What about a flat piece of furniture that can fold away and open up on its own to save space? Or a car with self-repairing tyres? Or pipes that expand and contract depending on the amount of water flowing through them? Don’t forget about implants that can adapt to the body of a child that is still growing and that will dissolve when they are no longer needed. Or trainers that transform and adapt to your foot depending on movement and impact. Imagine an article of clothing that changes colour depending on its surroundings. The best labs and research teams in the world have been working on this superior version of digital printing with the goal of creating self-reliant, three-dimensional objects that are wire- and circuit-free. What would happen if manufactured three-dimensional objects were capable of behaving like living organisms, detecting external stimuli such as light, temperature, humidity, and electromagnetic fields, and then reacting and adapting to their surroundings? What would happen if they were able to bend, assemble and repair themselves, or even disintegrate on their own just by changing shape, size, colour, or function? And what if they could then also return to their original state? All of these hypotheses might seem like something out of a science fiction novel, but they are already a reality.īy combining developments in 3D technology with the use of so-called smart materials and then applying a mathematical model that can program and predict their behaviour, all of the above is possible.
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