Taking 3D Printing to 4D

By MoneyMorning.com.au

If you’ve been a longtime reader, you know how 3D printing is a revolution poised to change how things are made across the globe.

But do you know about 4D printing?

4D printing is 3D printing with ‘smart’ ink…that evolves over one more dimension: time.
‘Smart ink’ is basically different materials combined together that adapt to their environment. They could change shape or appearance in response to heat, light, air, fluid or pressure. How it happens depends on their smaller parts and how they’re programmed. In other words, 4D printing is not about the technology that manipulates materials, but rather, the materials that manipulate themselves.

Like a seed following the instructions of its DNA, we can 3D print materials that self-assemble into the fourth dimension. They can camouflage themselves with ‘skins’ that ‘heal’ or coatings that self-repair. Submarines could cloak themselves based on the water they passed through. Airplane wings could change like metal origami based on where they fly and what they carry.

Right now, 4D printing is in its experimental phase, but some companies have already shown interest. The US Army Research Office awarded $855,000 in 2013 to three universities to make advances in 4D printing. The most well-known project, however, is going on at MIT.

The idea behind 4-D printing,‘ says director of MIT’s Self-Assembly Lab Skylar Tibbits, ‘is that you take multimaterial 3-D printing…and you add a new capability, which is transformation. Part of my work had been writing code to digitally design things. If we can write code to operate a machine, why can’t we also use code to get things to assemble themselves?

Tibbits believes materials could contain the ‘software’ needed for self-assembly, saving time and money. The materials would mimic the movements of machine-assembled devices driven by actuators, motors and sensors. In an interview with Scientific American, he uses the example of a thermostat, one that’s not digital:

If you pull off the cover of that thermostat, there’s a coil with a bimetallic strip. You have two metals sandwiched together with different expansion rates. When subtle temperature changes happen, it turns the coil to the left or right. That turns a dial to either increase or reduce heat. There’s no motor or traditional sensor. It’s just a material that’s expanding and contracting and turning a dial.

Already, he’s tested 4D printing on a fairly large scale, printing a 50-foot strand material and then placing it in a pool. The angles and orientation of the black, rigid plastic changed over time as it was submerged. Attached to this strand was a white plastic that expanded 150%, causing it to fold.

But despite all of the excitement, Tibbits admits that 4D printing is still in the early states, and that he’s just one research lab: ‘Our job is to push knowledge and discover new things. We don’t develop new products; we rely on industry for that. The development of new 4-D printing applications depends on strong collaboration with businesses interested in pursuing this technology.

Those at his Self-Assembly Lab believe the tech is powerful enough to disrupt ‘biology, material science, software, robotics, manufacturing, transportation, infrastructure, construction, the arts and even space exploration.‘ He believes two segments hold the most promise in the near term: extreme environments and large-scale infrastructure. Space, where oxygen lacks and temperatures freeze, is one example. Underground is one more.

Harsh environments like outer space would, indeed, be made more accommodating. And with that, let’s check out my personal favourite space where a more immediate, more practical application is: underground.

One Potential Application: A Solution to a $350 Billion Problem

It’s time to rescue the most vital resource on the planet: water.

We take water for granted all the time. About 60% of your body is made up of it.

You can survive three weeks without food.

But without water? Try three days. We don’t recommend it…

Throughout history, the great civilisations understood its value: Egypt, with its pyramids by the Nile, and Rome, with its monumental aqueducts. But here in the US, our modern-day empire is in serious trouble. Many of the big water systems were built not long after the Second World War. In fact, 30% of water pipes are 40-80 years old. 10% are older.

That’s why if you listen closely, dear reader, you may be able to hear it…

Water mains breaking around the country every two minutes – 700 a day, on average.

A few months ago around our Baltimore office, the city’s main street was flowing like a river. Still, that was nothing compared with what happened on the Potomac. A pipe erupted so fiercely helicopters had to be called in to rescue people before they drowned.

It’s the same everywhere else. In Philadelphia, cars and homes have been flooded. On the West Coast, Los Angeles’ famous Ventura Boulevard has been swamped.

When something like that happens, you tend to be asked by local officials to stop watering your lawn and washing your car. Cut back on using toilets, they recommend. Same with dishwashers and washing machines. The fire departments need all they can get in case chaos breaks out. But it becomes more than an inconvenience when it gets really bad. Even worse than property loss, bacteria and viruses can enter the greater water supply through broken pipes. The 2008 salmonella outbreak that sickened over 250 people in Alamosa, Colo., is a small example.

In fact, the nation’s drinking water system is so troubled the American Society of Civil Engineers gave it a grade of D-plus in its 2013 Report Card for America’s Infrastructure.

You can’t have jobs, you can’t have businesses, homes, you can’t have hotels, homes, if this infrastructure isn’t in place,‘ says Eric Goldstein of the Natural Resources Defense Council.

And guess where action needs to be taken most? I’ll give you a clue: It also has among the highest crime rates – official and unofficial.

Washington, DC’s, average pipe is 77 years old. In the wake of the Great Recession, funds dried up to fix the water problem. Some $10 billion were allocated from the stimulus package. But according to CNN, the funds needed over the next 20 years are $334.8 billion. The more we wait, the worse it gets. So much for the government taking care of the public’s single most basic service: drinking water…

Fortunately, our friend at MIT, Mr. Tibbits, has shown the potential of 4D printing as a solution. Tibbits is working more than a tad bit with a Boston company called Geosyntec to develop a new paradigm in water infrastructure. Rather than use fixed-capacity water pipes, they’re experimenting with nanoscale adaptive materials built from the environment. The best 4D printing tech is based on the work nature has already spent billions of years producing. 4D printing with adaptive pipes to correct our water piping reminds me a lot of how human veins expand and contract to accommodate blood flow. The 4-D printing solution is similar.

Imagine if water pipes could expand or contract to change capacity or change flow rate,‘ Tibbits said in a recent TED talk. ‘Or maybe [they] undulate like peristaltics to move the water themselves,‘ he said. ‘This isn’t expensive pumps or valves,‘ he continues. ‘This is a completely programmable and adaptive pipe on its own.‘ This is, of course, only the beginning. ‘Manufacturing could be more like growing,‘ he said in a BBC interview in July, 2013. ‘Maybe the construction sites in the future, we play Beethoven and structures build themselves.

Regards,

Josh Grasmick,
Contributing Editor, Money Morning

Ed Note: The above is an edited version of an article originally published in The Daily Reckoning America.

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By MoneyMorning.com.au