The ongoing digital transformation of manufacturing comes baked-in with many uncertainties, and the automotive business is no exception.
Shops today must track or measure their manufacturing operations to improve them. This need drives the growing use of MTConnect—an open, royalty-free protocol for extracting data from practically any piece of equipment, including machine tools and other manufacturing systems. The integration of MTConnect is a major undertaking, and can be a bit challenging unless certain preparations are made ahead of time.
SINUMERIK ONE digital-native CNC selected as the control of choice for new line of milling and turning production machines
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.
Automatic parallel parking, lane-keeping assistance, sensor-enabled maintenance, infotainment equipment and other advanced electronics are helping many automotive manufacturers differentiate their vehicles in a fiercely competitive, global marketplace.
More shops than ever are embracing waterjet cutting systems. And for the most part, the reason is that a number of customer-driven improvements/innovations to waterjet technology make it even more user friendly, productive and appealing to an ever-broadening array of manufacturers.
There have been many process improvement trends in manufacturing over the decades, and none have had more significant ROI than machine monitoring. The increase in machine monitoring is owed in large part to the rise in popularity of the open and royalty-free interconnectivity standard MTConnect.
Siemens PLM has a strategy to reinvent manufacturing by threading digital information from concept, through design to monitoring performance in the field. It is easy to get confused as to what all this means, but some concrete examples and definitions help explain it all.
To stay ahead in the game, manufacturers constantly seek an edge over the competition. With today’s CAD/CAM software, the builders of aircraft, automobiles and other complicated systems get the innovative programming tools needed to coax the most performance from complex, expensive machine tools.
Speeding up programming tasks on CAD/CAM software ranks at the top of machine shops’ requirements when faced with making quality parts on a deadline. The more efficient a shop’s toolpaths are, the less chance that any programming problems result in wasting very expensive machine time on the shop floor.