MIT's new 3D-printer makes objects that remember their shape – Engadget


August 29, 2016 Facebook Twitter LinkedIn Google+ 3D Printed Articles


The team hasn’t developed temperature sensitive pills quiet yet, but the technology is halfway there. By combining a new 3D-printing process called microstereolithography with a special polymer mix that hardens or softens based on variant thermal conditions, researchers have been able to create tiny structures that can “remember” specific shapes. These objects can be molded to a specific shape at one temperature, “locked” to that shape at another temperature and will return to their original form at yet another temperature. Printed objects can also be stretched and twisted up to three times their original length without breaking.

The new printing process is so high resolution, that it can create structures about as thin as a human hair. It’s a little complicated, but the possibilities are fairly broad. The team hopes to use it to create biomedical devices, shape-changing solar cells and aerospace components — but the team isn’t quite there yet. Still, progress is being made: the group has used the technology to create a tiny, intricately detailed replica of the Eiffel tower as well as a tool capable of grabbing and lifting small objects. It’s a start.

The team hasn’t developed temperature sensitive pills quiet yet, but the technology is halfway there. By combining a new 3D-printing process called microstereolithography with a special polymer mix that hardens or softens based on variant thermal conditions, researchers have been able to create tiny structures that can “remember” specific shapes. These objects can be molded to a specific shape at one temperature, “locked” to that shape at another temperature and will return to their original form at yet another temperature. Printed objects can also be stretched and twisted up to three times their original length without breaking.

The new printing process is so high resolution, that it can create structures about as thin as a human hair. It’s a little complicated, but the possibilities are fairly broad. The team hopes to use it to create biomedical devices, shape-changing solar cells and aerospace components — but the team isn’t quite there yet. Still, progress is being made: the group has used the technology to create a tiny, intricately detailed replica of the Eiffel tower as well as a tool capable of grabbing and lifting small objects. It’s a start.

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