Cambridge engineers have begun a three-year research program to help speed up the manufacture of metallic 3-D printed parts and products, by using computer-generated holography.
Scientists have recently engineered a modular system based on the Rubik's cube to design and reconfigure microfluidic systems. Research teams had previously pursued the arrangement of microfluidic blocks in diverse conformations ...
The fabrication of complex ceramic or glass structures via stereolithography, a type of 3-D printing, has long been held back by the length of time at the back end of the process, which can be up to two days. A new technique ...
Forensic scientists at the University of Portsmouth have discovered a new way of presenting fragile evidence, by reconstructing a 'jigsaw' of human bone fragments using 3-D printing.
Plastic scintillators are one of the most used active materials in high-energy physics. Their properties make it possible to track and distinguish between particle topologies. Among other things, scintillators are used in ...
The Department of Energy's Oak Ridge National Laboratory has licensed a novel method to 3-D print components used in neutron instruments for scientific research to the ExOne Company, a leading maker of binder jet 3-D printing ...
It looks quite inconspicuous to the casual beholder, hardly like groundbreaking innovation: a small metallic chessboard, four millimeters long on either side. At first glance, it shines like polished steel; at second glance, ...
Brilliantly colored chameleons, butterflies, opals—and now some 3-D-printed materials—reflect color by using nanoscale structures called photonic crystals.
Doctors could soon be administering an entire course of treatment for life-threatening conditions with a 3-D printed capsule controlled by magnetic fields thanks to advances made by University of Sussex researchers.
Soft robots and biomedical implants that reconfigure themselves upon demand are closer to reality with a new way to print shapeshifting materials.
