As additive manufacturing (AM) moves from prototypes to mass production, manufacturers are setting their sights on the holy grails—the products and processes that will be game-changers. Many game-changers are already in play.
As with any digital transformation process, the devil is in the details, and there are many potential pitfalls that can derail projects.
While precision, part programs and productivity have improved markedly, the basic process is still the same.
IMCO Carbide Tool has launched a new series of endmills for extreme tool paths in aluminum alloys and provide superior surface finishes in aerospace industry applications.
Sandvik has signed an agreement to acquire 67 percent of Chuzhou Yongpu Carbide Tools Co., Ltd, a China-based maker of solid round tools, with a call option to buy the remaining part in three years.
Shifts in microchip-making to aid automotive, medical
Solid-carbide round tools have seemingly been around forever; before them, high-speed steel (HSS) tools ruled the roost, and after them a growing selection of alternative processes like indexables, EDM, waterjet and now additive manufacturing emerged as competition.
After three years of work, military researchers are near the end of a project to find a faster, cheaper way to make tools for large aerospace parts like skins for wings and fuselages.
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.
The U.S. Department of Defense (DoD) is set to award $10 million in funding this year to the Digital Manufacturing and Design Innovation Institute (DMDII) here, UI Labs CEO Caralynn Nowinski Collens, said this morning. UI Labs is DMDII’s parent organization.
