Design and evaluation of 3D printed instruments for eye surgery

Additive manufacturing (AM) techniques continue to evolve pushing the boundaries of what is possible to print. For example, a strong benefit of 3D printing is that complex shapes can be printed in advanced, integrated 3D layouts without the need for assembly. However, one of the main drawbacks of 3D printing is the limited manufacturing accuracy, making it difficult to create tight tolerances in miniature high precision applications.

Continue reading “Design and evaluation of 3D printed instruments for eye surgery”

Design and evaluation of 3D printed instruments for eye surgery

Additive manufacturing (AM) techniques continue to evolve pushing the boundaries of what is possible to print. For example, a strong benefit of 3D printing is that complex shapes can be printed in advanced, integrated 3D layouts without the need for assembly. However, one of the main drawbacks of 3D printing is the limited manufacturing accuracy, making it difficult to create tight tolerances in miniature high precision applications.

Continue reading “Design and evaluation of 3D printed instruments for eye surgery”

3DIFIC is Gold Partner of Online 3D Medtech Printing Conference

3DIFIC

We welcome 3DIFIC as Gold Partner of Online 3D Medtech Printing Conference (4 CME credits), 2 February 2021, 14:00 – 18:00 CET REGISTER HERE

3DIFIC is an innovative startup, under the Italian Law, and has been spinoffed by the School of Medicine of the University of Perugia (Perugia, Italy). In the last years 3DIFIC has developed a number of cases in surgery and in dental practice. Now 3DIFIC accounts for a number of cases with either high complexity or high volumes potential, thanks to an extraordinary team that was put together in the years.

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