The most important step in digitizing any manufacturing or supply chain process is analysis of the ROI and business case and being able to demonstrate success to company leaders.
Industrial computed tomography is a cost-effective, reliable way to meet intensifying
requirements for qualifying both the design of aerospace parts and the materials needed for their construction.
Fastems has published “The CNC Automation Guide for Existing Machine Tools” to help manufacturers through a transition into using FMS.
The right tooling can have a profound effect on a shop’s competitiveness and future growth.
Computed tomography (CT) scan data analysis can help trace failures and performance shortcomings back to their design roots.
Datanomix and ProShop ERP, a supplier of digital manufacturing management systems, today announced a partnership to help manufacturers deliver more insights from their operational data.
For Dale Mickelson, Yasda product manager at Methods Machine Tools Inc. (Sudbury, MA) and author of several books on hard milling, tackling heat-resistant superalloys (HRSAs) requires the perfect combination of machine, workholding, tooling, tool paths and coolant.
Swiss-style machine tools can be a good choice for making complex parts. On the downside, however, Swiss machining itself has a reputation of being complex—and, therefore, more difficult to master than standard machining.
In a perfect CNC world, the first part is always a good one. There’s no need for extra blanks or barstock. Setup times are only as long as is needed to swap out a few tools and load a new program. There’s never a crash, never the need to reprogram an inefficient bit of code. The operator just pushes the green button and out pops a finished workpiece minutes or hours later.
At the Nirvana Machine Shop on planet Perfection, every workpiece is clamped to a custom-built fixture mounted on a dedicated machine tool. Each workpiece is dimensionally identical to the one before and the one after. All the fixtures are totally automatic—instantly positioning, clamping, machining, inspecting, and releasing the part with the ultimate precision.