Pittsburgh, PA – June 12, 2018 — Advanced Robotics for Manufacturing (ARM) is proud to announce the awardees of its first round of project funding to strengthen U.S. manufacturing. Separate from ARM’s first official project call, these projects were selected upon ARM’s inception to begin generating timely impact on the national manufacturing landscape and serve as examples of ARM’s mission.
When wrestling with vexing issues such as product complexity, lightweighting, advanced materials and new manufacturing methods, today’s manufacturing engineers increasingly use high-fidelity simulations to visualize solutions to these challenges.
An interview with Diego Tamburini, Principal Industry Lead, Azure Manufacturing Microsoft Corp.
The University of Illinois at Urbana-Champaign (UIUC; Urbana, IL) has a long, distinguished history and tradition in mechanical and applied engineering sciences, and the university will soon celebrate the opening of a long-planned, multi-million-dollar expansion to its Mechanical Science and Engineering (MechSE) building.
A key success factor for Industry 4.0 and IIoT (Industrial Internet of Things) initiatives is the emergence of more and better sensors in machining centers, and even in the cutting tools themselves. These sensors provide the data and connectivity that are the foundation for the “factory of the future.”
Technology systems provider Siemens USA (Washington) has been selected by Boeing (Chicago) to implement new automation solutions aimed at developing automation standards that will make Boeing’s manufacturing systems more efficient and safer.
Hats off to tool manufacturers! They make some of the most geometrically complex products out of the toughest materials and with the tightest tolerances. And yet cutting tools represent only 3% of the total cost of the average metalworking process.
For the most part, EDMing is an unattended, or at least lightly-attended process. Unlike CNC lathes and machining centers, where a broken cutter during the night can make for a truly bad morning, sinking a mold cavity or cutting a trim die requires little in the way of babysitting—why wouldn’t you let the machine run on its own after everyone’s gone home for the day?
PowerMill 2019 provides a dedicated suite of tools to program high-rate additive processes—commonly known as directed energy deposition [DED]. The DED process utilizes a CNC machine tool or industrial robot that can focus a power source—typically laser, arc or electron-beam—at a point in space.
DP Tool & Machine Inc. (Avon, NY) is a contract machine shop that benefits from a well-rounded array of advanced machining and manufacturing technologies. These include multitasking and five-axis machines as well as automation and some digital connectivity.
