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3D Printing Progress
Posted on April 04, 2018

Scientists successfully print glass optics

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For the first time, researchers at Lawrence Livermore National Laboratory (LLNL) have successfully 3D-printed optical-quality glasses, on par with commercial glass products currently available on the market. For more information see the IDTechEx report on 3D printing materials.
 
In a study published in the journal Advanced Materials Technologies (link is external), LLNL scientists and engineers describe successfully printing small test pieces from Lab-developed ink with properties "within range of commercial optical grade glasses."
 
Because the refractive index of glass is sensitive to its thermal history, it can be difficult to ensure that glass printed from the molten phase will result in the desired optical performance, researchers said. Depositing the LLNL-developed material in paste form and then heating the entire print to form the glass allows for a uniform refractive index, eliminating optical distortion that would degrade the optic's function.
 
"Components printed from molten glass often show texture from the 3D-printing process, and even if you were to polish the surface, you would still see evidence of the printing process within the bulk material," said LLNL chemical engineer Rebecca Dylla-Spears, the project's principal investigator. "This approach allows us to obtain the index homogeneity that is needed for optics. Now we can take these components and do something interesting."
 
REPORT: Additive Manufacturing/Lightweight Mats
The custom inks, aimed at forming silica and silica-titania glasses, allow researchers the ability to tune the glass's optical, thermal and mechanical properties, Dylla-Spears said. For the study, researchers printed small, simple-shaped optics as proof of concept, but Dylla-Spears said the technique eventually could be applied to any device that uses glass optics and could result in optics made with geometric structures and with compositional changes that were previously unattainable by conventional manufacturing methods. For example, gradient refractive index lenses could be polished flat, replacing more expensive polishing techniques used for traditional curved lenses.
 
"Additive manufacturing gives us a new degree of freedom to combine optical materials in ways we could not do before," Dylla-Spears said. "It opens up a new design space that hasn't existed in the past, allowing for design of both the optic shape and the optical properties within the material."
 
The LLNL team is moving on to work on mixing and patterning the different material compositions in hopes of getting control over material properties and making gradient refractive index lenses. LLNL has filed a patent on the technique and already is receiving interest from large-scale glass manufacturers.
 
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Learn more at the next leading event on the topic: 3D Printing USA 2018 External Link on 14 - 15 Nov 2018 at Santa Clara Convention Center, CA, USA hosted by IDTechEx.