Laser micro-cutting can increase precision and enable contactless cutting for machines, leading to higher-quality products.
Unlocking Efficiency: Revolutionizing Tooling Management for Manufacturing Excellence. Discover how advanced automation software and hardware solutions are transforming tool inventory control, enhancing productivity, sustainability, and cost-effectiveness on the shop floor.
Resurrecting Lost Parts: 3D Scanning's Game-Changing Solution
One of the reasons the aerospace industry is so often talked about in trade journals is that it lives on the edge of new manufacturing technology development.
TRUMPF North America is embracing 3D printing, smart manufacturing and a vibrant workforce.
Additive manufacturing (AM) once was called “rapid prototyping.” Its earliest forms made prototype parts—and nothing else. However, manufacturers were intrigued by the prospect of using it to make cost-effective metal parts in production. That day is here.
The first kilowatt-class fiber laser for material processing was introduced by IPG Photonics in early 2002. Since that time, the adoption of fiber lasers for production applications has grown at a rapid rate. Today, fiber lasers are becoming the choice for most major production laser applications as well as converting traditional welding and cutting processes to fiber laser technologies.
It’s time to redefine AM and DfAM by what is possible from advanced LPBF systems—and to look ahead with the same determination the semiconductor industry used to better our lives.
The increased use of CT scanning for metal powder bed fusion parts is usually associated with high-value parts and elevated quality requirements. There are increased requests for CT scanning on parts made of engineering-grade polymers like PEEK, PEKK or ULTEM and for fiber-reinforced composites like Nylon 12 CF.
As 3D printing becomes integral to modern manufacturing operations, it must become integrated into supporting enterprise systems and interwoven with the latest industrial manufacturing methods