By now, most of us in the manufacturing world are familiar with the steady stream of news describing organizations, large and small, providing medical equipment using 3D printers.
Advanced cutting tools can maximize metal removal rates (MRR) when machining even the most difficult-to-machine materials. Powered by the latest CAM programs, these machining strategies are known variously as high-speed, high-efficiency, optimized roughing and also by proprietary brand names like Mastercam’s Dynamic Milling.
Fiber laser welding continues to grow as it improves in weld quality, reliability and performance. Many fiber laser welding applications are autogenous, where the weld is formed entirely by melting parts of the base metal and no additional filler wire or powder is used
OMAX Corp. has announced a virtual trade show showcasing the ProtoMAX abrasive waterjet. Using the ProtoMAX as a teaching tool, OMAX will present a program of design, machinery, and innovation as it pertains to the advancements of abrasive waterjet technology.
An executive at HP Inc. talked to SME Media about the state of the company's 3D printing business, including how recent announcements are intended to boost the operation.
Lawyers, doctors, engineers, and regulators all must converse to advance 3D printing in medicine.
Using Blockly to make robots easier to install and operate without specialized training.
Compared to machining and other traditional metalworking processes, additive manufacturing (AM) is a newcomer. Most industry experts trace its birth to 1987, when Chuck Hull of 3D Systems fame introduced the first commercially available stereolithography machine, the SLA-1.
Additive manufacturing, or 3-dimensional (3D) printing, continues to rapidly develop across a number of industries.
Cutting tool consumption in January 2020 rose 5 percent compared with December 2019, according to the U.S. Cutting Tool Institute and AMT - The Association for Manufacturing Technology.