Polymer-based conductive nanocomposites, particularly those incorporating carbon nanotubes, are highly promising for the development of flexible electronics, soft robotics and wearable devices.
3D-printed lattice-like composites can be designed to detect their own strain, load and damage, according to the University of Glasgow. Crucially, the team has a complete theoretical model of the ...
Polymer-based conductive nanocomposites, particularly those incorporating carbon nanotubes, are highly promising for the development of flexible electronics, soft robotics and wearable devices.
Interesting Engineering on MSN
US scientists test heat-treated 3D-printed steels for next-gen nuclear reactors
The first study at Argonne National Laboratory focused on 316H, an established type of stainless steel for structural ...
3D printing has taken off as a niche manufacturing method, enabling consumers to design and build their own goods. As such, it now holds an important place in the manufacturing industry. Objects can ...
Collaboration will create specialized materials tailor-made for composite-based additive manufacturing NORTHBROOK, Ill.--(BUSINESS WIRE)--Impossible Objects today announced a joint development ...
If 3D printing companies and government agencies hope to police the spread of dangerous or pirated digital shapes, their task is about to get much more complicated. Late last month Matthew ...
Researchers created stretchable, conductive CNT composites with 3D printing, powering smart insoles and wearable sensors for ...
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