For the highest levels of competitive benchrest and extreme long-range (ELR) shooting, feats of precision manufacturing and machining are required for success. Like Formula 1 racing cars or PGA golfers’ clubs, world-class competition rifles are made with highly engineered precision parts.
In this final installment of the Connected Machine Shop series, we’ll tackle the more technical and implementation-oriented aspects of an Industry 4.0 transformation.
The CEO of an artificial intelligence company discusses how AI affects workers and how AI can be deployed well.
Since 1996, the Plant 15 machining operations at Mercury Marine have included a reliance on automated machining cells. Over the years, the Fond du Lac, Wis.-based manufacturer and distributor of marine engines, parts, accessories and integrated systems has phased out some traditional manufacturing methods in favor of modern cells.
Manufacturers have begun using sensors and actuators to monitor their cutting processes and adjust parameters to optimize tool life and workpiece quality. However, traditional monitoring systems have some drawbacks.
Held on August 11, 2020 and streamed live from Mazak’s Midwest Technology Center, the All Axes LIVE digital event drew large crowds from across North America and worldwide, according to Mazak.
Extreme complexity is inherent to jet engines of all sizes, from those on a Boeing 777x to ones that power the smallest drone.
The Don Schumacher Racing team tests the limits of machining to stay competitive.
Complex molds containing cores and cavities with fine details and demanding surface finish requirements for injection molding, blow molding, glass molding or blow molding parts require high accuracy for use in automotive, medical, aerospace, or consumer products.
Gear generation equipment manufacturers turn toward, innovation to meet evolving customer needs. In this article, four gear cutting equipment manufacturers are featured along with equipment they planned on showing at IMTS 2020.