Digital twins are breathing life and innovation into increasingly more areas of manufacturing as well as solving challenges for machine shops of all sizes. With the skilled labor shortage and an ongoing effort to reshore high-tech manufacturing to the U.S., digital twins have a lot to offer.
The America Makes affiliate at Ohio State University develops additive technology and talent.
The SafeMate research project, funded by the German Federal Ministry of Education and Research (BMBF) in the “Innovations for the Production, Service and Work of Tomorrow” program, strategies and concepts were developed for the introduction and design of collaborative assembly workplaces.
Horizontal machining center technology—a long-time mainstay of OEMs and Tier One contract manufacturers—has morphed into space efficient, versatile machining platforms that any high-mix job shop can benefit from.
At Temescal Canyon High School in Lake Elsinore, Calif., I’m fortunate to work in a district that is supportive of career-oriented programs.
Three members of the OMAX Research and Development team, Michael Lo, Kevin Hay, and Dr. Axel Henning, have won the Best Paper at the Water Jet 2019 conference in the Czech Republic.
CAD/CAM improves generative design, print simulation, path programming and process control in additive manufacturing.
Five-axis machining has progressed from exotic to mainstream over the past few years.
Metal diffusion bonding is an essential joining method for achieving a high-purity interface when two similar metals require superior structural integrity. The process involves applying high temperature, and pressure to metals mated together in a hot press causes the atoms on solid metallic surfaces to intersperse and bond.
Bosch said it is moving forward with volume production of silicon carbide chips.