Laser 3D printing and marking systems are among the heavy-duty cutting and welding systems that had been scheduled for the IMTS Fabricating and Laser Pavilion—testament to the growing impact of what once might have been viewed as ancillary processes.
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
Balanced toolholding assemblies, with even weight distribution, operate better. Unbalanced assemblies may experience vibration and shorter tool life, which are amplified by high machining speeds.
Industry 4.0 creates new possibilities for leveraging data to increase production automation, throughput, quality and efficiencies.
CESMII project calls target development of core smart manufacturing technologies
and solutions
Risk-management technology is beginning to help manufacturers cope with the supply-chain upheaval caused by the COVID-19 pandemic, said Thomas Derry, CEO of the Institute for Supply Management: “We are a lot better at managing risk than even 10 years ago.”
Tacoma, Washington-based Tool Gauge manufactures precision metal and plastic components and assemblies for the aerospace industry.
Composite materials consist of fibers—in the aerospace industry, they are typically glass, carbon or kevlar—suspended in a matrix of epoxy resin.
The concept of the digital twin in A&D was born in the 1970s, when NASA began employing full-scale virtual mock-ups of space capsules to forecast the performance of machines in outer space.