shape-memory polymers tagged posts

Glaucio Paulino, a professor in Georgia Tech’s School of Civil and Environmental Engineering, and Jerry Qi, a professor in the George W. Woodruff School of Mechanical Engineering at Georgia Tech, hold objects 3-D printed that use tensegrity, a structural system of floating rods in compression and cables in continuous tension. (Credit: Rob Felt)

A team from Georgia Institute of Technology has developed a way to use 3D printers to create objects capable of expanding dramatically that could someday be used in applications ranging from space missions to biomedical devices. The new objects use tensegrity, a structural system of floating rods in compression and cables in continuous tension. The researchers fabricated the struts from shape memory polymers that unfold when heated.

“Tensegrity st...

In this series, a 3-D printed multimaterial shape-memory minigripper, consisting of shape-memory hinges and adaptive touching tips, grasps a cap screw. Credit: Photo courtesy of Qi (Kevin) Ge; Creative Commons Attribution Non-Commercial No Derivatives license

Heat-responsive materials may aid in controlled drug delivery, solar panel tracking. Engineers from MIT and Singapore University of Technology and Design (SUTD) are using light to print 3D structures that “remember” their original shapes. Even after being stretched, twisted, and bent at extreme angles, the structures – from small coils and multimaterial flowers, to an inch-tall replica of the Eiffel tower – sprang back to their original forms within seconds of being heated to a certain temperature “sweet spot...