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Learn about the new frontier in miniaturization and high-precision additive manufacturing.

Register now to learn how CBN-IIT and University of Alberta use AME to support medical research.

The new furnace has almost 10 times the size of the compact integrated furnace, dramatically increasing the throughput and efficiency

Learn about the new frontier in miniaturization and high-precision additive manufacturing.

Dr. Yang and his team at UTS discovered a unique AME solution for 5G mm-wave circuit-in-package (CiP) designs

Academic science, defense, and R&D labs, however, are exploring more unusual forms of conductive metal and polymer structures to test experiments and uncover new phenomena. Our latest research study features not conventional electronic components but rather an array of small metal structures that would be difficult, if not impossible, to fabricate any other way.

View this presentation to understand the DragonFly technology for Additively Manufactured Electronics (AME) as well as examples of devices designed and prototyped by University of Technology, Sydney.

AntiShock is developing a breakthrough electro-optical sensing medical device based on a tiny sensor. This device is built out of several small mechanical moving components that have to be strong and accurate. In order to validate its product and produce a working prototype, AntiShock had to locate and use advanced and accurate manufacturing technologies.