EPFL scientists have created a breakthrough 3D printing method that uses hydrogels as templates to produce ultra-dense, durable metals and ceramics.
A new open-source tool is reshaping how engineers design multi-material objects. Charles Wade, a Ph.D. student in the ...
EPFL develops 3D printing method for dense, high-strength metals and ceramics, ideal for advanced engineering applicatio ...
Researchers at EPFL have developed a novel 3D printing process that allows for the creation of dense and complex metal and ...
Tom's Hardware on MSN
AmeraLabs introduces elastic 3D printing resin with long-lasting squish — a full bottle is priced at $140
FLX-300 features an exceptionally low compression set, enabling printed parts to spring back to their original shape after ...
Researchers have developed a 3D printing method that offers intricate constructions for next-generation energy, biomedical, and sensing technologies ...
Instead of starting with metal-containing resins, the EPFL team first creates a 3D scaffold using a simple water-based gel, ...
Discover the features of AmeraLabs FLX-300, a flexible elastomer resin that retains elasticity and hardness over time in 3D printing.
Scientists at EPFL have reimagined 3D printing by turning simple hydrogels into tough metals and ceramics. Their process ...
Interesting Engineering on MSN
New 3D printing creates ultra-strong materials that could resist 20 times more pressure
“Our work not only enables the fabrication of high-quality metals and ceramics with an accessible, low-cost 3D printing process; it also highlights a new paradigm in additive manufacturing where ...
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