Continuous liquid interface production of 3D objects

Tumbleston, John R.; Shirvanyants, David; Ermoshkin, Nikita; Janusziewicz, Rima; Johnson, Ashley R.; Kelly, D.Q.; Chen, Kai; Pinschmidt, Robert K.; Rolland, Jason P.; Ermoshkin, Alexander; Samulski, Edward T.; DeSimone, Joseph M.

doi:10.1126/science.aaa2397

articleScienceMar 16, 2015BRONZE OA

Continuous liquid interface production of 3D objects

JRJohn R. Tumbleston DSDavid Shirvanyants NENikita Ermoshkin RJRima Janusziewicz ARAshley R. Johnson

Carbon180 · University of North Carolina at Chapel Hill · +1 more institution

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Abstract

Fast, continuous, 3D printing Although three-dimensional (3D) printing is now possible using relatively small and low-cost machines, it is still a fairly slow process. This is because 3D printers require a series of steps to cure, replenish, and reposition themselves for each additive cycle. Tumbleston et al. devised a process to effectively grow solid structures out of a liquid bath. The key to the process is the creation of an oxygen-containing “dead zone” between the solid part and the liquid precursor where solidification cannot occur. The precursor liquid is then renewed by the upward movement of the growing solid part. This approach made structures tens of centimeters in size that could contain features…

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Topics & keywords

Topics

Keywords

Process (computing)
Process engineering
3D printing
Production (economics)
Computer science
Production cycle
Key (lock)
Interface (matter)

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