Rapid prototyping is a staple of every designer and engineer’s workflow—essential for testing new concepts, verifying designs, and meeting increasingly aggressive time-to-market goals. Regardless of the industry or product, all engineers must consider the speed, accessibility, cost, and output of these additive manufacturing equipment.
While looking for inspiration for this column,Ilene Wolff came across a rousing magazine headline. “Why the Women in 3D Printing Innovator Award Is Important,” the TCT Magazine headline read.
The National Institute for Metalworking Skills (NIMS) and the Oregon Manufacturing Innovation Center – Research & Development (OMIC R&D) have united to define a set of Metrology standards and to develop a Metrology certification process.
August 2019 U.S. cutting tool consumption totaled $205.1 million according to the U.S. Cutting Tool Institute (USCTI) and AMT – The Association For Manufacturing Technology.
Kennametal Inc., Pittsburgh, has formed a 3D printing materials and production business unit, Kennametal Additive Manufacturing, as part of its Infrastructure segment.
Kyocera Precision Tools, Hendersonville, N.C., has introduced a CVD Coated Cermet Grade for production in a wide range of finishing applications. The CCX Grade is a new technology composed of a unique, high-strength cermet insert with a thick layer of CVD coating.
Hard turning has long been used for finishing when it comes to high-volume applications. Now, tooling suppliers have pushed cubic boron nitride (CBN) insert technology further, with geometric innovations that further increase the efficiency—and cost-effectiveness—of hard turning.
The keynote for Haimer USA’s May Open House at its headquarters in Villa Park, Illinois, was delivered by President Brendt Holden, who remarked that his company’s toolholding and related products are designed to provide consistent setup for their customers’ machining jobs.
More and more manufacturers are seeing productivity as a crucial factor to their business success. In the meantime, business models are changing from the large quantities and few variants to small quantities with frequently changed variants. This change requires high flexibility during production.
Manufacturing got smart when companies figured out how to make products in one market and sell them in another. Today, we call this supply chain logistics. But somewhere along the way, the innovation chain connecting supply (manufacturing) and logistics (the supporting infrastructure) started to diverge.