3D-printed wood furniture could ship flat, then dry into shape

These chairs will assemble themselves.
Sign up for the Freethink Weekly newsletter!
A collection of our favorite stories straight to your inbox

A new way of 3D printing wood that takes advantage of warping could change how we build things in the future — an innovation that could potentially save us all time and money.

The challenge: Wood is made of fibers that absorb moisture like a sponge. If lumber isn’t dried properly, the wood will eventually shrink — bending or twisting in different directions depending on the orientation of the fibers.

That’s called “warping,” and it’s usually something we try to avoid — a warped door won’t close properly, and a warped floor will look wavy rather than flat.

The idea: A team from the Hebrew University of Jerusalem (HUJI) has now developed a new technique for 3D printing wood that turns warping into a tool rather than a nuisance. 

By mixing superfine, filtered sawdust with binding agents, they created an ink that could be extruded from a 3D printer. By printing the ink at various speeds and along different pathways, they discovered that they could control the shape the wood warped into after drying.

The 3D printing tech could be used to control the shape the wood warped into after drying.

A flat disk created by 3D printing wood ink in concentric circles would dry into a shape similar to a Pringles potato chip, for example, while a flat disk created by printing rays out from a center point would dry into a cone shape.

Faster printing led to more directional shrinkage as the ink dried, while slower speeds left the wood fibers more randomly oriented, causing the wood to shrink in all directions evenly.

Looking ahead: The team is still experimenting with its technique for 3D printing wood, but in the future, it imagines manufacturers could print wooden objects, such as furniture, in flat layers and then ship them out in sealed containers.

These flat packages would potentially cost less to ship than bulky ones, and once opened, the ink would dry and the object would warp into its final shape — no assembly required.

The researchers think it might even be possible to repeatedly change the shape of objects 3D printed out of wood, to potentially breathe new life into an old piece of furniture, for example.

“We hope to show that under some conditions we can make these elements responsive — to humidity, for example — when we want to change the shape of an object again,” said co-principal investigator Eran Sharon.

We’d love to hear from you! If you have a comment about this article or if you have a tip for a future Freethink story, please email us at [email protected].

Sign up for the Freethink Weekly newsletter!
A collection of our favorite stories straight to your inbox
Related
3D-printed skin could heal wounds with less scarring
Penn State scientists have 3D-printed skin directly on top of open wounds — an achievement that could improve reconstructive surgery.
New 3D printing technique creates life-like robots
A new 3D-printing technique, vision-controlled-jetting, can be used to create a robotic hand, complete with bones, ligaments, and tendons.
Stanford plans to put a 3D-printed human heart in a pig by 2028
Using 3D bioprinting, scientists are trying to construct perfect replacements for damaged organs, bones, and tissues.
Ultra slippery toilet bowl stays clean forever
A new slippery toilet bowl developed in China could help conserve water and keep commodes effortlessly clean.
Natural killer cells now have a better shot at destroying cancer
A 3D-printing-based approach could make immunotherapies based on natural killer (NK) cells better equipped to destroy cancer.
Up Next
Subscribe to Freethink for more great stories