Fused deposition modeling is a 3D printing technology that has been explored for several industrial applications over the past few years. Writing in SN Applied Sciences, a team of researchers has presented a trial to convert a polymer fused deposition modeling 3D printer to print clay materials for ceramic devices.
The vast amounts of industrial waste generated by the construction industry present an opportunity to valorize materials for use in new building projects, improving the sustainability of the sector. A new study in the Journal of Cleaner Production has provided a comprehensive review of 3D printing concrete from industrial waste.
Used primarily to make customized machine parts, medical implants, knickknacks and other plastic objects, 3D printers are now branching out into the kitchen, promising new flavors, shapes and textures that could someday delight the most discriminating foodies.
The developers of a unique type of lightweight 3D-printed back brace that can sense how well it fits patients claims it could result in better scoliosis therapy.
Modern medical science is a story of innovation. Novel therapies, drugs, and treatments have improved the life expectancy and quality of life for millions of patients.
Cornell University scientists have designed unique computer modeling software that simulates the 3D printing process and successfully tested it aboard the international space station – ushering in a new era for deep space exploration.
A team of researchers recently published a paper in the journal Materials that demonstrated the correlations between poly ether ether ketone (PEEK) printing behaviors and nozzle temperatures in the fuse filament fabrication three-dimensional (FFF 3D) printing process.
The New VORSA 500 Reduces Support Removal Processing Times by over 50%.
In a recent study published in the journal Additive Manufacturing, researchers from China developed a post-fabrication polishing method for the interior of 3D printed metallic parts that incorporated a combination of electrochemical and mechanical polishing (EMCP) processes.
The production of solid oxide cells is a complex, challenging process. Recently, additive manufacturing (AM) otherwise known as 3D printing, has emerged as an advantageous production method. A pre-proof journal in Additive Manufacturing has explored the production of solid oxide cells using robocasting and inkjet printing.
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