Today’s virtual technology enables faster and better product development. Planes, trains and automobiles are defined in CAD, subjected to virtual tests to see how they might fail, re-designed, virtually manufactured and virtually shown to customers to confirm market acceptance.
It’s not too difficult to understand the importance of machining aluminum for aerospace applications. High volumes of aluminum are used, principally for structural components.
Oerlikon AM, the additive manufacturing unit of technology group Oerlikon, and Siemens AG announced at Formnext a strategic agreement in which Siemens will provide Oerlikon AM with digital enterprise solutions that will help Oerlikon accelerate the industrialization of additive manufacturing.
Well into the 21st century, the medical industry faces a host of intriguing challenges, from aging populations to a growing range of personalized and at-home diagnostic and care devices—all set against a backdrop of increasing digital collection, transfer and storage of sensitive patient data.
Maybe your company specializes in aerospace or medical components, and you need to produce complex geometries in metals too tough to cut via conventional machining methods.
I’m always amazed by the wide range of technologies that go into the process of machining. At EASTEC 2019, I saw the latest and greatest technology from machine tool builders, cutting tool manufacturers, measurement providers, software developers, and many more.
Additive manufacturing, and AM machines, have gone mainstream over the past five years. The technology has advanced. More materials, including metals and composites, are being used for 3D printing, where parts are made from a digital design.
SkillsUSA wields a large shovel, but we have a big hole to fill. That hole is in the American economy and it is called the skills gap—the widening gap between the jobs available and the skilled workers ready to fill them.
California Polytechnic State University’s (Cal Poly) Industrial and Manufacturing Engineering (IME) Department is ensuring its students are prepared for the future of fabrication by integrating abrasive waterjet into its curriculum.
A single phone call changed my life forever. In 2003, I was sitting in my office at a fuel cell manufacturing company where I was vice president of operations. A voice on the other end of the line said, “Hello, my name is Mark Tomlinson. I’m calling as a representative of the SME Manufacturing Enterprise Council.”