Aerospace is one of the main industries embracing additive technologies, and the large growth in industrial metal 3D printing over the past few years can be largely attributed to the A&D industry.
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Additive manufacturing needs to improve its quality and consistency as it assumes a bigger role in manufacturing, advocates of the technology say.
The partnership is intended to lay the foundation for the two companies to fulfill their shared vision of incorporating additive manufacturing into the traditional manufacturing workflow, helping it to become a universally recognized production practice which can benefit multiple industries, including aerospace, automotive, transportation, energy and industrial tooling.
Aircraft maker Boeing Co. (Chicago) was among the participants in a new round of investing in a Massachusetts 3D printing company.
It’s not often you get the opportunity to witness rapid, life-impacting change, but for those of us who have been in the 3D printing industry over the last few decades, we have witnessed just that. In the last 20-plus years, 3D printing has changed the definition of manufacturing from merely “one-size-fits-all” to “customized” production and from “high-volume” to “high-complexity/low-volume”—a startling paradigm shift that has enabled many new applications for the manufacturing industry.
At Cary Rosenberg’s company, Watts Water Technologies, validating material properties to ensure they are composed of the correct elemental composition is an important part of their work.
Proper drill selection, the geometry built into the drills themselves, applying proper drilling parameters, and a few tips and tricks from the pros can address nagging drilling problems such as drill breakage, unbroken chips, tool runout, poor hole edges, and poor tool life.
After decades of hype and predictions surrounding additive manufacturing (AM), AM is poised to be on the brink of becoming the disruptive technology that many have long expected. Disruptive technologies are often deemed too costly, less capable or too niche to replace incumbent technology. But over time, many of these technologies reach a tipping point and rapidly replace these incumbents.
Some in the medical industry are using silicone rubber molds made with a 3D-printed master pattern for low-to-mid production runs of cast polyurethane device housings.
Industrial lasers require cooling to remove excess heat generated in the resonator power electronics and the optics system. The type of cooling required is determined by laser wattage, resonator efficiency, resonator and optics temperature requirements, and ambient temperature.