The company’s G150 is aimed at small, high-precision parts made of tough materials.
Like just about every other manufacturing operation, welding has made the leap into the 21st century with automation, agile manufacturing processes, and offline programming.
Before the coronavirus pandemic upended normal life and essentially shut down commercial airliners, the aviation industry had a projected need for 40,000 new aircraft—planes, helicopters, air taxis, and unmanned aerial vehicles—in the next 20 years.
Honeywell Aerospace, part of global commercial and consumer engineering conglomerate Honeywell, produces a large number of the impellers and blisks used in commercial aeroplanes.
In spite of advancing digitalization, manual workstations are still indispensable because automation is not always profitable with small batch quantities or complex processes.
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.
Extreme complexity is inherent to jet engines of all sizes, from those on a Boeing 777x to ones that power the smallest drone.
Today’s job shops can distinguish themselves from competitors by adding deep hole drilling/gundrilling to their offerings. But complex, custom-built machines require more floor space and a bigger investment.
Betting that the worst of the pandemic will be over and travel restrictions lifted, the 2021 edition the machine tool exhibition is putting out the welcome mat to the world.
As more original equipment manufacturers (OEMs) and job shops “warm up” to the idea of laser welding, many have turned their attention to four specific technologies.