Researchers at the City University of Hong Kong (CityU) have come up with a way of making 3D printed polymeric lattice parts 100-times stronger than before.
Compared to traditional heat treatments, which strengthen plastic printed objects at the cost of deformability, the CityU approach only partially carbonizes them, to make them more robust and twice as ductile. Using their process, the team say it could be possible to realize sophisticated 3D prints with mechanical properties tailored to specific applications, such as coronary stents or bio-implants.
“We found a way to convert weak and brittle 3D printed photopolymers into ultra-tough 3D architectures comparable to metals and alloys just by heating them under the right conditions, which is surprising,” says CityU Professor Lu Yang. “Our work provides a low-cost, simple and scalable route for making lightweight, strong and…
