Filter By “Additive Manufacturing”

In the future, agile development, delivery speed, and efficient job coordination will add up to a decisive competitive advantage. This new white paper goes in depth to the specific engineering issues involved for successful implementation.

The realization of custom-designed 3D printed circuit boards (PCBs) was achieved with a Nano Dimension DragonFly 3D printer which enables PCBs that are designed around a standard 1.25mm ferrule for optical connection of the optical fiber to provide full compatibility with standard light delivery system.

In this work, a shared-aperture dual-band FZP metalens antenna is proposed by merging two single-band FZP metalens antennas, operating at distinct frequency bands, seamlessly into one. Instead of using conventional metallic conductors, double-screen meta-grids are devised in this work to form the concentric rings.

It’s very likely additive manufactured electronics (AME) will be central to building the next generation of highly integrated device antennas. The current high cost and long cycle of production for mm-wave antenna-in-package (AiP) makes proof-of-concept customized prototyping difficult.

Moore’s law is coming to an end according to many science and technology commentators. Among them is the celebrity theoretical physicist Michio Kaku who predicted in 2012: “In about ten years or so, we will see the collapse of Moore’s law.”

Learn how integrating piezoelectric thin film with multi-material metal-and-dielectric 3D printing, can produce flexible sensors that are suitable for testing opto-electro-mechanical performance and biochemical sensing.

Additive manufacturing technologies have advanced to the point where 3D printing processes and systems have moved outside the laboratory and onto the factory floor. More than 90% of Fortune 500 manufacturing CEOs agree that additive manufacturing will play a pivotal role in their operations in the future, and we can expect greater use of these...

Additive manufacturing has its roots in the 1980s and has gradually matured into a formidable set of technologies. What was once viewed as a technology for building plastic widgets in college dorm rooms is now being used in a variety of industries, including aerospace, defense, mobile/IoT, and medical devices.