soon.

Matthew Griffin Global Futurist, Tech Evangelist, X Prize Mentor ● Int'l Keynote Speaker ● Disruption, Futures and Innovation expert

Matthew Griffin, Futurist and Founder of the 311 Institute, a global futures think tank, is described as “The Adviser behind the Advisers.” Recognised in 2013, 2015 and 2016 as one of Europe’s foremost futurists, innovation and strategy experts Matthew mentors several XPrize teams, and is an award winning author, entrepreneur and international speaker who is regularly featured on the BBC, Discovery, Kurzweil, Newsweek, TechCrunch and VentureBeat. Working hand in hand with accelerators, investors, governments, multi-nationals and regulators around the world Matthew shines a light on the future and helps them transform their industries, organisations, products and services by demonstrating how the combination of democratised, and increasingly powerful emerging technologies, are helping fuel cultural, industrial and societal change that is transforming old industries and creating new ones. Matthew’s clients include Accenture, Bain & Co, Bank of America, Booz Allen Hamilton, Boston Consulting Group, Dell EMC, Deloitte, Deutsche Bank, E&Y, Fidelity, Goldman Sachs, Huawei, JP Morgan Chase, KPMG, McKinsey & Co, PWC, Qualcomm, SAP, Schroeder’s, Sequoia Capital, UBS, the UK’s HM Treasury, the USAF and many others.

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