New 3D Printing Technology Is 100 Times Faster, Claims Startup

New 3D Printing Technology Is 100 Times Faster, Claims Startup
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A US startup has developed a new 3D printing technology that uses light and oxygen to print solid objects at speeds 25 to 100 times faster than current technology.

The 3D printing technology developed by Silicon Valley startup, Carbon3D Inc, enables objects to rise from a liquid media continuously rather than being built layer by layer as they have been for the past 25 years, representing a fundamentally new approach to 3D printing, researchers said.

The technology allows ready-to-use products to be made 25 to 100 times faster than other methods and creates previously unachievable geometries that open opportunities for innovation not only in health care and medicine, but also in other major industries such as automotive and aviation.

The technology, called Continuous Liquid Interface Production (CLIP) manipulates light and oxygen to fuse objects in liquid media, creating the first 3D printing process that uses tunable photochemistry instead of the layer-by-layer approach that has defined the technology for decades.

It works by projecting beams of light through an oxygen-permeable window into a liquid resin.

Working in tandem, light and oxygen control the solidification of the resin, creating commercially viable objects that can have feature sizes below 20 microns, or less than one-quarter of the width of a piece of paper.

"By rethinking the whole approach to 3D printing, and the chemistry and physics behind the process, we have developed a new technology that can create parts radically faster than traditional technologies by essentially 'growing' them in a pool of liquid," said Joseph M DeSimone, professor of chemistry at University of North Carolina at Chapel Hill and CEO of Carbon3D.

Through a research agreement between UNC-Chapel Hill and Carbon 3D, the team is currently pursuing advances to the technology, as well as new materials that are compatible with it.

CLIP enables a very wide range of material to be used to make 3D parts with novel properties, including elastomers, silicones, nylon-like materials, ceramics and biodegradable materials.

"In addition to using new materials, CLIP can allow us to make stronger objects with unique geometries that other techniques cannot achieve, such as cardiac stents personally tailored to meet the needs of a specific patient," said DeSimone.

"Since CLIP facilitates 3D polymeric object fabrication in a matter of minutes instead of hours or days, it would not be impossible within coming years to enable personalised coronary stents, dental implants or prosthetics to be 3D printed on-demand in a medical setting," DeSimone added.

The research appears in the journal Science.

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